Product Description
High Torque Spur Planetary Gear Speed Reducer Reduction Gearbox
Planetary gearbox is a kind of reducer with wide versatility. The inner gear adopts low carbon alloy steel carburizing quenching and grinding or nitriding process. Planetary gearbox has the characteristics of small structure size, large output torque, high speed ratio, high efficiency, safe and reliable performance, etc. The inner gear of the planetary gearbox can be divided into spur gear and helical gear. Customers can choose the right precision reducer according to the needs of the application.
Product Description
Description:
(1).The output shaft is made of large size,large span double bearing design,output shaft and planetary arm bracket as a whole.The input shaft is placed directly on the planet arm bracket to ensure that the reducer has high operating accuracy and maximum torsional rigidity.
(2).Shell and the inner ring gear used integrated design,quenching and tempering after the processing of the teeth so that it can achieve high torque,high precision,high wear resistance.Moreover surface nickel-plated anti-rust treatment,so that its corrosion resistance greatly enhanced.
(3).The planetary gear transmission employs full needle roller without retainer to increase the contact surface,which greatly upgrades structural rigidity and service life.
(4).The gear is made of Japanese imported material.After the metal cutting process,the vacuum carburizing heat treatment to 58-62HRC. And then by the hobbing,Get the best tooth shape,tooth direction,to ensure that the gear of high precision and good impact toughness.
(5).Input shaft and sun gear integrated structure,in order to improve the operation accuracy of the reducer.
Characteristic:
1.Single cantilever structure.simple design,economic price;
2.Working steady. Low noise;
3.Backlash 8-16 arcmin. Can suit most occasion;
4.Method blue axis output, standardized size;
5.The input connection specifications are complete and there are many chices;
6.Keyway can be opened in the force shaft;
7.Straight gear transmission,high precision,high torque;
8.Speed ratio range:3-100
9.Precision range:8-16arcmin
10.Size range:40-160mm
Specifications | PRF40 | PRF60 | PRF80 | PRF90 | PRF120 | PRF160 | |||
Technal Parameters | |||||||||
Max. Torque | Nm | 1.5times rated torque | |||||||
Emergency Stop Torque | Nm | 2.5times rated torque | |||||||
Max. Radial Load | N | 185 | 240 | 400 | 450 | 1240 | 2250 | ||
Max. Axial Load | N | 150 | 220 | 420 | 430 | 1000 | 1500 | ||
Torsional Rigidity | Nm/arcmin | 0.7 | 1.8 | 4.7 | 4.85 | 11 | 35 | ||
Max.Input Speed | rpm | 8000 | 8000 | 6000 | 6000 | 6000 | 4000 | ||
Rated Input Speed | rpm | 4500 | 4000 | 3500 | 3500 | 3500 | 3000 | ||
Noise | dB | ≤55 | ≤58 | ≤60 | ≤60 | ≤65 | ≤70 | ||
Average Life Time | h | 20000 | |||||||
Efficiency Of Full Load | % | L1≥96% L2≥94% | |||||||
Return Backlash | P1 | L1 | arcmin | ≤8 | ≤8 | ≤8 | ≤8 | ≤8 | ≤8 |
L2 | arcmin | ≤12 | ≤12 | ≤12 | ≤12 | ≤12 | ≤12 | ||
P2 | L1 | arcmin | ≤16 | ≤16 | ≤16 | ≤16 | ≤16 | ≤16 | |
L2 | arcmin | ≤20 | ≤20 | ≤20 | ≤20 | ≤20 | ≤20 | ||
Moment Of Inertia Table | L1 | 3 | Kg*cm2 | 0.1 | 0.46 | 0.77 | 1.73 | 12.78 | 36.72 |
4 | Kg*cm2 | 0.1 | 0.46 | 0.77 | 1.73 | 12.78 | 36.72 | ||
5 | Kg*cm2 | 0.1 | 0.46 | 0.77 | 1.73 | 12.78 | 36.72 | ||
7 | Kg*cm2 | 0.06 | 0.41 | 0.65 | 1.42 | 11.38 | 34.02 | ||
10 | Kg*cm2 | 0.06 | 0.41 | 0.65 | 1.42 | 11.38 | 34.02 | ||
L2 | 12 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | |
15 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
16 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
20 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
25 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
28 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
30 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
35 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
40 | Kg*cm2 | 0.08 | 0.44 | 0.72 | 1.49 | 12.18 | 34.24 | ||
50 | Kg*cm2 | 0.05 | 0.34 | 0.58 | 1.25 | 11.48 | 34.02 | ||
70 | Kg*cm2 | 0.05 | 0.34 | 0.58 | 1.25 | 11.48 | 34.02 | ||
100 | Kg*cm2 | 0.05 | 0.34 | 0.58 | 1.25 | 11.48 | 34.02 | ||
Technical Parameter | Level | Ratio | PRF40 | PRF60 | PRF80 | PRF90 | PRF120 | PRF160 | |
Rated Torque | L1 | 3 | Nm | / | 27 | 50 | 96 | 161 | 384 |
4 | Nm | 16 | 40 | 90 | 122 | 210 | 423 | ||
5 | Nm | 15 | 40 | 90 | 122 | 210 | 423 | ||
7 | Nm | 12 | 34 | 48 | 95 | 170 | 358 | ||
10 | Nm | 10 | 16 | 22 | 56 | 86 | 210 | ||
L2 | 12 | Nm | / | 27 | 50 | 95 | 161 | 364 | |
15 | Nm | / | 27 | 50 | 96 | 161 | 364 | ||
16 | Nm | 16 | 40 | 90 | 122 | 210 | 423 | ||
20 | Nm | 15 | 40 | 90 | 122 | 210 | 423 | ||
25 | Nm | 16 | 40 | 90 | 122 | 210 | 423 | ||
28 | Nm | 16 | 40 | 90 | 122 | 210 | 423 | ||
30 | Nm | / | 27 | 50 | 96 | 161 | 364 | ||
35 | Nm | 12 | 40 | 90 | 122 | 210 | 423 | ||
40 | Nm | 16 | 40 | 90 | 122 | 210 | 423 | ||
50 | Nm | 15 | 40 | 90 | 122 | 210 | 423 | ||
70 | Nm | 12 | 34 | 48 | 95 | 170 | 358 | ||
100 | Nm | 10 | 16 | 22 | 96 | 80 | 210 | ||
Degree Of Protection | IP65 | ||||||||
Operation Temprature | ºC | – 10ºC to -90ºC | |||||||
Weight | L1 | kg | 0.43 | 0.98 | 2.3 | 3.12 | 7.08 | 15.5 | |
L2 | kg | 0.65 | 1.26 | 2.97 | 3.82 | 8.7 | 17 |
Company Profile
Packaging & Shipping
1. Lead time: 10-15 days as usual, 30 days in busy season, it will be based on the detailed order quantity;
2. Delivery: DHL/ UPS/ FEDEX/ EMS/ TNT
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Application: | Industrial |
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Speed: | Low Speed |
Function: | Driving |
Casing Protection: | Closed Type |
Number of Poles: | 2 |
Starting Mode: | Direct on-line Starting |
Samples: |
US$ 99/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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Concept of Coaxial and Parallel Shaft Arrangements in Planetary Gearboxes
Coaxial and parallel shaft arrangements refer to the orientation of the input and output shafts in a planetary gearbox:
- Coaxial Shaft Arrangement: In this arrangement, the input and output shafts are aligned along the same axis, with one shaft passing through the center of the other. This design results in a compact and space-efficient gearbox, making it suitable for applications with limited space. Coaxial planetary gearboxes are commonly used in scenarios where the gearbox needs to be integrated into a compact housing or enclosure.
- Parallel Shaft Arrangement: In a parallel shaft arrangement, the input and output shafts are positioned parallel to each other but not on the same axis. Instead, they are offset from each other. This configuration allows for greater flexibility in designing the layout of the gearbox and the surrounding machinery. Parallel shaft planetary gearboxes are often used in applications where the spatial arrangement requires the input and output shafts to be positioned in different locations.
The choice between a coaxial and parallel shaft arrangement depends on factors such as available space, mechanical requirements, and the desired layout of the overall system. Coaxial arrangements are advantageous when space is limited, while parallel arrangements offer more design flexibility for accommodating various spatial constraints.
Differences Between Inline and Right-Angle Planetary Gearbox Configurations
Inline and right-angle planetary gearbox configurations are two common designs with distinct characteristics suited for various applications. Here’s a comparison of these configurations:
Inline Planetary Gearbox:
- Configuration: In an inline configuration, the input and output shafts are aligned along the same axis. The sun gear, planetary gears, and ring gear are typically arranged in a straight line.
- Compactness: Inline gearboxes are more compact and have a smaller footprint, making them suitable for applications with limited space.
- Efficiency: Inline configurations tend to have slightly higher efficiency due to the direct alignment of components.
- Output Speed and Torque: Inline gearboxes are better suited for applications that require higher output speeds and lower torque.
- Applications: They are commonly used in robotics, conveyors, printing machines, and other applications where space is a consideration.
Right-Angle Planetary Gearbox:
- Configuration: In a right-angle configuration, the input and output shafts are oriented at a 90-degree angle to each other. This allows for a change in direction of power transmission.
- Space Flexibility: Right-angle gearboxes offer flexibility in arranging components, making them suitable for applications that require changes in direction or where space constraints prevent a straight-line configuration.
- Torque Capacity: Right-angle configurations can handle higher torque loads due to the increased surface area of gear engagement.
- Applications: They are often used in cranes, elevators, conveyor systems, and applications requiring a change in direction.
- Efficiency: Right-angle configurations may have slightly lower efficiency due to increased gear meshing complexity and potential for additional losses.
Choosing between inline and right-angle configurations depends on factors such as available space, required torque and speed, and the need for changes in power transmission direction. Each configuration offers distinct advantages based on the specific needs of the application.
Common Applications and Industries of Planetary Gearboxes
Planetary gearboxes are widely utilized across various industries and applications due to their unique design and performance characteristics. Some common applications and industries where planetary gearboxes are commonly used include:
- Automotive Industry: Planetary gearboxes are found in automatic transmissions, hybrid vehicle systems, and powertrains. They provide efficient torque conversion and variable gear ratios.
- Robotics: Planetary gearboxes are used in robotic joints and manipulators, providing compact and high-torque solutions for precise movement.
- Industrial Machinery: They are employed in conveyors, cranes, pumps, mixers, and various heavy-duty machinery where high torque and compact design are essential.
- Aerospace: Aerospace applications include aircraft actuation systems, landing gear mechanisms, and satellite deployment mechanisms.
- Material Handling: Planetary gearboxes are used in equipment like forklifts and pallet jacks to provide controlled movement and high lifting capabilities.
- Renewable Energy: Wind turbines use planetary gearboxes to convert low-speed, high-torque rotational motion of the blades into higher-speed rotational motion for power generation.
- Medical Devices: Planetary gearboxes find applications in medical imaging equipment, prosthetics, and surgical robots for precise and controlled motion.
- Mining and Construction: Planetary gearboxes are used in heavy equipment like excavators, loaders, and bulldozers to handle heavy loads and provide controlled movement.
- Marine Industry: They are employed in marine propulsion systems, winches, and steering mechanisms, benefiting from their compact design and high torque capabilities.
The versatility of planetary gearboxes makes them suitable for applications that require compact size, high torque density, and efficient power transmission. Their ability to handle varying torque loads, offer high gear ratios, and maintain consistent performance has led to their widespread adoption across numerous industries.
editor by CX 2024-05-16
China Best Sales Speed Reducer Waf47, Wh47, Whf47 Series Gearbox for Construction Machinery Spare Parts planetary gearbox efficiency
Product Description
Product Description
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LOYSEW | KHF77AM182 |
LOYSEW | KHF77AM184 |
LOYSEW | KHF77AM213/215 |
LOYSEW | KA77AM56 |
LOYSEW | KA77AM143 |
LOYSEW | KA77AM145 |
LOYSEW | KA77AM182 |
LOYSEW | KA77AM184 |
LOYSEW | KA77AM213/215 |
LOYSEW | KV77AM56 |
LOYSEW | KV77AM143 |
LOYSEW | KV77AM145 |
LOYSEW | KV77AM182 |
LOYSEW | KV77AM184 |
LOYSEW | KV77AM213/215 |
LOYSEW | KH77AM56 |
LOYSEW | KH77AM143 |
LOYSEW | KH77AM145 |
LOYSEW | KH77AM182 |
LOYSEW | KH77AM184 |
LOYSEW | KH77AM213/215 |
LOYSEW | KAZ77AM56 |
LOYSEW | KAZ77AM143 |
LOYSEW | KAZ77AM145 |
LOYSEW | KAZ77AM182 |
LOYSEW | KAZ77AM184 |
LOYSEW | KAZ77AM213/215 |
LOYSEW | KVZ77AM56 |
LOYSEW | KVZ77AM143 |
LOYSEW | KVZ77AM145 |
LOYSEW | KVZ77AM182 |
LOYSEW | KVZ77AM184 |
LOYSEW | KVZ77AM213/215 |
LOYSEW | KHZ77AM56 |
LOYSEW | KHZ77AM143 |
LOYSEW | KHZ77AM145 |
LOYSEW | KHZ77AM182 |
LOYSEW | KHZ77AM184 |
LOYSEW | KHZ77AM213/215 |
LOYSEW | KT77AM56 |
LOYSEW | KT77AM143 |
LOYSEW | KT77AM145 |
LOYSEW | KT77AM182 |
LOYSEW | KT77AM184 |
LOYSEW | KT77AM213/215 |
LOYSEW | K87AM143 |
LOYSEW | K87AM145 |
LOYSEW | K87AM182 |
LOYSEW | K87AM184 |
LOYSEW | K87AM213/215 |
LOYSEW | K87AM254/256 |
LOYSEW | K87AM284/286 |
LOYSEW | KA87BAM143 |
LOYSEW | KA87BAM145 |
LOYSEW | KA87BAM182 |
LOYSEW | KA87BAM184 |
LOYSEW | KA87BAM213/215 |
LOYSEW | KA87BAM254/256 |
LOYSEW | KA87BAM284/286 |
LOYSEW | KV87BAM143 |
LOYSEW | KV87BAM145 |
LOYSEW | KV87BAM182 |
LOYSEW | KV87BAM184 |
LOYSEW | KV87BAM213/215 |
LOYSEW | KV87BAM254/256 |
LOYSEW | KV87BAM284/286 |
LOYSEW | KH87BAM143 |
LOYSEW | KH87BAM145 |
LOYSEW | KH87BAM182 |
LOYSEW | KH87BAM184 |
LOYSEW | KH87BAM213/215 |
LOYSEW | KH87BAM254/256 |
LOYSEW | KH87BAM284/286 |
LOYSEW | KF87AM143 |
LOYSEW | KF87AM145 |
LOYSEW | KF87AM182 |
LOYSEW | KF87AM184 |
LOYSEW | KF87AM213/215 |
LOYSEW | KF87AM254/256 |
LOYSEW | KF87AM284/286 |
LOYSEW | KAF87AM143 |
LOYSEW | KAF87AM145 |
LOYSEW | KAF87AM182 |
LOYSEW | KAF87AM184 |
LOYSEW | KAF87AM213/215 |
LOYSEW | KAF87AM254/256 |
LOYSEW | KAF87AM284/286 |
LOYSEW | KVF87AM143 |
LOYSEW | KVF87AM145 |
LOYSEW | KVF87AM182 |
LOYSEW | KVF87AM184 |
LOYSEW | KVF87AM213/215 |
LOYSEW | KVF87AM254/256 |
LOYSEW | KVF87AM284/286 |
LOYSEW | KA87AM143 |
LOYSEW | KA87AM145 |
LOYSEW | KA87AM182 |
LOYSEW | KA87AM184 |
LOYSEW | KA87AM213/215 |
LOYSEW | KA87AM254/256 |
LOYSEW | KA87AM284/286 |
LOYSEW | KV87AM143 |
LOYSEW | KV87AM145 |
LOYSEW | KV87AM182 |
LOYSEW | KV87AM184 |
LOYSEW | KV87AM213/215 |
LOYSEW | KV87AM254/256 |
LOYSEW | KV87AM284/286 |
LOYSEW | KAZ87AM143 |
LOYSEW | KAZ87AM145 |
LOYSEW | KAZ87AM182 |
LOYSEW | KAZ87AM184 |
LOYSEW | KAZ87AM213/215 |
LOYSEW | KAZ87AM254/256 |
LOYSEW | KAZ87AM284/286 |
LOYSEW | KVZ87AM143 |
LOYSEW | KVZ87AM145 |
LOYSEW | KVZ87AM182 |
LOYSEW | KVZ87AM184 |
LOYSEW | KVZ87AM213/215 |
LOYSEW | KVZ87AM254/256 |
LOYSEW | KVZ87AM284/286 |
LOYSEW | KT87AM143 |
LOYSEW | KT87AM145 |
LOYSEW | KT87AM182 |
LOYSEW | KT87AM184 |
LOYSEW | KT87AM213/215 |
LOYSEW | KT87AM254/256 |
LOYSEW | KT87AM284/286 |
LOYSEW | K97AM182 |
LOYSEW | K97AM184 |
LOYSEW | K97AM213/215 |
LOYSEW | K97AM254/256 |
LOYSEW | K97AM284/286 |
LOYSEW | K97AM324/326 |
LOYSEW | K97AM364/365 |
LOYSEW | KA97BAM182 |
LOYSEW | KA97BAM184 |
LOYSEW | KA97BAM213/215 |
LOYSEW | KA97BAM254/256 |
LOYSEW | KA97BAM284/286 |
LOYSEW | KA97BAM324/326 |
LOYSEW | KA97BAM364/365 |
LOYSEW | KV97BAM182 |
LOYSEW | KV97BAM184 |
LOYSEW | KV97BAM213/215 |
LOYSEW | KV97BAM254/256 |
LOYSEW | KV97BAM284/286 |
LOYSEW | KV97BAM324/326 |
LOYSEW | KV97BAM364/365 |
LOYSEW | KH97BAM182 |
LOYSEW | KH97BAM184 |
LOYSEW | KH97BAM213/215 |
LOYSEW | KH97BAM254/256 |
LOYSEW | KH97BAM284/286 |
LOYSEW | KH97BAM324/326 |
LOYSEW | KH97BAM364/365 |
LOYSEW | KF97AM182 |
LOYSEW | KF97AM184 |
LOYSEW | KF97AM213/215 |
LOYSEW | KF97AM254/256 |
LOYSEW | KF97AM284/286 |
LOYSEW | KF97AM324/326 |
LOYSEW | KF97AM364/365 |
LOYSEW | KAF97AM182 |
LOYSEW | KAF97AM184 |
LOYSEW | KAF97AM213/215 |
LOYSEW | KAF97AM254/256 |
LOYSEW | KAF97AM284/286 |
LOYSEW | KAF97AM324/326 |
LOYSEW | KAF97AM364/365 |
LOYSEW | KVF97AM182 |
LOYSEW | KVF97AM184 |
LOYSEW | KVF97AM213/215 |
LOYSEW | KVF97AM254/256 |
LOYSEW | KVF97AM284/286 |
LOYSEW | KVF97AM324/326 |
LOYSEW | KVF97AM364/365 |
LOYSEW | KHF97AM182 |
LOYSEW | KHF97AM184 |
LOYSEW | KHF97AM213/215 |
LOYSEW | KHF97AM254/256 |
LOYSEW | KHF97AM284/286 |
LOYSEW | KHF97AM324/326 |
LOYSEW | KHF97AM364/365 |
LOYSEW | KA97AM182 |
LOYSEW | KA97AM184 |
LOYSEW | KA97AM213/215 |
LOYSEW | KA97AM254/256 |
LOYSEW | KA97AM284/286 |
LOYSEW | KA97AM324/326 |
LOYSEW | KA97AM364/365 |
LOYSEW | KV97AM182 |
LOYSEW | KV97AM184 |
LOYSEW | KV97AM213/215 |
LOYSEW | KV97AM254/256 |
LOYSEW | KV97AM284/286 |
LOYSEW | KV97AM324/326 |
LOYSEW | KV97AM364/365 |
LOYSEW | KH97AM182 |
LOYSEW | KH97AM184 |
LOYSEW | KH97AM213/215 |
LOYSEW | KH97AM254/256 |
LOYSEW | KH97AM284/286 |
LOYSEW | KH97AM324/326 |
LOYSEW | KH97AM364/365 |
LOYSEW | KAZ97AM182 |
LOYSEW | KAZ97AM184 |
LOYSEW | KAZ97AM213/215 |
LOYSEW | KAZ97AM254/256 |
LOYSEW | KAZ97AM284/286 |
LOYSEW | KAZ97AM324/326 |
LOYSEW | KAZ97AM364/365 |
LOYSEW | KVZ97AM182 |
LOYSEW | KVZ97AM184 |
LOYSEW | KVZ97AM213/215 |
LOYSEW | KVZ97AM254/256 |
LOYSEW | KVZ97AM284/286 |
LOYSEW | KVZ97AM324/326 |
LOYSEW | KVZ97AM364/365 |
LOYSEW | KHZ97AM182 |
LOYSEW | KHZ97AM184 |
LOYSEW | KHZ97AM213/215 |
LOYSEW | KHZ97AM254/256 |
LOYSEW | KHZ97AM284/286 |
LOYSEW | KHZ97AM324/326 |
LOYSEW | KHZ97AM364/365 |
LOYSEW | KT97AM182 |
LOYSEW | KT97AM184 |
LOYSEW | KT97AM213/215 |
LOYSEW | KT97AM254/256 |
LOYSEW | KT97AM284/286 |
LOYSEW | KT97AM324/326 |
LOYSEW | KT97AM364/365 |
LOYSEW | K107AM182 |
LOYSEW | K107AM184 |
LOYSEW | K107AM213/215 |
LOYSEW | K107AM254/256 |
LOYSEW | K107AM284/286 |
LOYSEW | K107AM324/326 |
LOYSEW | K107AM364/365 |
LOYSEW | KA107BAM182 |
LOYSEW | KA107BAM184 |
LOYSEW | KA107BAM213/215 |
LOYSEW | KA107BAM254/256 |
LOYSEW | KA107BAM284/286 |
LOYSEW | KA107BAM324/326 |
LOYSEW | KA107BAM364/365 |
LOYSEW | KV107BAM182 |
LOYSEW | KV107BAM184 |
LOYSEW | KV107BAM213/215 |
LOYSEW | KV107BAM254/256 |
LOYSEW | KV107BAM284/286 |
LOYSEW | KV107BAM324/326 |
LOYSEW | KV107BAM364/365 |
LOYSEW | KH107BAM182 |
LOYSEW | KH107BAM184 |
LOYSEW | KH107BAM213/215 |
LOYSEW | KH107BAM254/256 |
LOYSEW | KH107BAM284/286 |
LOYSEW | KH107BAM324/326 |
LOYSEW | KH107BAM364/365 |
LOYSEW | KF107AM182 |
LOYSEW | KF107AM184 |
LOYSEW | KF107AM213/215 |
LOYSEW | KF107AM254/256 |
LOYSEW | KF107AM284/286 |
LOYSEW | KF107AM324/326 |
LOYSEW | KF107AM364/365 |
LOYSEW | KAF107AM182 |
LOYSEW | KAF107AM184 |
LOYSEW | KAF107AM213/215 |
LOYSEW | KAF107AM254/256 |
LOYSEW | KAF107AM284/286 |
LOYSEW | KAF107AM324/326 |
LOYSEW | KAF107AM364/365 |
LOYSEW | KVF107AM182 |
LOYSEW | KVF107AM184 |
LOYSEW | KVF107AM213/215 |
LOYSEW | KVF107AM254/256 |
LOYSEW | KVF107AM284/286 |
LOYSEW | KVF107AM324/326 |
LOYSEW | KVF107AM364/365 |
LOYSEW | KHF107AM182 |
LOYSEW | KHF107AM184 |
LOYSEW | KHF107AM213/215 |
LOYSEW | KHF107AM254/256 |
LOYSEW | KHF107AM284/286 |
LOYSEW | KHF107AM324/326 |
LOYSEW | KHF107AM364/365 |
LOYSEW | KA107AM182 |
LOYSEW | KA107AM184 |
LOYSEW | KA107AM213/215 |
LOYSEW | KA107AM254/256 |
LOYSEW | KA107AM284/286 |
LOYSEW | KA107AM324/326 |
LOYSEW | KA107AM364/365 |
LOYSEW | KV107AM182 |
LOYSEW | KV107AM184 |
LOYSEW | KV107AM213/215 |
LOYSEW | KV107AM254/256 |
LOYSEW | KV107AM284/286 |
LOYSEW | KV107AM324/326 |
LOYSEW | KV107AM364/365 |
LOYSEW | KH107AM182 |
LOYSEW | KH107AM184 |
LOYSEW | KH107AM213/215 |
LOYSEW | KH107AM254/256 |
LOYSEW | KH107AM284/286 |
LOYSEW | KH107AM324/326 |
LOYSEW | KH107AM364/365 |
LOYSEW | KAZ107AM182 |
LOYSEW | KAZ107AM184 |
LOYSEW | KAZ107AM213/215 |
LOYSEW | KAZ107AM254/256 |
LOYSEW | KAZ107AM284/286 |
LOYSEW | KAZ107AM324/326 |
LOYSEW | KAZ107AM364/365 |
LOYSEW | KVZ107AM182 |
LOYSEW | KVZ107AM184 |
LOYSEW | KVZ107AM213/215 |
LOYSEW | KVZ107AM254/256 |
LOYSEW | KVZ107AM284/286 |
LOYSEW | KVZ107AM324/326 |
LOYSEW | KVZ107AM364/365 |
LOYSEW | KHZ107AM182 |
LOYSEW | KHZ107AM184 |
LOYSEW | KHZ107AM213/215 |
LOYSEW | KHZ107AM254/256 |
LOYSEW | KHZ107AM284/286 |
LOYSEW | KHZ107AM324/326 |
LOYSEW | KHZ107AM364/365 |
LOYSEW | KT107AM182 |
LOYSEW | KT107AM184 |
LOYSEW | KT107AM213/215 |
LOYSEW | KT107AM254/256 |
LOYSEW | KT107AM284/286 |
LOYSEW | KT107AM324/326 |
LOYSEW | KT107AM364/365 |
LOYSEW | K127AM213/215 |
LOYSEW | K127AM254/256 |
LOYSEW | K127AM284/286 |
LOYSEW | K127AM324/326 |
LOYSEW | K127AM364/365 |
LOYSEW | KA127BAM213/215 |
LOYSEW | KA127BAM254/256 |
LOYSEW | KA127BAM284/286 |
LOYSEW | KA127BAM324/326 |
LOYSEW | KA127BAM364/365 |
LOYSEW | KV127BAM213/215 |
LOYSEW | KV127BAM254/256 |
LOYSEW | KV127BAM284/286 |
LOYSEW | KV127BAM324/326 |
LOYSEW | KV127BAM364/365 |
LOYSEW | KH127BAM213/215 |
LOYSEW | KH127BAM254/256 |
LOYSEW | KH127BAM284/286 |
LOYSEW | KH127BAM324/326 |
LOYSEW | KH127BAM364/365 |
LOYSEW | KF127AM213/215 |
LOYSEW | KF127AM254/256 |
LOYSEW | KF127AM284/286 |
LOYSEW | KF127AM324/326 |
LOYSEW | KF127AM364/365 |
LOYSEW | KAF127AM213/215 |
LOYSEW | KAF127AM254/256 |
LOYSEW | KAF127AM284/286 |
LOYSEW | KAF127AM324/326 |
LOYSEW | KAF127AM364/365 |
LOYSEW | KHF127AM213/215 |
LOYSEW | KHF127AM254/256 |
LOYSEW | KHF127AM284/286 |
LOYSEW | KHF127AM324/326 |
LOYSEW | KHF127AM364/365 |
LOYSEW | KA127AM213/215 |
LOYSEW | KA127AM254/256 |
LOYSEW | KA127AM284/286 |
LOYSEW | KA127AM324/326 |
LOYSEW | KA127AM364/365 |
LOYSEW | KH127AM213/215 |
LOYSEW | KH127AM254/256 |
LOYSEW | KH127AM284/286 |
LOYSEW | KH127AM324/326 |
LOYSEW | KH127AM364/365 |
LOYSEW | KAZ127AM213/215 |
LOYSEW | KAZ127AM254/256 |
LOYSEW | KAZ127AM284/286 |
LOYSEW | KAZ127AM324/326 |
LOYSEW | KAZ127AM364/365 |
LOYSEW | KHZ127AM213/215 |
LOYSEW | KHZ127AM254/256 |
LOYSEW | KHZ127AM284/286 |
LOYSEW | KHZ127AM324/326 |
LOYSEW | KHZ127AM364/365 |
LOYSEW | KT127AM213/215 |
LOYSEW | KT127AM254/256 |
LOYSEW | KT127AM284/286 |
LOYSEW | KT127AM324/326 |
LOYSEW | KT127AM364/365 |
LOYSEW | K157AM254/256 |
LOYSEW | K157AM284/286 |
LOYSEW | K157AM324/326 |
LOYSEW | K157AM364/365 |
LOYSEW | KA157BAM254/256 |
LOYSEW | KA157BAM284/286 |
LOYSEW | KA157BAM324/326 |
LOYSEW | KA157BAM364/365 |
LOYSEW | KH157BAM254/256 |
LOYSEW | KH157BAM284/286 |
LOYSEW | KH157BAM324/326 |
LOYSEW | KH157BAM364/365 |
LOYSEW | KF157AM254/256 |
LOYSEW | KF157AM284/286 |
LOYSEW | KF157AM324/326 |
LOYSEW | KF157AM364/365 |
LOYSEW | KAF157AM254/256 |
LOYSEW | KAF157AM284/286 |
LOYSEW | KAF157AM324/326 |
LOYSEW | KAF157AM364/365 |
LOYSEW | KHF157AM254/256 |
LOYSEW | KHF157AM284/286 |
LOYSEW | KHF157AM324/326 |
LOYSEW | KHF157AM364/365 |
LOYSEW | KA157AM254/256 |
LOYSEW | KA157AM284/286 |
LOYSEW | KA157AM324/326 |
LOYSEW | KA157AM364/365 |
LOYSEW | KH157AM254/256 |
LOYSEW | KH157AM284/286 |
LOYSEW | KH157AM324/326 |
LOYSEW | KH157AM364/365 |
LOYSEW | KAZ157AM254/256 |
LOYSEW | KAZ157AM284/286 |
LOYSEW | KAZ157AM324/326 |
LOYSEW | KAZ157AM364/365 |
LOYSEW | KHZ157AM254/256 |
LOYSEW | KHZ157AM284/286 |
LOYSEW | KHZ157AM324/326 |
LOYSEW | KHZ157AM364/365 |
LOYSEW | KT157AM254/256 |
LOYSEW | KT157AM284/286 |
LOYSEW | KT157AM324/326 |
LOYSEW | KT157AM364/365 |
LOYSEW | K167AM254/256 |
LOYSEW | K167AM284/286 |
LOYSEW | K167AM324/326 |
LOYSEW | K167AM364/365 |
LOYSEW | KH167BAM254/256 |
LOYSEW | KH167BAM284/286 |
LOYSEW | KH167BAM324/326 |
LOYSEW | KH167BAM364/365 |
LOYSEW | KH167AM254/256 |
LOYSEW | KH167AM284/286 |
LOYSEW | KH167AM324/326 |
LOYSEW | KH167AM364/365 |
LOYSEW | K187AM254/256 |
LOYSEW | K187AM284/286 |
LOYSEW | K187AM324/326 |
LOYSEW | K187AM364/365 |
LOYSEW | KH187BAM254/256 |
LOYSEW | KH187BAM284/286 |
LOYSEW | KH187BAM324/326 |
LOYSEW | KH187BAM364/365 |
LOYSEW | KH187AM254/256 |
LOYSEW | KH187AM284/286 |
LOYSEW | KH187AM324/326 |
LOYSEW | KH187AM364/365 |
LOYSEW | K..19AM63 |
LOYSEW | K..19AM71 |
LOYSEW | K..19AM80 |
LOYSEW | K..19AM90 |
LOYSEW | K..29AM63 |
LOYSEW | K..29AM71 |
LOYSEW | K..29AM80 |
LOYSEW | K..29AM90 |
LOYSEW | K..37AM63 |
LOYSEW | K..37AM71 |
LOYSEW | K..37AM80 |
LOYSEW | K..37AM90 |
LOYSEW | K..47AM63 |
LOYSEW | K..47AM71 |
LOYSEW | K..47AM80 |
LOYSEW | K..47AM90 |
LOYSEW | K..47AM100 |
LOYSEW | K..47AM112 |
LOYSEW | K..47AM132S/M |
LOYSEW | K..57AM63 |
LOYSEW | K..57AM71 |
LOYSEW | K..57AM80 |
LOYSEW | K..57AM90 |
LOYSEW | K..57AM100 |
LOYSEW | K..57AM112 |
LOYSEW | K..57AM132S/M |
LOYSEW | K..67AM63 |
LOYSEW | K..67AM71 |
LOYSEW | K..67AM80 |
LOYSEW | K..67AM90 |
LOYSEW | K..67AM100 |
LOYSEW | K..67AM112 |
LOYSEW | K..67AM132S/M |
LOYSEW | K..77AM63 |
LOYSEW | K..77AM71 |
LOYSEW | K..77AM80 |
LOYSEW | K..77AM90 |
LOYSEW | K..77AM100 |
LOYSEW | K..77AM112 |
LOYSEW | K..77AM132S/M |
LOYSEW | K..77AM132ML |
LOYSEW | K..87AM63 |
LOYSEW | K..87AM71 |
LOYSEW | K..87AM80 |
LOYSEW | K..87AM90 |
LOYSEW | K..87AM100 |
LOYSEW | K..87AM112 |
LOYSEW | K..87AM132S/M |
LOYSEW | K..87AM132ML |
LOYSEW | K..87AM160 |
LOYSEW | K..87AM180 |
LOYSEW | K..97AM100 |
LOYSEW | K..97AM112 |
LOYSEW | K..97AM132S/M |
LOYSEW | K..97AM132ML |
LOYSEW | K..97AM160 |
LOYSEW | K..97AM180 |
LOYSEW | K..97AM200 |
LOYSEW | K..107AM100 |
LOYSEW | K..107AM112 |
LOYSEW | K..107AM132S/M |
LOYSEW | K..107AM132ML |
LOYSEW | K..107AM160 |
LOYSEW | K..107AM180 |
LOYSEW | K..107AM200 |
LOYSEW | K..107AM225 |
LOYSEW | K..127AM132S/M |
LOYSEW | K..127AM132ML |
LOYSEW | K..127AM160 |
LOYSEW | K..127AM180 |
LOYSEW | K..127AM200 |
LOYSEW | K..127AM225 |
LOYSEW | K..127AM250 |
LOYSEW | K..127AM280 |
LOYSEW | K..157AM160 |
LOYSEW | K..157AM180 |
LOYSEW | K..157AM200 |
LOYSEW | K..157AM225 |
LOYSEW | K..157AM250 |
LOYSEW | K..157AM280 |
LOYSEW | K..167AM160 |
LOYSEW | K..167AM180 |
LOYSEW | K..167AM200 |
LOYSEW | K..167AM225 |
LOYSEW | K..167AM250 |
LOYSEW | K..167AM280 |
LOYSEW | K..187AM160 |
LOYSEW | K..187AM180 |
LOYSEW | K..187AM200 |
LOYSEW | K..187AM225 |
LOYSEW | K..187AM250 |
LOYSEW | K..187AM280 |
LOYSEW | K..47R37AM56 |
LOYSEW | K..47R37AM143 |
LOYSEW | K..47R37AM145 |
LOYSEW | K..57R37AM56 |
LOYSEW | K..57R37AM143 |
LOYSEW | K..57R37AM145 |
LOYSEW | K..67R37AM56 |
LOYSEW | K..67R37AM143 |
LOYSEW | K..67R37AM145 |
LOYSEW | K..77R37AM56 |
LOYSEW | K..77R37AM143 |
LOYSEW | K..77R37AM145 |
LOYSEW | K..87R57AM56 |
LOYSEW | K..87R57AM143 |
LOYSEW | K..87R57AM145 |
LOYSEW | K..87R57AM182 |
LOYSEW | K..87R57AM213/215 |
LOYSEW | K..97R57AM56 |
LOYSEW | K..97R57AM143 |
LOYSEW | K..97R57AM145 |
LOYSEW | K..97R57AM182 |
LOYSEW | K..97R57AM213/215 |
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LOYSEW | K..107R77AM143 |
LOYSEW | K..107R77AM145 |
LOYSEW | K..107R77AM182 |
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LOYSEW | K..127R77AM143 |
LOYSEW | K..127R77AM145 |
LOYSEW | K..127R77AM182 |
LOYSEW | K..127R77AM213/215 |
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LOYSEW | K..127R87AM145 |
LOYSEW | K..127R87AM182 |
LOYSEW | K..127R87AM213/215 |
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LOYSEW | K..157R97AM284/286 |
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LOYSEW | K..127AD6 |
LOYSEW | K..127AD7 |
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LOYSEW | K..157AD5 |
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LOYSEW | K..157AD7 |
LOYSEW | K..157AD8 |
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LOYSEW | K..187AD7 |
LOYSEW | K..187AD8 |
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LOYSEW | K..29AD2,AD2/ZR |
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LOYSEW | K..37AD2,AD2/ZR |
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LOYSEW | K..47AD3,AD3/ZR |
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LOYSEW | K..77AD3,AD3/ZR |
LOYSEW | K..77AD4,AD4/ZR |
LOYSEW | K..87AD2,AD2/ZR |
LOYSEW | K..87AD3,AD3/ZR |
LOYSEW | K..87AD4,AD4/ZR |
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LOYSEW | K..97AD3,AD3/ZR |
LOYSEW | K..97AD4,AD4/ZR |
LOYSEW | K..97AD5,AD5/ZR |
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LOYSEW | K..107AD5,AD5/ZR |
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LOYSEW | K..127AD5,AD5/ZR |
LOYSEW | K..127AD6,AD6/ZR |
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LOYSEW | K..157AD5,AD5/ZR |
LOYSEW | K..157AD6,AD6/ZR |
LOYSEW | K..157AD7,AD7/ZR |
LOYSEW | K..157AD8,AD8/ZR |
LOYSEW | K..167AD5,AD5/ZR |
LOYSEW | K..167AD6,AD6/ZR |
LOYSEW | K..167AD7,AD7/ZR |
LOYSEW | K..167AD8,AD8/ZR |
LOYSEW | K..187AD5,AD5/ZR |
LOYSEW | K..187AD6,AD6/ZR |
LOYSEW | K..187AD7,AD7/ZR |
LOYSEW | K..187AD8,AD8/ZR |
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LOYSEW | K..57R37AD1 |
LOYSEW | K..57R37AD2 |
LOYSEW | K..67R37AD1 |
LOYSEW | K..67R37AD2 |
LOYSEW | K..49R37AD1 |
LOYSEW | K..49R37AD2 |
LOYSEW | K..77R37AD1 |
LOYSEW | K..77R37AD2 |
LOYSEW | K..87R57AD2 |
LOYSEW | K..87R57AD3 |
LOYSEW | K..97R57AD2 |
LOYSEW | K..97R57AD3 |
LOYSEW | K..107R77AD2 |
LOYSEW | K..107R77AD3 |
LOYSEW | K..127R77AD2 |
LOYSEW | K..127R77AD3 |
LOYSEW | K..127R77AD4 |
LOYSEW | K..127R87AD2 |
LOYSEW | K..127R87AD3 |
LOYSEW | K..127R87AD4 |
LOYSEW | K..127R87AD5 |
LOYSEW | K..157R97AD3 |
LOYSEW | K..157R97AD4 |
LOYSEW | K..157R97AD5 |
LOYSEW | K..157R97AD6 |
LOYSEW | K..167R97AD3 |
LOYSEW | K..167R97AD4 |
LOYSEW | K..167R97AD5 |
LOYSEW | K..167R97AD6 |
LOYSEW | K..187R97AD3 |
LOYSEW | K..187R97AD4 |
LOYSEW | K..187R97AD5 |
LOYSEW | K..187R97AD6 |
LOYSEW | K..157R107AD3 |
LOYSEW | K..157R107AD4 |
LOYSEW | K..157R107AD5 |
LOYSEW | K..157R107AD6 |
LOYSEW | K..167R107AD3 |
LOYSEW | K..167R107AD4 |
LOYSEW | K..167R107AD5 |
LOYSEW | K..167R107AD6 |
LOYSEW | K..187R107AD3 |
LOYSEW | K..187R107AD4 |
LOYSEW | K..187R107AD5 |
LOYSEW | K..187R107AD6 |
LOYSEW | K..37AD2/P |
LOYSEW | K..47AD2/P |
LOYSEW | K..47AD3/P |
LOYSEW | K..57AD2/P |
LOYSEW | K..57AD3/P |
LOYSEW | K..67AD2/P |
LOYSEW | K..67AD3/P |
LOYSEW | K..77AD2/P |
LOYSEW | K..77AD3/P |
LOYSEW | K..77AD4/P |
LOYSEW | K..87AD2/P |
LOYSEW | K..87AD3/P |
LOYSEW | K..87AD4/P |
LOYSEW | K..87AD5/P |
LOYSEW | K..97AD3/P |
LOYSEW | K..97AD4/P |
LOYSEW | K..97AD5/P |
LOYSEW | K..107AD3/P |
LOYSEW | K..107AD4/P |
LOYSEW | K..107AD5/P |
LOYSEW | K..107AD6/P |
LOYSEW | K..127AD4/P |
LOYSEW | K..127AD5/P |
LOYSEW | K..127AD6/P |
LOYSEW | K..127AD7/P |
LOYSEW | K..157AD5/P |
LOYSEW | K..157AD6/P |
LOYSEW | K..157AD7/P |
LOYSEW | K..167AD5/P |
LOYSEW | K..167AD6/P |
LOYSEW | K..167AD7/P |
LOYSEW | K..187AD5/P |
LOYSEW | K..187AD6/P |
LOYSEW | K..187AD7/P |
LOYSEW | K..19AR71 |
LOYSEW | K..19AR80 |
LOYSEW | K..19AR90 |
LOYSEW | K..29AR71 |
LOYSEW | K..29AR80 |
LOYSEW | K..29AR90 |
LOYSEW | K..37AR71 |
LOYSEW | K..37AR80 |
LOYSEW | K..37AR90 |
LOYSEW | K..39AR71 |
LOYSEW | K..39AR80 |
LOYSEW | K..39AR90 |
LOYSEW | K..39AR100 |
LOYSEW | K..39AR112 |
LOYSEW | K..47AR71 |
LOYSEW | K..47AR80 |
LOYSEW | K..47AR90 |
LOYSEW | K..47AR100 |
LOYSEW | K..47AR112 |
LOYSEW | K..57AR71 |
LOYSEW | K..57AR80 |
LOYSEW | K..57AR90 |
LOYSEW | K..57AR100 |
LOYSEW | K..57AR112 |
LOYSEW | K..67AR71 |
LOYSEW | K..67AR80 |
LOYSEW | K..67AR90 |
LOYSEW | K..67AR100 |
LOYSEW | K..67AR112 |
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LOYSEW | K..49AR80 |
LOYSEW | K..49AR90 |
LOYSEW | K..49AR100 |
LOYSEW | K..49AR112 |
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LOYSEW | K..49AR132ML |
LOYSEW | K..77AR71 |
LOYSEW | K..77AR80 |
LOYSEW | K..77AR90 |
LOYSEW | K..77AR100 |
LOYSEW | K..77AR112 |
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LOYSEW | K..77AR132ML |
LOYSEW | K..87AR80 |
LOYSEW | K..87AR90 |
LOYSEW | K..87AR100 |
LOYSEW | K..87AR112 |
LOYSEW | K..87AR132S/M |
LOYSEW | K..87AR132ML |
LOYSEW | K..87AR160 |
LOYSEW | K..87AR180 |
LOYSEW | K..97AR100 |
LOYSEW | K..97AR112 |
LOYSEW | K..97AR132S/M |
LOYSEW | K..97AR132ML |
LOYSEW | K..97AR160 |
LOYSEW | K..97AR180 |
LOYSEW | K..107AR100 |
LOYSEW | K..107AR112 |
LOYSEW | K..107AR132S/M |
LOYSEW | K..107AR132ML |
LOYSEW | K..107AR160 |
LOYSEW | K..107AR180 |
LOYSEW | K..127AR132S/M |
LOYSEW | K..127AR132ML |
LOYSEW | K..127AR160 |
LOYSEW | K..127AR180 |
LOYSEW | K..157AR160 |
LOYSEW | K..157AR180 |
LOYSEW | K..167AR160 |
LOYSEW | K..167AR180 |
LOYSEW | K..187AR160 |
LOYSEW | K..187AR180 |
LOYSEW | S37 |
LOYSEW | S47 |
LOYSEW | S57 |
LOYSEW | S67 |
LOYSEW | S67R37 |
LOYSEW | S77 |
LOYSEW | S77R37 |
LOYSEW | S87 |
LOYSEW | S87R57 |
LOYSEW | S97 |
LOYSEW | S97R57 |
LOYSEW | S37AD.. |
LOYSEW | S47AD.. |
LOYSEW | S57AD.. |
LOYSEW | S67AD.. |
LOYSEW | S67R37AD.. |
LOYSEW | S77AD.. |
LOYSEW | S77R37AD.. |
LOYSEW | S87AD.. |
LOYSEW | S87R57AD.. |
LOYSEW | S97AD.. |
LOYSEW | S97R57AD.. |
LOYSEW | S37AM56 |
LOYSEW | S37AM143 |
LOYSEW | S37AM145 |
LOYSEW | SF37AM56 |
LOYSEW | SF37AM143 |
LOYSEW | SF37AM145 |
LOYSEW | SHF37AM56 |
LOYSEW | SHF37AM143 |
LOYSEW | SHF37AM145 |
LOYSEW | SAF37AM56 |
LOYSEW | SAF37AM143 |
LOYSEW | SAF37AM145 |
LOYSEW | SA37AM56 |
LOYSEW | SA37AM143 |
LOYSEW | SA37AM145 |
LOYSEW | SH37AM56 |
LOYSEW | SH37AM143 |
LOYSEW | SH37AM145 |
LOYSEW | ST37AM56 |
LOYSEW | ST37AM143 |
LOYSEW | ST37AM145 |
LOYSEW | S47AM56 |
LOYSEW | S47AM143 |
LOYSEW | S47AM145 |
LOYSEW | SF47AM56 |
LOYSEW | SF47AM143 |
LOYSEW | SF47AM145 |
LOYSEW | SAF47AM56 |
LOYSEW | SAF47AM143 |
LOYSEW | SAF47AM145 |
LOYSEW | SHF47AM56 |
LOYSEW | SHF47AM143 |
LOYSEW | SHF47AM145 |
LOYSEW | SA47AM56 |
LOYSEW | SA47AM143 |
LOYSEW | SA47AM145 |
LOYSEW | SH47AM56 |
LOYSEW | SH47AM143 |
LOYSEW | SH47AM145 |
LOYSEW | SAZ47AM56 |
LOYSEW | SAZ47AM143 |
LOYSEW | SAZ47AM145 |
LOYSEW | SHZ47AM56 |
LOYSEW | SHZ47AM143 |
LOYSEW | SHZ47AM145 |
LOYSEW | ST47AM56 |
LOYSEW | ST47AM143 |
LOYSEW | ST47AM145 |
LOYSEW | S57AM56 |
LOYSEW | S57AM143 |
LOYSEW | S57AM145 |
LOYSEW | SF57AM56 |
LOYSEW | SF57AM143 |
LOYSEW | SF57AM145 |
LOYSEW | SAF57AM56 |
LOYSEW | SAF57AM143 |
LOYSEW | SAF57AM145 |
LOYSEW | SHF57AM56 |
LOYSEW | SHF57AM143 |
LOYSEW | SHF57AM145 |
LOYSEW | SA57AM56 |
LOYSEW | SA57AM143 |
LOYSEW | SA57AM145 |
LOYSEW | SH57AM56 |
LOYSEW | SH57AM143 |
LOYSEW | SH57AM145 |
LOYSEW | SAZ57AM56 |
LOYSEW | SAZ57AM143 |
LOYSEW | SAZ57AM145 |
LOYSEW | SHZ57AM56 |
LOYSEW | SHZ57AM143 |
LOYSEW | SHZ57AM145 |
LOYSEW | ST57AM56 |
LOYSEW | ST57AM143 |
LOYSEW | ST57AM145 |
LOYSEW | S67AM56 |
LOYSEW | S67AM143 |
LOYSEW | S67AM145 |
LOYSEW | S67AM182 |
LOYSEW | S67AM184 |
LOYSEW | S67AM213/215 |
LOYSEW | SF67AM56 |
LOYSEW | SF67AM143 |
LOYSEW | SF67AM145 |
LOYSEW | SF67AM182 |
LOYSEW | SF67AM184 |
LOYSEW | SF67AM213/215 |
LOYSEW | SAF67AM56 |
LOYSEW | SAF67AM143 |
LOYSEW | SAF67AM145 |
LOYSEW | SAF67AM182 |
LOYSEW | SAF67AM184 |
LOYSEW | SAF67AM213/215 |
LOYSEW | SHF67AM56 |
LOYSEW | SHF67AM143 |
LOYSEW | SHF67AM145 |
LOYSEW | SHF67AM182 |
LOYSEW | SHF67AM184 |
LOYSEW | SHF67AM213/215 |
LOYSEW | SA67AM56 |
LOYSEW | SA67AM143 |
LOYSEW | SA67AM145 |
LOYSEW | SA67AM182 |
LOYSEW | SA67AM184 |
LOYSEW | SA67AM213/215 |
LOYSEW | SH67AM56 |
LOYSEW | SH67AM143 |
LOYSEW | SH67AM145 |
LOYSEW | SH67AM182 |
LOYSEW | SH67AM184 |
LOYSEW | SH67AM213/215 |
LOYSEW | SAZ67AM56 |
LOYSEW | SAZ67AM143 |
LOYSEW | SAZ67AM145 |
LOYSEW | SAZ67AM182 |
LOYSEW | SAZ67AM184 |
LOYSEW | SAZ67AM213/215 |
LOYSEW | SHZ67AM56 |
LOYSEW | SHZ67AM143 |
LOYSEW | SHZ67AM145 |
LOYSEW | SHZ67AM182 |
LOYSEW | SHZ67AM184 |
LOYSEW | SHZ67AM213/215 |
LOYSEW | ST67AM56 |
LOYSEW | ST67AM143 |
LOYSEW | ST67AM145 |
LOYSEW | ST67AM182 |
LOYSEW | ST67AM184 |
LOYSEW | ST67AM213/215 |
LOYSEW | S77AM56 |
LOYSEW | S77AM143 |
LOYSEW | S77AM145 |
LOYSEW | S77AM182 |
LOYSEW | S77AM184 |
LOYSEW | S77AM213/215 |
LOYSEW | SF77AM56 |
LOYSEW | SF77AM143 |
LOYSEW | SF77AM145 |
LOYSEW | SF77AM182 |
LOYSEW | SF77AM184 |
LOYSEW | SF77AM213/215 |
LOYSEW | SAF77AM56 |
LOYSEW | SAF77AM143 |
LOYSEW | SAF77AM145 |
LOYSEW | SAF77AM182 |
LOYSEW | SAF77AM184 |
LOYSEW | SAF77AM213/215 |
LOYSEW | SHF77AM56 |
LOYSEW | SHF77AM143 |
LOYSEW | SHF77AM145 |
LOYSEW | SHF77AM182 |
LOYSEW | SHF77AM184 |
LOYSEW | SHF77AM213/215 |
LOYSEW | SA77AM56 |
LOYSEW | SA77AM143 |
LOYSEW | SA77AM145 |
LOYSEW | SA77AM182 |
LOYSEW | SA77AM184 |
LOYSEW | SA77AM213/215 |
LOYSEW | SH77AM56 |
LOYSEW | SH77AM143 |
LOYSEW | SH77AM145 |
LOYSEW | SH77AM182 |
LOYSEW | SH77AM184 |
LOYSEW | SH77AM213/215 |
LOYSEW | SAZ77AM56 |
LOYSEW | SAZ77AM143 |
LOYSEW | SAZ77AM145 |
LOYSEW | SAZ77AM182 |
LOYSEW | SAZ77AM184 |
LOYSEW | SAZ77AM213/215 |
LOYSEW | SHZ77AM56 |
LOYSEW | SHZ77AM143 |
LOYSEW | SHZ77AM145 |
LOYSEW | SHZ77AM182 |
LOYSEW | SHZ77AM184 |
LOYSEW | SHZ77AM213/215 |
LOYSEW | ST77AM56 |
LOYSEW | ST77AM143 |
LOYSEW | ST77AM145 |
LOYSEW | ST77AM182 |
LOYSEW | ST77AM184 |
LOYSEW | ST77AM213/215 |
LOYSEW | S87AM143 |
LOYSEW | S87AM145 |
LOYSEW | S87AM182 |
LOYSEW | S87AM184 |
LOYSEW | S87AM213/215 |
LOYSEW | S87AM254/256 |
LOYSEW | S87AM284/286 |
LOYSEW | SF87AM143 |
LOYSEW | SF87AM145 |
LOYSEW | SF87AM182 |
LOYSEW | SF87AM184 |
LOYSEW | SF87AM213/215 |
LOYSEW | SF87AM254/256 |
LOYSEW | SF87AM284/286 |
LOYSEW | SAF87AM143 |
LOYSEW | SAF87AM145 |
LOYSEW | SAF87AM182 |
LOYSEW | SAF87AM184 |
LOYSEW | SAF87AM213/215 |
LOYSEW | SAF87AM254/256 |
LOYSEW | SAF87AM284/286 |
LOYSEW | SHF87AM143 |
LOYSEW | SHF87AM145 |
LOYSEW | SHF87AM182 |
LOYSEW | SHF87AM184 |
LOYSEW | SHF87AM213/215 |
LOYSEW | SHF87AM254/256 |
LOYSEW | SHF87AM284/286 |
LOYSEW | SA87AM143 |
LOYSEW | SA87AM145 |
LOYSEW | SA87AM182 |
LOYSEW | SA87AM184 |
LOYSEW | SA87AM213/215 |
LOYSEW | SA87AM254/256 |
LOYSEW | SA87AM284/286 |
LOYSEW | SA87AM143 |
LOYSEW | SA87AM145 |
LOYSEW | SA87AM182 |
LOYSEW | SA87AM184 |
LOYSEW | SA87AM213/215 |
LOYSEW | SA87AM254/256 |
LOYSEW | SA87AM284/286 |
LOYSEW | SAZ87AM143 |
LOYSEW | SAZ87AM145 |
LOYSEW | SAZ87AM182 |
LOYSEW | SAZ87AM184 |
LOYSEW | SAZ87AM213/215 |
LOYSEW | SAZ87AM254/256 |
LOYSEW | SAZ87AM284/286 |
LOYSEW | SHZ87AM143 |
LOYSEW | SHZ87AM145 |
LOYSEW | SHZ87AM182 |
LOYSEW | SHZ87AM184 |
LOYSEW | SHZ87AM213/215 |
LOYSEW | SHZ87AM254/256 |
LOYSEW | SHZ87AM284/286 |
LOYSEW | ST87AM143 |
LOYSEW | ST87AM145 |
LOYSEW | ST87AM182 |
LOYSEW | ST87AM184 |
LOYSEW | ST87AM213/215 |
LOYSEW | ST87AM254/256 |
LOYSEW | ST87AM284/286 |
LOYSEW | S97AM182 |
LOYSEW | S97AM184 |
LOYSEW | S97AM213/215 |
LOYSEW | S97AM254/256 |
LOYSEW | S97AM284/286 |
LOYSEW | S97AM324/326 |
LOYSEW | S97AM364/365 |
LOYSEW | SF97AM182 |
LOYSEW | SF97AM184 |
LOYSEW | SF97AM213/215 |
LOYSEW | SF97AM254/256 |
LOYSEW | SF97AM284/286 |
LOYSEW | SF97AM324/326 |
LOYSEW | SF97AM364/365 |
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FAQ
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LOYAL is a very professional supplier of replacement parts for piston pumps, motors, concrete pump spare parts, gearbox, cylinders, gear pumps and so on
LOYALmajor technicians have 20 years experience. We are not only supplying products to you, but also providing you
benefits and useful suggestion about goods maintenance.
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Warranty: 1 year
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In case the products you needed are not in current stock, we can prepare in 2-4 weeks after your payment for hydraulic cylinders, gearbox and gear pumps, in 3-7 days for new hydraulic pumps,hydraulic motors, in 15-20 days for rebuilt hydraulic pumps,hydraulic motors.
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Application: | Machinery, Marine, Agricultural Machinery |
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Hardness: | Hardened Tooth Surface |
Installation: | Horizontal Type |
Layout: | Expansion |
Gear Shape: | Conical – Cylindrical Gear |
Step: | Three-Step |
Samples: |
US$ 1800/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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Planetary Gearbox Advantages and Disadvantages
A planetary gearbox is a type of mechanical drive with a single output shaft. They are suitable for both clockwise and counterclockwise rotations, have less inertia, and operate at higher speeds. Here are some advantages and disadvantages of this type of gearbox. Let us see what these advantages are and why you should use them in your applications. Listed below are some of the benefits of planetary gearboxes.
Suitable for counterclockwise and clockwise rotation
If you want to teach children about the clock hands, you can buy some resources for counterclockwise and asymmetrical rotation. These resources include worksheets for identifying degrees of rotation, writing rules for rotation, and visual processing. You can also use these resources to teach angles. For example, the translation of shapes activity pack helps children learn about the rotation of geometric shapes. Similarly, the visual perception activity sheet helps children understand how to process information visually.
Various studies have been done to understand the anatomical substrate of rotations. In a recent study, CZPT et al. compared the position of the transitional zone electrocardiographically and anatomically. The authors found that the transitional zone was normal in nine of 33 subjects, indicating that rotation is not a sign of disease. Similarly, a counterclockwise rotation may be caused by a genetic or environmental factor.
The core tip data should be designed to work in both clockwise and counterclockwise rotation. Counterclockwise rotation requires a different starting point than a clockwise rotation. In North America, star-delta starting is used. In both cases, the figure is rotated about its point. Counterclockwise rotation, on the other hand, is done in the opposite direction. In addition, it is possible to create counterclockwise rotation using the same gimbal.
Despite its name, both clockwise and counterclockwise rotation requires a certain amount of force to rotate. When rotating clockwise, the object faces upwards. Counterclockwise rotation, on the other hand, starts from the top position and heads to the right. If rotating in the opposite direction, the object turns counterclockwise, and vice versa. The clockwise movement, in contrast, is the reverse of counterclockwise rotation.
Has less inertia
The primary difference between a planetary gearbox and a normal pinion-and-gear reducer is the ratio. A planetary gearbox will produce less inertia, which is an important advantage because it will reduce torque and energy requirements. The ratio of the planetary gearbox to its fixed axis counterpart is a factor of three. A planetary gearbox has smaller gears than a conventional planetary, so its inertia is proportional to the number of planets.
Planetary gears are less inertia than spur gears, and they share the load across multiple gear teeth. This means that they will have low backlash, and this is essential for applications with high start-stop cycles and frequent rotational direction changes. Another benefit is the high stiffness. A planetary gearbox will have less backlash than a spur gearbox, which means that it will be more reliable.
A planetary gearbox can use either spur or helical gears. The former provides higher torque ratings while the latter has less noise and stiffness. Both types of gears are useful in motorsports, aerospace, truck transmissions, and power generation units. They require more assembly time than a conventional parallel shaft gear, but the PD series is the more efficient alternative. PD series planetary gears are suitable for many applications, including servo and robotics.
In contrast, a planetary gear set can have varying input speed. This can affect the frequency response of the gearset. A mathematical model of the two-stage planetary gears has non-stationary effects and correlates with experimental findings. Fig. 6.3 shows an addendum. The dedendum’s minimum value is approximately 1.25m. When the dedendum is at its smallest, the dedendum has less inertia.
Offers greater reliability
The Planetary Gearbox is a better option for driving a vehicle than a standard spur gearbox. A planetary gearbox is less expensive, and they have better backlash, higher load capacity, and greater shock loads. Unlike spur gearboxes, however, mechanical noise is virtually nonexistent. This makes them more reliable in high-shock situations, as well as in a wide range of applications.
The Economy Series has the same power density and torque capacity of the Precision Helical Series, but it lacks the precision of the latter. In contrast, Economy Series planetary gearboxes feature straight spur planetary gearing, and they are used in applications requiring high torque. Both types of gearboxes are compatible with NEMA servo motors. If torque density is important, a planetary gearbox is the best choice.
The Dispersion of External Load: The SSI model has been extensively used to model the reliability of planetary gear systems. This model takes the contact force and fatigue strength of the system as generalized stress and strength. It also provides a theoretical framework to evaluate the reliability of planetary gear systems. It also has many other advantages that make it the preferred choice for high-stress applications. The Planetary Gearbox offers greater reliability and efficiency than traditional rack and pinion gear systems.
Planetary gearing has greater reliability and compact design. Its compact design allows for wider applications with concerns about space and weight. Additionally, the increased torque and reduction makes planetary gearboxes an excellent choice for a wide variety of applications. There are three major types of planetary gearboxes, each with its own advantages. This article describes a few of them. Once you understand their workings, you will be able to choose the best planetary gearbox for your needs.
Has higher operating speeds
When you look at planetary gearboxes, you might be confused about which one to choose. The primary issue is the application of the gearbox. You must also decide on secondary factors like noise level, corrosion resistance, construction, price, and availability worldwide. Some constructors work faster than others and deliver the gearboxes on the same day. However, the latter ones often deliver the planetary gearbox out of stock.
Compared to conventional gearboxes, a planetary gearbox can run at higher speeds when the input speed fluctuates. However, these gears are not very efficient in high-speed applications because of their increased noise levels. This makes planetary gears unsuitable for applications involving a great deal of noise. That is why most planetary gears are used in small-scale applications. There are some exceptions, but in general, a planetary gearbox is better suited for applications with higher operating speeds.
The basic planetary gearbox is a compact alternative to normal pinion-and-gear reducers. They can be used in a wide variety of applications where space and weight are concerns. Its efficiency is also higher, delivering 97% of the power input. It comes in three different types based on the performance. A planetary gearbox can also be classified as a worm gear, a spur gear, or a sprocket.
A planetary gearhead has a high-precision design and can generate substantial torque for their size. It also reduces backlash to two arc-min. Additionally, it is lubricated for life, which means no maintenance is needed. It can fit into a small machine envelope and has a small footprint. Moreover, the helical crowned gearing provides fast positioning. A sealed gearbox prevents abrasive dust from getting into the planetary gearhead.
Has drawbacks
The design of a planetary gearbox is compact and enables high torque and load capability in a small space. This gear arrangement also reduces the possibility of wear and tear. Planet gears are arranged in a planetary fashion, allowing gears to shift under load and a uniform distribution of torque. However, some disadvantages of planetary gears must be considered before investing in this gearbox.
While the planetary gearbox is a high precision motion-control device, its design and maintenance requirements are a concern. The bearing load is high, requiring frequent lubrication. Also, they are inaccessible. Despite these drawbacks, planetary gearboxes are suitable for a variety of tasks. They also have low backlash and high torsional stiffness, making them excellent choices for many applications.
As a result, the speed of a planetary gearbox varies with load and speed. At lower ratios, the sun gear becomes too large in relation to the planet gears. As the ratio increases, the sun gear will become too low, reducing torque. The planetary gears also reduce their torque in high-speed environments. Consequently, the ratio is a crucial consideration for planetary gearbox condition monitoring.
Excess drag may result from out-of-tolerance components or excessive lubrication. Drag should be measured both in directions and be within acceptable ranges. Grease and oil lubrication are two common planetary gearbox lubricants, but the choice is largely dependent on your application. While grease lubricates planetary gears well, oil needs maintenance and re-lubrication every few thousand hours.
editor by Dream 2024-05-16
China Custom Speed Reducer Fh37, FF37, Faf37 Series Gearbox for Construction Machinery Spare Parts planetary gearbox electric motor
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LOYSEW | KA49AM145 |
LOYSEW | KA49AM182 |
LOYSEW | KA49AM184 |
LOYSEW | KA49AM213/215 |
LOYSEW | KT49AM56 |
LOYSEW | KT49AM143 |
LOYSEW | KT49AM145 |
LOYSEW | KT49AM182 |
LOYSEW | KT49AM184 |
LOYSEW | KT49AM213/215 |
LOYSEW | K57AM56 |
LOYSEW | K57AM143 |
LOYSEW | K57AM145 |
LOYSEW | K57AM182 |
LOYSEW | K57AM184 |
LOYSEW | K57AM213/215 |
LOYSEW | KA57BAM56 |
LOYSEW | KA57BAM143 |
LOYSEW | KA57BAM145 |
LOYSEW | KA57BAM182 |
LOYSEW | KA57BAM184 |
LOYSEW | KA57BAM213/215 |
LOYSEW | KV57BAM56 |
LOYSEW | KV57BAM143 |
LOYSEW | KV57BAM145 |
LOYSEW | KV57BAM182 |
LOYSEW | KV57BAM184 |
LOYSEW | KV57BAM213/215 |
LOYSEW | KH57BAM56 |
LOYSEW | KH57BAM143 |
LOYSEW | KH57BAM145 |
LOYSEW | KH57BAM182 |
LOYSEW | KH57BAM184 |
LOYSEW | KH57BAM213/215 |
LOYSEW | KF57AM56 |
LOYSEW | KF57AM143 |
LOYSEW | KF57AM145 |
LOYSEW | KF57AM182 |
LOYSEW | KF57AM184 |
LOYSEW | KF57AM213/215 |
LOYSEW | KAF57AM56 |
LOYSEW | KAF57AM143 |
LOYSEW | KAF57AM145 |
LOYSEW | KAF57AM182 |
LOYSEW | KAF57AM184 |
LOYSEW | KAF57AM213/215 |
LOYSEW | KVF57AM56 |
LOYSEW | KVF57AM143 |
LOYSEW | KVF57AM145 |
LOYSEW | KVF57AM182 |
LOYSEW | KVF57AM184 |
LOYSEW | KA57AM56 |
LOYSEW | KA57AM143 |
LOYSEW | KA57AM145 |
LOYSEW | KA57AM182 |
LOYSEW | KA57AM184 |
LOYSEW | KA57AM213/215 |
LOYSEW | KV57AM56 |
LOYSEW | KV57AM143 |
LOYSEW | KV57AM145 |
LOYSEW | KV57AM182 |
LOYSEW | KV57AM184 |
LOYSEW | KV57AM213/215 |
LOYSEW | KH57AM56 |
LOYSEW | KH57AM143 |
LOYSEW | KH57AM145 |
LOYSEW | KH57AM182 |
LOYSEW | KH57AM184 |
LOYSEW | KH57AM213/215 |
LOYSEW | KAZ57AM56 |
LOYSEW | KAZ57AM143 |
LOYSEW | KAZ57AM145 |
LOYSEW | KAZ57AM182 |
LOYSEW | KA57AM184 |
LOYSEW | KAZ57AM213/215 |
LOYSEW | KVZ57AM56 |
LOYSEW | KVZ57AM143 |
LOYSEW | KVZ57AM145 |
LOYSEW | KVZ57AM182 |
LOYSEW | KVZ57AM184 |
LOYSEW | KVZ57AM213/215 |
LOYSEW | KT57AM56 |
LOYSEW | KT57AM143 |
LOYSEW | KT57AM145 |
LOYSEW | KT57AM182 |
LOYSEW | KT57AM184 |
LOYSEW | KT57AM213/215 |
LOYSEW | K67AM56 |
LOYSEW | K67AM143 |
LOYSEW | K67AM145 |
LOYSEW | K67AM182 |
LOYSEW | K67AM184 |
LOYSEW | K67AM213/215 |
LOYSEW | KA67BAM56 |
LOYSEW | KA67BAM143 |
LOYSEW | KA67BAM145 |
LOYSEW | KA67BAM182 |
LOYSEW | KA67BAM184 |
LOYSEW | KA67BAM213/215 |
LOYSEW | KV67BAM56 |
LOYSEW | KV67BAM143 |
LOYSEW | KV67BAM145 |
LOYSEW | KV67BAM182 |
LOYSEW | KV67BAM184 |
LOYSEW | KV67BAM213/215 |
LOYSEW | KH67BAM56 |
LOYSEW | KH67BAM143 |
LOYSEW | KH67BAM145 |
LOYSEW | KH67BAM182 |
LOYSEW | KH67BAM184 |
LOYSEW | KH67BAM213/215 |
LOYSEW | KF67AM56 |
LOYSEW | KF67AM143 |
LOYSEW | KF67AM145 |
LOYSEW | KF67AM182 |
LOYSEW | KF67AM184 |
LOYSEW | KF67AM213/215 |
LOYSEW | KAF67AM56 |
LOYSEW | KAF67AM143 |
LOYSEW | KAF67AM145 |
LOYSEW | KAF67AM182 |
LOYSEW | KAF67AM184 |
LOYSEW | KAF67AM213/215 |
LOYSEW | KVF67AM56 |
LOYSEW | KVF67AM143 |
LOYSEW | KVF67AM145 |
LOYSEW | KVF67AM182 |
LOYSEW | KVF67AM184 |
LOYSEW | KVF67AM213/215 |
LOYSEW | KHF67AM56 |
LOYSEW | KHF67AM143 |
LOYSEW | KHF67AM145 |
LOYSEW | KHF67AM182 |
LOYSEW | KHF67AM184 |
LOYSEW | KHF67AM213/215 |
LOYSEW | KA67AM56 |
LOYSEW | KA67AM143 |
LOYSEW | KA67AM145 |
LOYSEW | KA67AM182 |
LOYSEW | KA67AM184 |
LOYSEW | KA67AM213/215 |
LOYSEW | KV67AM56 |
LOYSEW | KV67AM143 |
LOYSEW | KV67AM145 |
LOYSEW | KV67AM182 |
LOYSEW | KV67AM184 |
LOYSEW | KV67AM213/215 |
LOYSEW | KH67AM56 |
LOYSEW | KH67AM143 |
LOYSEW | KH67AM145 |
LOYSEW | KH67AM182 |
LOYSEW | KH67AM184 |
LOYSEW | KH67AM213/215 |
LOYSEW | KAZ67AM56 |
LOYSEW | KAZ67AM143 |
LOYSEW | KAZ67AM145 |
LOYSEW | KAZ67AM182 |
LOYSEW | KAZ67AM184 |
LOYSEW | KAZ67AM213/215 |
LOYSEW | KVZ67AM56 |
LOYSEW | KVZ67AM143 |
LOYSEW | KVZ67AM145 |
LOYSEW | KVZ67AM182 |
LOYSEW | KVZ67AM184 |
LOYSEW | KVZ67AM213/215 |
LOYSEW | KHZ67AM56 |
LOYSEW | KHZ67AM143 |
LOYSEW | KHZ67AM145 |
LOYSEW | KHZ67AM182 |
LOYSEW | KHZ67AM184 |
LOYSEW | KHZ67AM213/215 |
LOYSEW | KT67AM56 |
LOYSEW | KT67AM143 |
LOYSEW | KT67AM145 |
LOYSEW | KT67AM182 |
LOYSEW | KT67AM184 |
LOYSEW | KT67AM213/215 |
LOYSEW | K77AM56 |
LOYSEW | K77AM143 |
LOYSEW | K77AM145 |
LOYSEW | K77AM182 |
LOYSEW | K77AM184 |
LOYSEW | K77AM213/215 |
LOYSEW | KA77BAM56 |
LOYSEW | KA77BAM143 |
LOYSEW | KA77BAM145 |
LOYSEW | KA77BAM182 |
LOYSEW | KA77BAM184 |
LOYSEW | KA77BAM213/215 |
LOYSEW | KF77AM56 |
LOYSEW | KF77AM143 |
LOYSEW | KF77AM145 |
LOYSEW | KF77AM182 |
LOYSEW | KF77AM184 |
LOYSEW | KF77AM213/215 |
LOYSEW | KAF77AM56 |
LOYSEW | KAF77AM143 |
LOYSEW | KAF77AM145 |
LOYSEW | KAF77AM182 |
LOYSEW | KAF77AM184 |
LOYSEW | KAF77AM213/215 |
LOYSEW | KVF77AM56 |
LOYSEW | KVF77AM143 |
LOYSEW | KVF77AM145 |
LOYSEW | KVF77AM182 |
LOYSEW | KVF77AM184 |
LOYSEW | KVF77AM213/215 |
LOYSEW | KHF77AM56 |
LOYSEW | KHF77AM143 |
LOYSEW | KHF77AM145 |
LOYSEW | KHF77AM182 |
LOYSEW | KHF77AM184 |
LOYSEW | KHF77AM213/215 |
LOYSEW | KA77AM56 |
LOYSEW | KA77AM143 |
LOYSEW | KA77AM145 |
LOYSEW | KA77AM182 |
LOYSEW | KA77AM184 |
LOYSEW | KA77AM213/215 |
LOYSEW | KV77AM56 |
LOYSEW | KV77AM143 |
LOYSEW | KV77AM145 |
LOYSEW | KV77AM182 |
LOYSEW | KV77AM184 |
LOYSEW | KV77AM213/215 |
LOYSEW | KH77AM56 |
LOYSEW | KH77AM143 |
LOYSEW | KH77AM145 |
LOYSEW | KH77AM182 |
LOYSEW | KH77AM184 |
LOYSEW | KH77AM213/215 |
LOYSEW | KAZ77AM56 |
LOYSEW | KAZ77AM143 |
LOYSEW | KAZ77AM145 |
LOYSEW | KAZ77AM182 |
LOYSEW | KAZ77AM184 |
LOYSEW | KAZ77AM213/215 |
LOYSEW | KVZ77AM56 |
LOYSEW | KVZ77AM143 |
LOYSEW | KVZ77AM145 |
LOYSEW | KVZ77AM182 |
LOYSEW | KVZ77AM184 |
LOYSEW | KVZ77AM213/215 |
LOYSEW | KHZ77AM56 |
LOYSEW | KHZ77AM143 |
LOYSEW | KHZ77AM145 |
LOYSEW | KHZ77AM182 |
LOYSEW | KHZ77AM184 |
LOYSEW | KHZ77AM213/215 |
LOYSEW | KT77AM56 |
LOYSEW | KT77AM143 |
LOYSEW | KT77AM145 |
LOYSEW | KT77AM182 |
LOYSEW | KT77AM184 |
LOYSEW | KT77AM213/215 |
LOYSEW | K87AM143 |
LOYSEW | K87AM145 |
LOYSEW | K87AM182 |
LOYSEW | K87AM184 |
LOYSEW | K87AM213/215 |
LOYSEW | K87AM254/256 |
LOYSEW | K87AM284/286 |
LOYSEW | KA87BAM143 |
LOYSEW | KA87BAM145 |
LOYSEW | KA87BAM182 |
LOYSEW | KA87BAM184 |
LOYSEW | KA87BAM213/215 |
LOYSEW | KA87BAM254/256 |
LOYSEW | KA87BAM284/286 |
LOYSEW | KV87BAM143 |
LOYSEW | KV87BAM145 |
LOYSEW | KV87BAM182 |
LOYSEW | KV87BAM184 |
LOYSEW | KV87BAM213/215 |
LOYSEW | KV87BAM254/256 |
LOYSEW | KV87BAM284/286 |
LOYSEW | KH87BAM143 |
LOYSEW | KH87BAM145 |
LOYSEW | KH87BAM182 |
LOYSEW | KH87BAM184 |
LOYSEW | KH87BAM213/215 |
LOYSEW | KH87BAM254/256 |
LOYSEW | KH87BAM284/286 |
LOYSEW | KF87AM143 |
LOYSEW | KF87AM145 |
LOYSEW | KF87AM182 |
LOYSEW | KF87AM184 |
LOYSEW | KF87AM213/215 |
LOYSEW | KF87AM254/256 |
LOYSEW | KF87AM284/286 |
LOYSEW | KAF87AM143 |
LOYSEW | KAF87AM145 |
LOYSEW | KAF87AM182 |
LOYSEW | KAF87AM184 |
LOYSEW | KAF87AM213/215 |
LOYSEW | KAF87AM254/256 |
LOYSEW | KAF87AM284/286 |
LOYSEW | KVF87AM143 |
LOYSEW | KVF87AM145 |
LOYSEW | KVF87AM182 |
LOYSEW | KVF87AM184 |
LOYSEW | KVF87AM213/215 |
LOYSEW | KVF87AM254/256 |
LOYSEW | KVF87AM284/286 |
LOYSEW | KA87AM143 |
LOYSEW | KA87AM145 |
LOYSEW | KA87AM182 |
LOYSEW | KA87AM184 |
LOYSEW | KA87AM213/215 |
LOYSEW | KA87AM254/256 |
LOYSEW | KA87AM284/286 |
LOYSEW | KV87AM143 |
LOYSEW | KV87AM145 |
LOYSEW | KV87AM182 |
LOYSEW | KV87AM184 |
LOYSEW | KV87AM213/215 |
LOYSEW | KV87AM254/256 |
LOYSEW | KV87AM284/286 |
LOYSEW | KAZ87AM143 |
LOYSEW | KAZ87AM145 |
LOYSEW | KAZ87AM182 |
LOYSEW | KAZ87AM184 |
LOYSEW | KAZ87AM213/215 |
LOYSEW | KAZ87AM254/256 |
LOYSEW | KAZ87AM284/286 |
LOYSEW | KVZ87AM143 |
LOYSEW | KVZ87AM145 |
LOYSEW | KVZ87AM182 |
LOYSEW | KVZ87AM184 |
LOYSEW | KVZ87AM213/215 |
LOYSEW | KVZ87AM254/256 |
LOYSEW | KVZ87AM284/286 |
LOYSEW | KT87AM143 |
LOYSEW | KT87AM145 |
LOYSEW | KT87AM182 |
LOYSEW | KT87AM184 |
LOYSEW | KT87AM213/215 |
LOYSEW | KT87AM254/256 |
LOYSEW | KT87AM284/286 |
LOYSEW | K97AM182 |
LOYSEW | K97AM184 |
LOYSEW | K97AM213/215 |
LOYSEW | K97AM254/256 |
LOYSEW | K97AM284/286 |
LOYSEW | K97AM324/326 |
LOYSEW | K97AM364/365 |
LOYSEW | KA97BAM182 |
LOYSEW | KA97BAM184 |
LOYSEW | KA97BAM213/215 |
LOYSEW | KA97BAM254/256 |
LOYSEW | KA97BAM284/286 |
LOYSEW | KA97BAM324/326 |
LOYSEW | KA97BAM364/365 |
LOYSEW | KV97BAM182 |
LOYSEW | KV97BAM184 |
LOYSEW | KV97BAM213/215 |
LOYSEW | KV97BAM254/256 |
LOYSEW | KV97BAM284/286 |
LOYSEW | KV97BAM324/326 |
LOYSEW | KV97BAM364/365 |
LOYSEW | KH97BAM182 |
LOYSEW | KH97BAM184 |
LOYSEW | KH97BAM213/215 |
LOYSEW | KH97BAM254/256 |
LOYSEW | KH97BAM284/286 |
LOYSEW | KH97BAM324/326 |
LOYSEW | KH97BAM364/365 |
LOYSEW | KF97AM182 |
LOYSEW | KF97AM184 |
LOYSEW | KF97AM213/215 |
LOYSEW | KF97AM254/256 |
LOYSEW | KF97AM284/286 |
LOYSEW | KF97AM324/326 |
LOYSEW | KF97AM364/365 |
LOYSEW | KAF97AM182 |
LOYSEW | KAF97AM184 |
LOYSEW | KAF97AM213/215 |
LOYSEW | KAF97AM254/256 |
LOYSEW | KAF97AM284/286 |
LOYSEW | KAF97AM324/326 |
LOYSEW | KAF97AM364/365 |
LOYSEW | KVF97AM182 |
LOYSEW | KVF97AM184 |
LOYSEW | KVF97AM213/215 |
LOYSEW | KVF97AM254/256 |
LOYSEW | KVF97AM284/286 |
LOYSEW | KVF97AM324/326 |
LOYSEW | KVF97AM364/365 |
LOYSEW | KHF97AM182 |
LOYSEW | KHF97AM184 |
LOYSEW | KHF97AM213/215 |
LOYSEW | KHF97AM254/256 |
LOYSEW | KHF97AM284/286 |
LOYSEW | KHF97AM324/326 |
LOYSEW | KHF97AM364/365 |
LOYSEW | KA97AM182 |
LOYSEW | KA97AM184 |
LOYSEW | KA97AM213/215 |
LOYSEW | KA97AM254/256 |
LOYSEW | KA97AM284/286 |
LOYSEW | KA97AM324/326 |
LOYSEW | KA97AM364/365 |
LOYSEW | KV97AM182 |
LOYSEW | KV97AM184 |
LOYSEW | KV97AM213/215 |
LOYSEW | KV97AM254/256 |
LOYSEW | KV97AM284/286 |
LOYSEW | KV97AM324/326 |
LOYSEW | KV97AM364/365 |
LOYSEW | KH97AM182 |
LOYSEW | KH97AM184 |
LOYSEW | KH97AM213/215 |
LOYSEW | KH97AM254/256 |
LOYSEW | KH97AM284/286 |
LOYSEW | KH97AM324/326 |
LOYSEW | KH97AM364/365 |
LOYSEW | KAZ97AM182 |
LOYSEW | KAZ97AM184 |
LOYSEW | KAZ97AM213/215 |
LOYSEW | KAZ97AM254/256 |
LOYSEW | KAZ97AM284/286 |
LOYSEW | KAZ97AM324/326 |
LOYSEW | KAZ97AM364/365 |
LOYSEW | KVZ97AM182 |
LOYSEW | KVZ97AM184 |
LOYSEW | KVZ97AM213/215 |
LOYSEW | KVZ97AM254/256 |
LOYSEW | KVZ97AM284/286 |
LOYSEW | KVZ97AM324/326 |
LOYSEW | KVZ97AM364/365 |
LOYSEW | KHZ97AM182 |
LOYSEW | KHZ97AM184 |
LOYSEW | KHZ97AM213/215 |
LOYSEW | KHZ97AM254/256 |
LOYSEW | KHZ97AM284/286 |
LOYSEW | KHZ97AM324/326 |
LOYSEW | KHZ97AM364/365 |
LOYSEW | KT97AM182 |
LOYSEW | KT97AM184 |
LOYSEW | KT97AM213/215 |
LOYSEW | KT97AM254/256 |
LOYSEW | KT97AM284/286 |
LOYSEW | KT97AM324/326 |
LOYSEW | KT97AM364/365 |
LOYSEW | K107AM182 |
LOYSEW | K107AM184 |
LOYSEW | K107AM213/215 |
LOYSEW | K107AM254/256 |
LOYSEW | K107AM284/286 |
LOYSEW | K107AM324/326 |
LOYSEW | K107AM364/365 |
LOYSEW | KA107BAM182 |
LOYSEW | KA107BAM184 |
LOYSEW | KA107BAM213/215 |
LOYSEW | KA107BAM254/256 |
LOYSEW | KA107BAM284/286 |
LOYSEW | KA107BAM324/326 |
LOYSEW | KA107BAM364/365 |
LOYSEW | KV107BAM182 |
LOYSEW | KV107BAM184 |
LOYSEW | KV107BAM213/215 |
LOYSEW | KV107BAM254/256 |
LOYSEW | KV107BAM284/286 |
LOYSEW | KV107BAM324/326 |
LOYSEW | KV107BAM364/365 |
LOYSEW | KH107BAM182 |
LOYSEW | KH107BAM184 |
LOYSEW | KH107BAM213/215 |
LOYSEW | KH107BAM254/256 |
LOYSEW | KH107BAM284/286 |
LOYSEW | KH107BAM324/326 |
LOYSEW | KH107BAM364/365 |
LOYSEW | KF107AM182 |
LOYSEW | KF107AM184 |
LOYSEW | KF107AM213/215 |
LOYSEW | KF107AM254/256 |
LOYSEW | KF107AM284/286 |
LOYSEW | KF107AM324/326 |
LOYSEW | KF107AM364/365 |
LOYSEW | KAF107AM182 |
LOYSEW | KAF107AM184 |
LOYSEW | KAF107AM213/215 |
LOYSEW | KAF107AM254/256 |
LOYSEW | KAF107AM284/286 |
LOYSEW | KAF107AM324/326 |
LOYSEW | KAF107AM364/365 |
LOYSEW | KVF107AM182 |
LOYSEW | KVF107AM184 |
LOYSEW | KVF107AM213/215 |
LOYSEW | KVF107AM254/256 |
LOYSEW | KVF107AM284/286 |
LOYSEW | KVF107AM324/326 |
LOYSEW | KVF107AM364/365 |
LOYSEW | KHF107AM182 |
LOYSEW | KHF107AM184 |
LOYSEW | KHF107AM213/215 |
LOYSEW | KHF107AM254/256 |
LOYSEW | KHF107AM284/286 |
LOYSEW | KHF107AM324/326 |
LOYSEW | KHF107AM364/365 |
LOYSEW | KA107AM182 |
LOYSEW | KA107AM184 |
LOYSEW | KA107AM213/215 |
LOYSEW | KA107AM254/256 |
LOYSEW | KA107AM284/286 |
LOYSEW | KA107AM324/326 |
LOYSEW | KA107AM364/365 |
LOYSEW | KV107AM182 |
LOYSEW | KV107AM184 |
LOYSEW | KV107AM213/215 |
LOYSEW | KV107AM254/256 |
LOYSEW | KV107AM284/286 |
LOYSEW | KV107AM324/326 |
LOYSEW | KV107AM364/365 |
LOYSEW | KH107AM182 |
LOYSEW | KH107AM184 |
LOYSEW | KH107AM213/215 |
LOYSEW | KH107AM254/256 |
LOYSEW | KH107AM284/286 |
LOYSEW | KH107AM324/326 |
LOYSEW | KH107AM364/365 |
LOYSEW | KAZ107AM182 |
LOYSEW | KAZ107AM184 |
LOYSEW | KAZ107AM213/215 |
LOYSEW | KAZ107AM254/256 |
LOYSEW | KAZ107AM284/286 |
LOYSEW | KAZ107AM324/326 |
LOYSEW | KAZ107AM364/365 |
LOYSEW | KVZ107AM182 |
LOYSEW | KVZ107AM184 |
LOYSEW | KVZ107AM213/215 |
LOYSEW | KVZ107AM254/256 |
LOYSEW | KVZ107AM284/286 |
LOYSEW | KVZ107AM324/326 |
LOYSEW | KVZ107AM364/365 |
LOYSEW | KHZ107AM182 |
LOYSEW | KHZ107AM184 |
LOYSEW | KHZ107AM213/215 |
LOYSEW | KHZ107AM254/256 |
LOYSEW | KHZ107AM284/286 |
LOYSEW | KHZ107AM324/326 |
LOYSEW | KHZ107AM364/365 |
LOYSEW | KT107AM182 |
LOYSEW | KT107AM184 |
LOYSEW | KT107AM213/215 |
LOYSEW | KT107AM254/256 |
LOYSEW | KT107AM284/286 |
LOYSEW | KT107AM324/326 |
LOYSEW | KT107AM364/365 |
LOYSEW | K127AM213/215 |
LOYSEW | K127AM254/256 |
LOYSEW | K127AM284/286 |
LOYSEW | K127AM324/326 |
LOYSEW | K127AM364/365 |
LOYSEW | KA127BAM213/215 |
LOYSEW | KA127BAM254/256 |
LOYSEW | KA127BAM284/286 |
LOYSEW | KA127BAM324/326 |
LOYSEW | KA127BAM364/365 |
LOYSEW | KV127BAM213/215 |
LOYSEW | KV127BAM254/256 |
LOYSEW | KV127BAM284/286 |
LOYSEW | KV127BAM324/326 |
LOYSEW | KV127BAM364/365 |
LOYSEW | KH127BAM213/215 |
LOYSEW | KH127BAM254/256 |
LOYSEW | KH127BAM284/286 |
LOYSEW | KH127BAM324/326 |
LOYSEW | KH127BAM364/365 |
LOYSEW | KF127AM213/215 |
LOYSEW | KF127AM254/256 |
LOYSEW | KF127AM284/286 |
LOYSEW | KF127AM324/326 |
LOYSEW | KF127AM364/365 |
LOYSEW | KAF127AM213/215 |
LOYSEW | KAF127AM254/256 |
LOYSEW | KAF127AM284/286 |
LOYSEW | KAF127AM324/326 |
LOYSEW | KAF127AM364/365 |
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LOYSEW | SH47AM145 |
LOYSEW | SAZ47AM56 |
LOYSEW | SAZ47AM143 |
LOYSEW | SAZ47AM145 |
LOYSEW | SHZ47AM56 |
LOYSEW | SHZ47AM143 |
LOYSEW | SHZ47AM145 |
LOYSEW | ST47AM56 |
LOYSEW | ST47AM143 |
LOYSEW | ST47AM145 |
LOYSEW | S57AM56 |
LOYSEW | S57AM143 |
LOYSEW | S57AM145 |
LOYSEW | SF57AM56 |
LOYSEW | SF57AM143 |
LOYSEW | SF57AM145 |
LOYSEW | SAF57AM56 |
LOYSEW | SAF57AM143 |
LOYSEW | SAF57AM145 |
LOYSEW | SHF57AM56 |
LOYSEW | SHF57AM143 |
LOYSEW | SHF57AM145 |
LOYSEW | SA57AM56 |
LOYSEW | SA57AM143 |
LOYSEW | SA57AM145 |
LOYSEW | SH57AM56 |
LOYSEW | SH57AM143 |
LOYSEW | SH57AM145 |
LOYSEW | SAZ57AM56 |
LOYSEW | SAZ57AM143 |
LOYSEW | SAZ57AM145 |
LOYSEW | SHZ57AM56 |
LOYSEW | SHZ57AM143 |
LOYSEW | SHZ57AM145 |
LOYSEW | ST57AM56 |
LOYSEW | ST57AM143 |
LOYSEW | ST57AM145 |
LOYSEW | S67AM56 |
LOYSEW | S67AM143 |
LOYSEW | S67AM145 |
LOYSEW | S67AM182 |
LOYSEW | S67AM184 |
LOYSEW | S67AM213/215 |
LOYSEW | SF67AM56 |
LOYSEW | SF67AM143 |
LOYSEW | SF67AM145 |
LOYSEW | SF67AM182 |
LOYSEW | SF67AM184 |
LOYSEW | SF67AM213/215 |
LOYSEW | SAF67AM56 |
LOYSEW | SAF67AM143 |
LOYSEW | SAF67AM145 |
LOYSEW | SAF67AM182 |
LOYSEW | SAF67AM184 |
LOYSEW | SAF67AM213/215 |
LOYSEW | SHF67AM56 |
LOYSEW | SHF67AM143 |
LOYSEW | SHF67AM145 |
LOYSEW | SHF67AM182 |
LOYSEW | SHF67AM184 |
LOYSEW | SHF67AM213/215 |
LOYSEW | SA67AM56 |
LOYSEW | SA67AM143 |
LOYSEW | SA67AM145 |
LOYSEW | SA67AM182 |
LOYSEW | SA67AM184 |
LOYSEW | SA67AM213/215 |
LOYSEW | SH67AM56 |
LOYSEW | SH67AM143 |
LOYSEW | SH67AM145 |
LOYSEW | SH67AM182 |
LOYSEW | SH67AM184 |
LOYSEW | SH67AM213/215 |
LOYSEW | SAZ67AM56 |
LOYSEW | SAZ67AM143 |
LOYSEW | SAZ67AM145 |
LOYSEW | SAZ67AM182 |
LOYSEW | SAZ67AM184 |
LOYSEW | SAZ67AM213/215 |
LOYSEW | SHZ67AM56 |
LOYSEW | SHZ67AM143 |
LOYSEW | SHZ67AM145 |
LOYSEW | SHZ67AM182 |
LOYSEW | SHZ67AM184 |
LOYSEW | SHZ67AM213/215 |
LOYSEW | ST67AM56 |
LOYSEW | ST67AM143 |
LOYSEW | ST67AM145 |
LOYSEW | ST67AM182 |
LOYSEW | ST67AM184 |
LOYSEW | ST67AM213/215 |
LOYSEW | S77AM56 |
LOYSEW | S77AM143 |
LOYSEW | S77AM145 |
LOYSEW | S77AM182 |
LOYSEW | S77AM184 |
LOYSEW | S77AM213/215 |
LOYSEW | SF77AM56 |
LOYSEW | SF77AM143 |
LOYSEW | SF77AM145 |
LOYSEW | SF77AM182 |
LOYSEW | SF77AM184 |
LOYSEW | SF77AM213/215 |
LOYSEW | SAF77AM56 |
LOYSEW | SAF77AM143 |
LOYSEW | SAF77AM145 |
LOYSEW | SAF77AM182 |
LOYSEW | SAF77AM184 |
LOYSEW | SAF77AM213/215 |
LOYSEW | SHF77AM56 |
LOYSEW | SHF77AM143 |
LOYSEW | SHF77AM145 |
LOYSEW | SHF77AM182 |
LOYSEW | SHF77AM184 |
LOYSEW | SHF77AM213/215 |
LOYSEW | SA77AM56 |
LOYSEW | SA77AM143 |
LOYSEW | SA77AM145 |
LOYSEW | SA77AM182 |
LOYSEW | SA77AM184 |
LOYSEW | SA77AM213/215 |
LOYSEW | SH77AM56 |
LOYSEW | SH77AM143 |
LOYSEW | SH77AM145 |
LOYSEW | SH77AM182 |
LOYSEW | SH77AM184 |
LOYSEW | SH77AM213/215 |
LOYSEW | SAZ77AM56 |
LOYSEW | SAZ77AM143 |
LOYSEW | SAZ77AM145 |
LOYSEW | SAZ77AM182 |
LOYSEW | SAZ77AM184 |
LOYSEW | SAZ77AM213/215 |
LOYSEW | SHZ77AM56 |
LOYSEW | SHZ77AM143 |
LOYSEW | SHZ77AM145 |
LOYSEW | SHZ77AM182 |
LOYSEW | SHZ77AM184 |
LOYSEW | SHZ77AM213/215 |
LOYSEW | ST77AM56 |
LOYSEW | ST77AM143 |
LOYSEW | ST77AM145 |
LOYSEW | ST77AM182 |
LOYSEW | ST77AM184 |
LOYSEW | ST77AM213/215 |
LOYSEW | S87AM143 |
LOYSEW | S87AM145 |
LOYSEW | S87AM182 |
LOYSEW | S87AM184 |
LOYSEW | S87AM213/215 |
LOYSEW | S87AM254/256 |
LOYSEW | S87AM284/286 |
LOYSEW | SF87AM143 |
LOYSEW | SF87AM145 |
LOYSEW | SF87AM182 |
LOYSEW | SF87AM184 |
LOYSEW | SF87AM213/215 |
LOYSEW | SF87AM254/256 |
LOYSEW | SF87AM284/286 |
LOYSEW | SAF87AM143 |
LOYSEW | SAF87AM145 |
LOYSEW | SAF87AM182 |
LOYSEW | SAF87AM184 |
LOYSEW | SAF87AM213/215 |
LOYSEW | SAF87AM254/256 |
LOYSEW | SAF87AM284/286 |
LOYSEW | SHF87AM143 |
LOYSEW | SHF87AM145 |
LOYSEW | SHF87AM182 |
LOYSEW | SHF87AM184 |
LOYSEW | SHF87AM213/215 |
LOYSEW | SHF87AM254/256 |
LOYSEW | SHF87AM284/286 |
LOYSEW | SA87AM143 |
LOYSEW | SA87AM145 |
LOYSEW | SA87AM182 |
LOYSEW | SA87AM184 |
LOYSEW | SA87AM213/215 |
LOYSEW | SA87AM254/256 |
LOYSEW | SA87AM284/286 |
LOYSEW | SA87AM143 |
LOYSEW | SA87AM145 |
LOYSEW | SA87AM182 |
LOYSEW | SA87AM184 |
LOYSEW | SA87AM213/215 |
LOYSEW | SA87AM254/256 |
LOYSEW | SA87AM284/286 |
LOYSEW | SAZ87AM143 |
LOYSEW | SAZ87AM145 |
LOYSEW | SAZ87AM182 |
LOYSEW | SAZ87AM184 |
LOYSEW | SAZ87AM213/215 |
LOYSEW | SAZ87AM254/256 |
LOYSEW | SAZ87AM284/286 |
LOYSEW | SHZ87AM143 |
LOYSEW | SHZ87AM145 |
LOYSEW | SHZ87AM182 |
LOYSEW | SHZ87AM184 |
LOYSEW | SHZ87AM213/215 |
LOYSEW | SHZ87AM254/256 |
LOYSEW | SHZ87AM284/286 |
LOYSEW | ST87AM143 |
LOYSEW | ST87AM145 |
LOYSEW | ST87AM182 |
LOYSEW | ST87AM184 |
LOYSEW | ST87AM213/215 |
LOYSEW | ST87AM254/256 |
LOYSEW | ST87AM284/286 |
LOYSEW | S97AM182 |
LOYSEW | S97AM184 |
LOYSEW | S97AM213/215 |
LOYSEW | S97AM254/256 |
LOYSEW | S97AM284/286 |
LOYSEW | S97AM324/326 |
LOYSEW | S97AM364/365 |
LOYSEW | SF97AM182 |
LOYSEW | SF97AM184 |
LOYSEW | SF97AM213/215 |
LOYSEW | SF97AM254/256 |
LOYSEW | SF97AM284/286 |
LOYSEW | SF97AM324/326 |
LOYSEW | SF97AM364/365 |
LOYSEW | SAF97AM182 |
LOYSEW | SAF97AM184 |
LOYSEW | SAF97AM213/215 |
LOYSEW | SAF97AM254/256 |
LOYSEW | SAF97AM284/286 |
LOYSEW | SAF97AM324/326 |
LOYSEW | SAF97AM364/365 |
LOYSEW | SHF97AM182 |
LOYSEW | SHF97AM184 |
LOYSEW | SHF97AM213/215 |
LOYSEW | SHF97AM254/256 |
LOYSEW | SHF97AM284/286 |
LOYSEW | SHF97AM324/326 |
LOYSEW | SHF97AM364/365 |
LOYSEW | SA97AM182 |
LOYSEW | SA97AM184 |
LOYSEW | SA97AM213/215 |
LOYSEW | SA97AM254/256 |
LOYSEW | SA97AM284/286 |
LOYSEW | SA97AM324/326 |
LOYSEW | SA97AM364/365 |
LOYSEW | SH97AM182 |
LOYSEW | SH97AM184 |
LOYSEW | SH97AM213/215 |
LOYSEW | SH97AM254/256 |
LOYSEW | SH97AM284/286 |
LOYSEW | SH97AM324/326 |
LOYSEW | SH97AM364/365 |
LOYSEW | SAZ97AM182 |
LOYSEW | SAZ97AM184 |
LOYSEW | SAZ97AM213/215 |
LOYSEW | SAZ97AM254/256 |
LOYSEW | SAZ97AM284/286 |
LOYSEW | SAZ97AM324/326 |
LOYSEW | SAZ97AM364/365 |
LOYSEW | SHZ97AM182 |
LOYSEW | SHZ97AM184 |
LOYSEW | SHZ97AM213/215 |
LOYSEW | SHZ97AM254/256 |
LOYSEW | SHZ97AM284/286 |
LOYSEW | SHZ97AM324/326 |
LOYSEW | SHZ97AM364/365 |
LOYSEW | ST97AM182 |
LOYSEW | ST97AM184 |
LOYSEW | ST97AM213/215 |
LOYSEW | ST97AM254/256 |
LOYSEW | ST97AM284/286 |
LOYSEW | ST97AM324/326 |
LOYSEW | ST97AM364/365 |
LOYSEW | S..37AM63 |
LOYSEW | S..37AM71 |
LOYSEW | S..37AM80 |
LOYSEW | S..37AM90 |
LOYSEW | S..47AM63 |
LOYSEW | S..47AM71 |
LOYSEW | S..47AM80 |
LOYSEW | S..47AM90 |
LOYSEW | S..57AM63 |
LOYSEW | S..57AM71 |
LOYSEW | S..57AM80 |
LOYSEW | S..57AM90 |
LOYSEW | S..67AM63 |
LOYSEW | S..67AM71 |
LOYSEW | S..67AM80 |
LOYSEW | S..67AM90 |
LOYSEW | S..67AM100 |
LOYSEW | S..67AM112 |
LOYSEW | S..67AM132S/M |
LOYSEW | S..77AM63 |
LOYSEW | S..77AM71 |
LOYSEW | S..77AM80 |
LOYSEW | S..77AM90 |
LOYSEW | S..77AM100 |
LOYSEW | S..77AM112 |
LOYSEW | S..77AM132S/M |
LOYSEW | S..77AM132ML |
LOYSEW | S..87AM80 |
LOYSEW | S..87AM90 |
LOYSEW | S..87AM100 |
LOYSEW | S..87AM112 |
LOYSEW | S..87AM132S/M |
LOYSEW | S..87AM132ML |
LOYSEW | S..87AM160 |
LOYSEW | S..87AM180 |
LOYSEW | S..97AM100 |
LOYSEW | S..97AM112 |
LOYSEW | S..97AM132S/M |
LOYSEW | S..97AM132ML |
LOYSEW | S..97AM160 |
LOYSEW | S..97AM180 |
LOYSEW | S..97AM200 |
LOYSEW | S..67R37 |
LOYSEW | S..77R37 |
LOYSEW | S..87R57 |
LOYSEW | S..97R57 |
LOYSEW | S..37AD1 |
LOYSEW | S..37AD2 |
LOYSEW | S..47AD1 |
LOYSEW | S..47AD2 |
LOYSEW | S..57AD1 |
LOYSEW | S..57AD2 |
LOYSEW | S..67AD2 |
LOYSEW | S..67AD3 |
LOYSEW | S..77AD2 |
LOYSEW | S..77AD3 |
LOYSEW | S..77AD4 |
LOYSEW | S..87AD2 |
LOYSEW | S..87AD3 |
LOYSEW | S..87AD4 |
LOYSEW | S..87AD5 |
LOYSEW | S..97AD3 |
LOYSEW | S..97AD4 |
LOYSEW | S..97AD5 |
LOYSEW | S..97AD6 |
LOYSEW | S..37AD1 |
LOYSEW | S..37AD2,AD2/ZR |
LOYSEW | S..47AD1 |
LOYSEW | S..47AD2,AD2/ZR |
LOYSEW | S..57AD1 |
LOYSEW | S..57AD2,AD2/ZR |
LOYSEW | S..67AD2,AD2/ZR |
LOYSEW | S..67AD3,AD3/ZR |
LOYSEW | S..77AD2,AD2/ZR |
LOYSEW | S..77AD3,AD3/ZR |
LOYSEW | S..77AD4,AD4/ZR |
LOYSEW | S..87AD2,AD2/ZR |
LOYSEW | S..87AD3,AD3/ZR |
LOYSEW | S..87AD4,AD4/ZR |
LOYSEW | S..87AD5,AD5/ZR |
LOYSEW | S..97AD3,AD3/ZR |
LOYSEW | S..97AD4,AD4/ZR |
LOYSEW | S..97AD5,AD5/ZR |
LOYSEW | S..97AD6,AD6/ZR |
LOYSEW | S..67R37 |
LOYSEW | S..77R37 |
LOYSEW | S..87R57 |
LOYSEW | S..97R57 |
LOYSEW | S..37AD2/P |
LOYSEW | S..47AD2/P |
LOYSEW | S..57AD2/P |
LOYSEW | S..67AD2/P |
LOYSEW | S..67AD3/P |
LOYSEW | S..77AD2/P |
LOYSEW | S..77AD3/P |
LOYSEW | S..77AD4/P |
LOYSEW | S..87AD2/P |
LOYSEW | S..87AD3/P |
LOYSEW | S..87AD4/P |
LOYSEW | S..87AD5/P |
LOYSEW | S..97AD3/P |
LOYSEW | S..97AD4/P |
LOYSEW | S..97AD5/P |
LOYSEW | S..37AR71 |
LOYSEW | S..37AR80 |
LOYSEW | S..37AR90 |
LOYSEW | S..47AR71 |
LOYSEW | S..47AR80 |
LOYSEW | S..47AR90 |
LOYSEW | S..57AR71 |
LOYSEW | S..57AR80 |
LOYSEW | S..57AR90 |
LOYSEW | S..67AR71 |
LOYSEW | S..67AR80 |
LOYSEW | S..67AR90 |
LOYSEW | S..67AR100 |
LOYSEW | S..67AR112 |
LOYSEW | S..77AR71 |
LOYSEW | S..77AR80 |
LOYSEW | S..77AR90 |
LOYSEW | S..77AR100 |
LOYSEW | S..77AR112 |
LOYSEW | S..77AR132S/M |
LOYSEW | S..77AR132ML |
LOYSEW | S..87AR80 |
LOYSEW | S..87AR90 |
LOYSEW | S..87AR100 |
LOYSEW | S..87AR112 |
LOYSEW | S..87AR132S/M |
LOYSEW | S..87AR132ML |
LOYSEW | S..87AR160 |
LOYSEW | S..87AR180 |
LOYSEW | S..97AR100 |
LOYSEW | S..97AR112 |
LOYSEW | S..97AR132S/M |
LOYSEW | S..97AR132ML |
LOYSEW | S..97AR160 |
LOYSEW | S..97AR180 |
LOYSEW | W37 AD.. |
LOYSEW | W47 AD.. |
LOYSEW | W37AM56 |
LOYSEW | W37AM143 |
LOYSEW | W37AM145 |
LOYSEW | WA37BAM56 |
LOYSEW | WA37BAM143 |
LOYSEW | WA37BAM145 |
LOYSEW | WH37BAM56 |
LOYSEW | WH37BAM143 |
LOYSEW | WH37BAM145 |
LOYSEW | WF37AM56 |
LOYSEW | WF37AM143 |
LOYSEW | WF37AM145 |
LOYSEW | WAF37AM56 |
LOYSEW | WAF37AM143 |
LOYSEW | WAF37AM145 |
LOYSEW | WHF37AM56 |
LOYSEW | WHF37AM143 |
LOYSEW | WHF37AM145 |
LOYSEW | WA37AM56 |
LOYSEW | WA37AM143 |
LOYSEW | WA37AM145 |
LOYSEW | WH37AM56 |
LOYSEW | WH37AM143 |
LOYSEW | WH37AM145 |
LOYSEW | WT37AM56 |
LOYSEW | WT37AM143 |
LOYSEW | WT37AM145 |
LOYSEW | W47AM56 |
LOYSEW | W47AM143 |
LOYSEW | W47AM145 |
LOYSEW | W47AM182 |
LOYSEW | W47AM184 |
LOYSEW | WA47BAM56 |
LOYSEW | WA47BAM143 |
LOYSEW | WA47BAM145 |
LOYSEW | WA47BAM182 |
LOYSEW | WA47BAM184 |
LOYSEW | WH47BAM56 |
LOYSEW | WH47BAM143 |
LOYSEW | WH47BAM145 |
LOYSEW | WH47BAM182 |
LOYSEW | WH47BAM184 |
LOYSEW | WF47AM56 |
LOYSEW | WF47AM143 |
LOYSEW | WF47AM145 |
LOYSEW | WF47AM182 |
LOYSEW | WF47AM184 |
LOYSEW | WAF47AM56 |
LOYSEW | WAF47AM143 |
LOYSEW | WAF47AM145 |
LOYSEW | WAF47AM182 |
LOYSEW | WAF47AM184 |
LOYSEW | WHF47AM56 |
LOYSEW | WHF47AM143 |
LOYSEW | WHF47AM145 |
LOYSEW | WHF47AM182 |
LOYSEW | WHF47AM184 |
LOYSEW | WA47AM56 |
LOYSEW | WA47AM143 |
LOYSEW | WA47AM145 |
LOYSEW | WA47AM182 |
LOYSEW | WA47AM184 |
LOYSEW | WH47AM56 |
LOYSEW | WH47AM143 |
LOYSEW | WH47AM145 |
LOYSEW | WH47AM182 |
LOYSEW | WH47AM184 |
LOYSEW | WT47AM56 |
LOYSEW | WT47AM143 |
LOYSEW | WT47AM145 |
LOYSEW | WT47AM182 |
LOYSEW | WT47AM184 |
LOYSEW | W..37AM63 |
LOYSEW | W..37AM71 |
LOYSEW | W..37AM80 |
LOYSEW | W..37AM90 |
LOYSEW | W..47AM63 |
LOYSEW | W..47AM71 |
LOYSEW | W..47AM80 |
LOYSEW | W..47AM90 |
LOYSEW | W..47AM100 |
LOYSEW | W..47AM112 |
LOYSEW | W..47AM132S/M |
LOYSEW | W..37AD1 |
LOYSEW | W..37AD2 |
LOYSEW | W..47AD2 |
LOYSEW | W..47AD3 |
LOYSEW | W..37AR71 |
LOYSEW | W..37AR80 |
LOYSEW | W..37AR90 |
LOYSEW | W..47AR71 |
LOYSEW | W..47AR80 |
LOYSEW | W..47AR90 |
FAQ
—Why do you choose LOYAL?
LOYAL is a very professional supplier of replacement parts for piston pumps, motors, concrete pump spare parts, gearbox, cylinders, gear pumps and so on
LOYALmajor technicians have 20 years experience. We are not only supplying products to you, but also providing you
benefits and useful suggestion about goods maintenance.
—How about quality of products from LOYAL?
We always pay more attention about quality of our goods from raw material to machining, especially heat treatment to control our quality and precision parts, 100% interchangeable with origins. Stable temperature and enough time heat treatment are strictly controlled by our suppliers to make parts durable.
Warranty: 1 year
—What about delivery and service from LOYAL?
We offer all customers quick response about all inquiries every time. We stock plenty of spare parts, hydraulic pumps and hydraulic motors. If products you demanded in stock, we can delivery in 3 working days after your payment.
In case the products you needed are not in current stock, we can prepare in 2-4 weeks after your payment for hydraulic cylinders, gearbox and gear pumps, in 3-7 days for new hydraulic pumps,hydraulic motors, in 15-20 days for rebuilt hydraulic pumps,hydraulic motors.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Application: | Machinery, Marine, Agricultural Machinery |
---|---|
Hardness: | Hardened Tooth Surface |
Installation: | Horizontal Type |
Layout: | Expansion |
Gear Shape: | Conical – Cylindrical Gear |
Step: | Three-Step |
Samples: |
US$ 1800/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Types, Applications, and Lubrication of Planetary Gearboxes
A Planetary Gearbox is a device that can be used in a variety of applications. Their reduction ratios depend on the number of teeth in each gear. In this article, we will discuss the types, applications, and lubrication of planetary gearboxes. Hopefully, this article will be of help to you. If not, you can check out this article and discover more about this fascinating machine. There are many different types of planetary gearboxes.
Applications of planetary gearboxes
The planetary gearbox is a popular option for applications requiring precise positioning. Applications of the planetary gearbox range from plastic machinery to agricultural equipment, from goods & personnel lifts to industrial robotics. Some of the industries that benefit from this type of gearbox include robotics, intra-logistics, robotics for industrial automation, and medical equipment. Increasing automation is also fueling the growth of the industrial planetary gearbox market in APAC.
The compact design of planetary gears makes them excellent for reducing load inertia and maximizing torque. However, some applications require additional lubrication for sustained performance or high speeds. CZPT uses CZPT in its planetary gearboxes. In addition, lubrication prevents gear wear and minimizes noise and vibration. The planetary gearbox is also easy to install, thanks to its low-mass-inertia design.
Another application of the planetary gearbox is in axles and transfer cases. The planetary gear architecture consists of a sun gear, also called the central gear, and a ring-gear with internal teeth that are concentric to the sun gear. The two gears are connected via a carrier, and the output shaft is positioned on the ring-gear carrier. The gearbox can be configured in a variety of ways, depending on the speed-ratio requirements.
The planetary gear train is similar to that of a solar system. It comprises a sun gear and two or more outer gears, ring gear and carrier assembly. In this configuration, the outer gears are connected via a carrier and a ring gear. The planet gears are in constant mesh with each other, and power applied to one of these members will rotate the whole assembly. They are a very efficient choice for many applications.
Types
There are three types of planetary gearboxes, depending on their performance and efficiency. The basic model is highly efficient and transmits up to 97% of power input. Depending on the speed and torque that need to be transmitted, planetary gearboxes are used in many different applications. A planetary gearbox can reduce the speed of a roller or produce a more precise level of movement. Using a planetary gearbox for your printing press, for example, will maximize your gear transmission ratio.
This market research report analyzes the factors influencing the market for Planetary Gearboxes, as well as their sales and revenues. It also highlights industry trends and details the competitive landscape. It also provides a comprehensive analysis of the Planetary Gearbox industry and its drivers and restraints. It provides detailed information on the market size and future growth prospects. The study also includes an extensive discussion of the competitive landscape, identifying the top companies and key market players.
A planetary gearbox is often used to manufacture complicated machines. These gears are usually made of high-quality steel, which makes them extremely durable. Planetary gearboxes can also be used in the production of heavy machine elements. There are many benefits of a planetary gearbox, including its compactness and low mass inertia. The main advantage of a planetary gearbox is its ability to distribute torque. Compared to a normal gearbox, planetary gearboxes can provide torque that is nearly three times higher than its conventional counterpart.
The three main types of planetary gears are the single-stage, compound, and multi-stage. The general concept of a planetary gear is referred to as a compound planetary gear. This means that planetary gears are made up of one of these three basic structures: a meshed-planet structure, a shaft, and a multi-stage structure. This type of gear has multiple stages and is particularly useful for fast-dynamic laser cutting machines.
Design
A planetary gearbox is similar to a car’s transmission. All of its gears must have a certain number of teeth and be spaced equally apart. The teeth of a planet must mesh with the gears of the ring and sun to be functional. The number of teeth needed will depend on the number of planets and their spacing. This equation is a good starting point for designing a gearbox.
The dynamic properties of planetary gears are investigated using a parametric model. The stiffness of the mesh changes as the number of gear tooth pairs in contact varies during the gear rotation. Small disturbances in design realizations cause nonlinear dynamics, which results in noise and vibrations in the gear transmission. A mathematical system describing this process is developed using the basic principles of analytical mechanics. This mathematical model can be used to optimize any planetary gear.
This analysis assumes that the sun gear and planet gears have the same design modulus, which is a fundamental requirement of any mechanical gear. In reality, the ratio of these two gears is 24/16 versus -3/2. This means that a planetary gearbox’s output torque is 41.1 times the input torque. Considering this factor, we can make an accurate estimate of the total torque. The planetary gears are mounted face-to-face and connected to an electric motor.
A planetary gear set has to have a certain number of teeth that are odd or even. One way to overcome this issue is to double the number of teeth on the sun gear and the annulus gear. This will also solve irregularities. Another way to design a planetary gear set is to use the appropriate diametral pitch and module. There are many planetary gear sets available on the market, so it pays to understand the differences.
Lubrication
Lubrication for Planetary Gearboxes is important for the smooth functioning of the gear. Planetary gears are subjected to high levels of friction and heat, so they require regular lubrication. The gear housing is designed to dissipate heat away from the gear, but heat can still enter the gear, which can result in a poor lubrication condition. The best lubrication solution is synthetic oil, and the gear should be refilled with a minimum of 30 percent oil.
When lubricating a planetary gearbox, it is important to note that hydraulic oil is not suitable for planetary gearboxes, which cost over $1500. Hydraulic oil does not have the same viscosity and behavior with temperature fluctuations, making it less effective. The planetary gearbox may also overheat if a hose is not provided for case draining. A case drain hose is essential to prevent this from happening, because hot oil can cause overheating of the gearbox and damage to the gears.
Oil delivery conduits are positioned between each pair of planet gears. Each oil delivery conduit directs fresh oil toward the sun gear and the planet gear. The oil then disperses and exits from the gear train with considerable tangential velocity. The oil is redirected into a collection channel (56). The preferred embodiment uses herringbone gears, which pump oil axially outward into the channels.
The best way to choose the right type of lubrication is to consider its viscosity. Too high a viscosity will prevent the lubricant from flowing properly, which will cause metal-to-metal contact. The oil must also be compatible with the gearbox temperature. A suitable viscosity will increase the efficiency of the gearbox and prevent downtime. A reliable gearbox will ultimately result in higher profits and fewer costs.
Applications
This report examines the Industrial Planetary Gearbox Market and its current trends. It identifies the pre and post-COVID-19 effects of the industry. It outlines the advantages and disadvantages of the industrial planetary gearbox market. The report also explains the diverse financing resources and business models of the market. It includes the key players in the industry. Hence, it is essential to read this report carefully.
The report includes analysis and forecasts of the global market for planetary gearbox. It includes the product introductions, key business factors, regional and type segments, and end-users. It covers the sales and revenue of the market for each application field. The report also includes the regional and country-level market data. It also focuses on the market share of the key companies operating in the industry. It covers the competitive scenario in the global planetary gearbox market.
Another popular application for planetary gearboxes is in the toy industry. It is possible to design toys that look stunning with planetary gear systems. In addition to toys, clock makers also benefit from the planetary arrangement. In addition to producing a good-looking clock, this gearbox can reduce inertia and improve its efficiency. The planetary gearbox is easy to maintain, which makes it a good choice for clock applications.
In addition to traditional gear reductions, planetary gears are also used for 3D printing. Their huge gear ratio makes 3D printing easier. Furthermore, planetary gears are used to drive stepper motors, which turn much faster and produce a desired output. There are numerous industrial uses for planetary gearboxes. This article has explored a few of the most common ones. And don’t forget to explore their uses.
editor by Dream 2024-05-14
China Custom GS14 speed reducer,rotary planetary reducer swing transmission gearbox for XCMG200/215 gearbox engine
Product Description
Product Description
Reducer Model | Applicable Machine Model | Motor Install Hole | Housing Install Hole | Shaft Pinion Gear Diameter | Shaft Pinion Gear Height | Shaft Pinion No. Teeth | Weight/kg | ||
A | B | C | H | Z | |||||
GS14A11 | Liugong,Zoomlion240-260 Rotary | φ224 | 4-M16 | φ400 | 13-φ22 | φ216 | 104 | 15 | 223.67 |
GS14A12 | Liugong50Ton Dual Rotary | φ224 | 4-M16 | φ400 | 11-φ22 | φ224 | 100.5 | 11 | 221.55 |
GS14A14 | Sunward47-55Ton Dual Rotary | φ224 | 4-M16 | φ400 | 11-φ22 | φ224 | 100.5 | 11 | 221.33 |
GS14A15 | Levol26Ton Rotary | φ224 | 4-M16 | φ400 | 12-φ22 | φ216 | 104 | 15 | 223.68 |
GS14A16 | SDLG6550-6700 Dual Rotary | φ224 | 4-M16 | φ400 | 11-φ22 | φ224 | 100.5 | 11 | 221.41 |
GS14A18 | XCMG200 Rotary | φ224 | 4-M16 | φ400 | 13-φ22 | φ216 | 104 | 15 | 224.81 |
GS14 | XCMG235 Rotary | φ224 | 4-M16 | φ400 | 13-φ22 | φ216 | 104 | 15 | 224.56 |
GS14A17 | 23Ton Rotary | φ224 | 4-M16 | φ400 | 13-φ22 | φ210 | 100 | 12 | 220.79 |
GS14A05 | Sany600 Dual Rotary | φ224 | 4-M16 | φ400 | 11-φ22 | φ224 | 104 | 11 | 222.73 |
GS14A01 | Xihu (West Lake) Dis.de21Ton Rotary | φ224 | 4-M16 | φ400 | 12-φ22 | φ216 | 104 | 15 | 224.17 |
GS14A20 | SDLG550 Dual Rotary | φ224 | 4-M16 | φ400 | 11-φ22 | φ224 | 100.5 | 11 | 221.21 |
GS14A19 | 55Ton Dual Rotary | φ224 | 4-M16 | φ400 | 11-φ22 | φ224 | 100.5 | 11 | 234.99 |
Company Profile
Junze Precision Machinery (ZheJiang ) Co., LTD., a wholly-owned subsidiary of Xihu (West Lake) Dis.n Group, was put into operation in October 2016 with a total investment of 250 million Yuan and a total construction area of 28,800 square meters. We mainly undertake coarse and finishing parts, reducer, gearbox, bridge and other supporting products, which are used in heavy machinery such as construction machinery excavator, high-speed railway and special industries. The construction of this project enables high-end parts finishing, reducer and bridge box production technology to reach the international advanced level.
Products: Mainly undertake coarse finishing parts, reducer, gearbox, bridge and other supporting products, which are used in construction machinery excavator, high-speed railway and other heavy machinery. The construction of this project enables high-end parts finishing, reducer and bridge box production technology to reach the international advanced level.
1. At present, the company has a technical research and development team of more than 70 people, more than 90% of which have more than 10 years of hydraulic product technology accumulation, has become the main force of the company to develop new products.
2, the company currently around the hydraulic excavator hydraulic parts, products have formed a series:
Three major systems have been developed:
Positive flow system, negative flow system, load sensing control system;
Five series:
6 ton products, 8 ton products, 20 ton products, 40 ton products, concrete series products.
Packing
Packing according to customer’s requirement
ODM & OEM are both ok, since we have a sophisticated R&D team and precise equipment with the yearly output of 35000 pieces.
Besides, we have another 4 brother companies belonging to our Xihu (West Lake) Dis.n Group. One is Xihu (West Lake) Dis.de Construction Machinery Co., Ltd, which manufactures excavators, 1 is ZheJiang Xihu (West Lake) Dis.n Paike Agricultural Machinery Co., Ltd, which is an agricultural machinery manufacturing enterprise integrating R&D, manufacturing, sales and service, 1 is ZheJiang Xihu (West Lake) Dis.n Casting Industry Co. Ltd which produces cast iron and other metals, the other is ZheJiang CZPT Hydraulics Co., Ltd. which produces pumps, valves, motors.
So, please feel no hesitate to send your inquiries, we will offer you the best price in time and the thoughtful service forever.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Application: | Motor, Machinery, Agricultural Machinery, Car, excavator |
---|---|
Hardness: | Hardened Tooth Surface |
Installation: | Vertical Type |
Layout: | Coaxial |
Gear Shape: | Conical – Cylindrical Gear |
Step: | Double-Step |
Customization: |
Available
| Customized Request |
---|
Concept of Coaxial and Parallel Shaft Arrangements in Planetary Gearboxes
In planetary gearboxes, the arrangement of shafts plays a crucial role in determining the gearbox’s overall structure and functionality. The two common shaft arrangements are coaxial and parallel configurations:
Coaxial Shaft Arrangement: In a coaxial arrangement, the input shaft and output shaft are positioned along the same axis, resulting in a compact and streamlined design. The planetary gears and other components are aligned concentrically around the central axis, allowing for efficient power transmission and reduced space requirements. Coaxial planetary gearboxes are commonly used in applications where space is limited, and a compact form factor is essential. They are often employed in robotics, automotive systems, and aerospace mechanisms.
Parallel Shaft Arrangement: In a parallel arrangement, the input and output shafts are positioned parallel to each other but on different axes. The planetary gears are aligned in a way that allows the power to be transmitted from the input shaft to the output shaft via a combination of meshing gears. This arrangement allows for a larger gear diameter and higher torque transmission capabilities. Parallel planetary gearboxes are often used in applications requiring high torque and heavy-duty performance, such as industrial machinery, construction equipment, and material handling systems.
The choice between coaxial and parallel shaft arrangements depends on the specific requirements of the application. Coaxial configurations are favored for compactness and efficient power transmission, while parallel configurations excel in handling higher torque and heavy loads. Both arrangements offer distinct advantages and are chosen based on factors like available space, torque demands, load characteristics, and overall system design.
Differences Between Inline and Right-Angle Planetary Gearbox Configurations
Inline and right-angle planetary gearbox configurations are two common designs with distinct characteristics suited for various applications. Here’s a comparison of these configurations:
Inline Planetary Gearbox:
- Configuration: In an inline configuration, the input and output shafts are aligned along the same axis. The sun gear, planetary gears, and ring gear are typically arranged in a straight line.
- Compactness: Inline gearboxes are more compact and have a smaller footprint, making them suitable for applications with limited space.
- Efficiency: Inline configurations tend to have slightly higher efficiency due to the direct alignment of components.
- Output Speed and Torque: Inline gearboxes are better suited for applications that require higher output speeds and lower torque.
- Applications: They are commonly used in robotics, conveyors, printing machines, and other applications where space is a consideration.
Right-Angle Planetary Gearbox:
- Configuration: In a right-angle configuration, the input and output shafts are oriented at a 90-degree angle to each other. This allows for a change in direction of power transmission.
- Space Flexibility: Right-angle gearboxes offer flexibility in arranging components, making them suitable for applications that require changes in direction or where space constraints prevent a straight-line configuration.
- Torque Capacity: Right-angle configurations can handle higher torque loads due to the increased surface area of gear engagement.
- Applications: They are often used in cranes, elevators, conveyor systems, and applications requiring a change in direction.
- Efficiency: Right-angle configurations may have slightly lower efficiency due to increased gear meshing complexity and potential for additional losses.
Choosing between inline and right-angle configurations depends on factors such as available space, required torque and speed, and the need for changes in power transmission direction. Each configuration offers distinct advantages based on the specific needs of the application.
Contribution of Planetary Gearboxes to Efficient Industrial Automation and Robotics
Planetary gearboxes play a crucial role in enhancing the efficiency of industrial automation and robotics systems by offering several advantages:
1. Compact Design: Planetary gearboxes provide high power density and a compact form factor. This is essential in robotics and automation where space is limited and components need to be tightly integrated.
2. High Torque Density: Planetary gearboxes can achieve high torque output in a compact size, allowing robots and automated systems to handle heavy loads and perform demanding tasks efficiently.
3. Precision and Accuracy: The design of planetary gear systems ensures accurate and precise motion control. This is vital in robotics applications where precise positioning and smooth movement are required for tasks such as pick-and-place operations and assembly.
4. Redundancy: Some planetary gearboxes feature multiple stages and redundant configurations. This provides a level of built-in redundancy, enhancing the reliability of automation systems by allowing continued operation even if one stage fails.
5. Efficiency: Planetary gearboxes are designed for high efficiency, minimizing energy losses and ensuring that the power delivered to the output stage is effectively utilized. This efficiency is crucial for reducing energy consumption and optimizing battery life in robotic applications.
6. Speed Control: Planetary gearboxes allow for precise speed control, enabling robots to perform tasks at varying speeds as needed. This flexibility is essential for tasks that require different motion dynamics or speed profiles.
7. Reduction of Motor Loads: Planetary gearboxes can reduce the load on the motor by providing mechanical advantage through gear reduction. This allows smaller, more efficient motors to be used without sacrificing performance.
8. Shock Absorption: The inherent elasticity of gear teeth in planetary gearboxes can help absorb shocks and impacts, protecting the system components and ensuring smooth operation in dynamic environments.
9. Customization: Planetary gearboxes can be tailored to specific application requirements, including gear ratios, output configurations, and mounting options. This adaptability allows for optimal integration into various automation and robotics setups.
10. Maintenance and Durability: High-quality planetary gearboxes are designed for durability and low maintenance. This is especially important in industrial automation and robotics, where continuous operation and minimal downtime are essential.
Overall, planetary gearboxes contribute significantly to the efficient operation of industrial automation and robotics systems by providing the necessary torque, precision, compactness, and reliability required for these dynamic and demanding applications.
editor by CX 2024-05-14
China high quality High Quality Vertical Mounted Big Power P Series Gear Speed Reducer Planetary Gearbox gearbox definition
Product Description
P Series Planetary Gearbox/ Planetary Gear Box/ Speed Reducer
Product Parameters
Product Name |
Best price of P series planetary gearbox for concrete mixer |
Series |
gear reducer |
Application |
Power Tranmission |
Bearing |
China Top brand HRB,LYC,ZWZ or other brands requested, CZPT |
Used |
industry machinery |
Product Description
1.P series planetary gear reducer is widely used in metallurgy , mining, lifting and transport , electricity, energy , building
materials, light industry, transportation and other industrial sectors.
2. P series planetary gear involute planetary gear transmission , within a reasonable use, external gear , power split .
3. The planetary gear modular design changes can be combined according to customer requirements.
4.Carburized gears are used to obtain high- hard wear-resistant surface , all the heat treatment after grinding gear teeth ,
reduce noise , improve the overall efficiency and service life.
5. Hight quality gear reducer , small transmission ratio range , high efficiency, smooth operation, low noise adaptability and
other characteristics .
1.We manufacture and sell HB,XB,P, F, S,K,R series speed retarders and transmissions. 2.A variety of models are available. You are welcome to inquire.
3.We offer certifications:CO/PVOC/ FERI/SUNCAP/ISO 9001:2008
4.OEM service :logo,lable ,manual ,and packages
Detailed Photos
Our Advantages
Company Profile
Certifications
Packaging & Shipping
FAQ
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Hardness: | Hardened Tooth Surface |
---|---|
Installation: | Horizontal Type |
Layout: | Coaxial |
Gear Shape: | Planetary |
Step: | Single-Step |
Type: | Gear Reducer |
Samples: |
US$ 100000/Piece
1 Piece(Min.Order) | |
---|
Challenges in Achieving High Gear Ratios with Compactness in Planetary Gearboxes
Designing planetary gearboxes with high gear ratios while maintaining compactness presents several challenges:
- Space Constraints: As the gear ratio increases, the number of gear stages required also increases. This can lead to larger gearbox sizes, which may be challenging to accommodate in applications with limited space.
- Bearing Loads: Higher gear ratios often result in increased loads on the bearings and other components due to the redistribution of forces. This can impact the durability and lifespan of the gearbox.
- Efficiency: Each gear stage introduces losses due to friction and other factors. With multiple stages, the overall efficiency of the gearbox can decrease, affecting its energy efficiency.
- Complexity: Achieving high gear ratios can require complex gear arrangements and additional components, which can lead to increased manufacturing complexity and costs.
- Thermal Effects: Higher gear ratios can lead to greater heat generation due to increased friction and loads. Managing thermal effects becomes crucial to prevent overheating and component failure.
To address these challenges, gearbox designers use advanced materials, precise machining techniques, and innovative bearing arrangements to optimize the design for both compactness and performance. Computer simulations and modeling play a critical role in predicting the behavior of the gearbox under different operating conditions, helping to ensure reliability and efficiency.
Advantages of Backlash Reduction Mechanisms in Planetary Gearboxes
Backlash reduction mechanisms in planetary gearboxes offer several advantages that contribute to improved performance and precision:
Improved Positioning Accuracy: Backlash, or the play between gear teeth, can lead to positioning errors in applications where precise movement is crucial. Reduction mechanisms help minimize or eliminate this play, resulting in more accurate positioning.
Better Reversal Characteristics: Backlash can cause a delay in reversing the direction of motion. With reduction mechanisms, the reversal is smoother and more immediate, making them suitable for applications requiring quick changes in direction.
Enhanced Efficiency: Backlash can lead to energy losses and reduced efficiency due to the impacts between gear teeth. Reduction mechanisms minimize these impacts, improving overall power transmission efficiency.
Reduced Noise and Vibration: Backlash can contribute to noise and vibration in gearboxes, affecting both the equipment and the surrounding environment. By reducing backlash, the noise and vibration levels are significantly decreased.
Better Wear Protection: Backlash can accelerate wear on gear teeth, leading to premature gearbox failure. Reduction mechanisms help distribute the load more evenly across the teeth, extending the lifespan of the gearbox.
Enhanced System Stability: In applications where stability is crucial, such as robotics and automation, backlash reduction mechanisms contribute to smoother operation and reduced oscillations.
Compatibility with Precision Applications: Industries such as aerospace, medical equipment, and optics require high precision. Backlash reduction mechanisms make planetary gearboxes suitable for these applications by ensuring accurate and reliable motion.
Increased Control and Performance: In applications where control is critical, such as CNC machines and robotics, reduction mechanisms provide better control over the motion and enable finer adjustments.
Minimized Error Accumulation: In systems with multiple gear stages, backlash can accumulate, leading to larger positioning errors. Reduction mechanisms help minimize this error accumulation, maintaining accuracy throughout the system.
Overall, incorporating backlash reduction mechanisms in planetary gearboxes leads to improved accuracy, efficiency, reliability, and performance, making them essential components in precision-driven industries.
Role of Sun, Planet, and Ring Gears in Planetary Gearboxes
The arrangement of sun, planet, and ring gears is a fundamental aspect of planetary gearboxes and significantly contributes to their performance. Each gear type plays a specific role in the gearbox’s operation:
- Sun Gear: The sun gear is located at the center and is driven by the input power source. It transmits torque to the planet gears, causing them to orbit around it. The sun gear’s size and rotation speed affect the overall gear ratio of the system.
- Planet Gears: Planet gears are smaller gears that surround the sun gear. They are held in place by the planet carrier and mesh with both the sun gear and the internal teeth of the ring gear. As the sun gear rotates, the planet gears revolve around it, engaging with both the sun and ring gears simultaneously. This arrangement multiplies torque and changes the direction of rotation.
- Ring Gear (Annulus Gear): The ring gear is the outermost gear with internal teeth that mesh with the planet gears’ external teeth. It remains stationary or acts as the output shaft. The interaction between the planet gears and the ring gear causes the planet gears to rotate on their own axes as they orbit the sun gear.
The arrangement of these gears allows for various gear reduction ratios and torque multiplication effects, making planetary gearboxes versatile and efficient for a wide range of applications. The combination of multiple gear engagements and interactions distributes the load across multiple gear teeth, resulting in higher torque capacity, smoother operation, and lower stress on individual gear teeth.
Planetary gearboxes offer advantages such as compact size, high torque density, and the ability to achieve multiple gear reduction stages within a single unit. The arrangement of the sun, planet, and ring gears is essential for achieving these benefits while maintaining efficiency and reliability in various mechanical systems.
editor by CX 2024-05-09
China Professional Speed Reducer Ab 90 Series Helical Bevel Planetary Gearbox with High Torque and Low Backlash for Servo Motor planetary gearbox
Product Description
Planetary Gearbox AB Series Square Flange Helical Bevel Planetary Transmission Gearboxes Servo Motor
Product Overview:
Precision planetary gear reducer is another name for planetary gear reducer in the industry. Its main transmission structure is planetary gear, sun gear and inner gear ring.
Compared with other gear reducers, precision planetary gear reducers have the characteristics of high rigidity, high precision (single stage can achieve less than 1 point), high transmission efficiency (single stage can achieve 97% – 98%), high torque/volume ratio, lifelong maintenance-free, etc. Most of them are installed on stepper motor and servo motor to reduce speed, improve torque and match inertia.
AB series precision planetary gear box reducer AB60/90/115/142/180/220
features:
AB-series reducer features:
1. Helical gear design The reduction mechanism adopts the helical gear design, and its tooth shape meshing rate is more than twice that of the general spur gear, and has the characteristics of smooth operation, low noise, high output torque and low backlash
2. Collet type locking mechanism The connection between the input end and the motor adopts a collet-type locking mechanism and undergoes dynamic balance analysis to ensure the concentricity of the joint interface and zero-backlash power transmission at high input speeds
3. Modular design of motor connection board The unique modular design of the motor connecting plate and shaft is suitable for any brand and type of servo motor;
4. Efficient surface treatment technology The surface of the gearbox is treated with electroless nickel, and the connecting plate of the motor is treated with black anodic treatment to improve the environmental tolerance and corrosion resistance
5. One-piece gearbox body The gearbox and the inner ring gear adopt an integrated design, with compact structure, high precision and large output torque
6. Accurate concentricity of gear bar The sun gear made of the whole gear bar has strong rigidity and accurate concentricity
7. Solid, Single piece sun gear construction obtains precise concentricity with increased strength and rigidity. 8.Precision taper roller bearing support to increases radial and axial loading capacity.
Our Advantages
SERIES: AB/ ABR/ AD/ADS/ ADR/ AF/ AFR/ AFX/ AFXR/ AE/ AER/ AE/ AERS
PLF series, PLE series, ZPLF series, ZPLE series, AB series, ABR series and many other models are available.
Product Description
Planetary Gearbox AB Series Square Flange Helical Bevel Planetary Transmission Gearboxes Servo Motor
Advantages of the planetary gearbox:
Low backlash
High Efficiency
High Torque
High Input Speed
High Stability
High Reduction Ratio
Product Parameters
Name |
High Precision Planetary Gearbox |
Model |
AB042, AB060, AB060A, AB090A, AB115, AB142, AB180, AB220 |
Gearing Arrangement |
Planetary |
Effeiency withfull load |
≥97 |
Backlash |
≤5 |
Weight |
0.5~48kg |
Gear Type |
Helical Gear |
Gear stages |
1 stage, 2 stage |
Rated Torque |
14N.m-2000N.m |
Gear Ratio One-stage |
3, 4, 5, 6, 7, 8, 9, 10 |
Gear Ratio Two-stage |
15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100 |
Mounting Position |
Horizontal (foot mounted) or Vertical (flange mounted) |
Usage |
stepper motor, servo motor, AC motor, DC motor, etc |
Applications
Company Profile
Certifications
Packaging & Shipping
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Hardness: | Hardened Tooth Surface |
---|---|
Installation: | Vertical Type |
Layout: | Coaxial |
Gear Shape: | Planetary |
Step: | Single-Step |
Type: | Ab Series Gearbox, Gear Reducer |
Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
---|
Challenges in Achieving High Gear Ratios with Compactness in Planetary Gearboxes
Designing planetary gearboxes with high gear ratios while maintaining compactness presents several challenges:
- Space Constraints: As the gear ratio increases, the number of gear stages required also increases. This can lead to larger gearbox sizes, which may be challenging to accommodate in applications with limited space.
- Bearing Loads: Higher gear ratios often result in increased loads on the bearings and other components due to the redistribution of forces. This can impact the durability and lifespan of the gearbox.
- Efficiency: Each gear stage introduces losses due to friction and other factors. With multiple stages, the overall efficiency of the gearbox can decrease, affecting its energy efficiency.
- Complexity: Achieving high gear ratios can require complex gear arrangements and additional components, which can lead to increased manufacturing complexity and costs.
- Thermal Effects: Higher gear ratios can lead to greater heat generation due to increased friction and loads. Managing thermal effects becomes crucial to prevent overheating and component failure.
To address these challenges, gearbox designers use advanced materials, precise machining techniques, and innovative bearing arrangements to optimize the design for both compactness and performance. Computer simulations and modeling play a critical role in predicting the behavior of the gearbox under different operating conditions, helping to ensure reliability and efficiency.
Considerations for Selecting Size and Gear Materials in Planetary Gearboxes
Choosing the appropriate size and gear materials for a planetary gearbox is crucial for optimal performance and reliability. Here are the key considerations:
1. Load and Torque Requirements: Evaluate the anticipated load and torque that the gearbox will experience in the application. Select a gearbox size that can handle the maximum load without exceeding its capacity, ensuring reliable and durable operation.
2. Gear Ratio: Determine the required gear ratio to achieve the desired output speed and torque. Different gear ratios are achieved by varying the number of teeth on the gears. Select a gearbox with a suitable gear ratio for your application’s requirements.
3. Efficiency: Consider the efficiency of the gearbox, which is influenced by factors such as gear meshing, bearing losses, and lubrication. A higher efficiency gearbox minimizes energy losses and improves overall system performance.
4. Space Constraints: Evaluate the available space for installing the gearbox. Planetary gearboxes offer compact designs, but it’s essential to ensure that the selected size fits within the available area, especially in applications with limited space.
5. Material Selection: Choose suitable gear materials based on factors like load, speed, and operating conditions. High-quality materials, such as hardened steel or specialized alloys, enhance gear strength, durability, and resistance to wear and fatigue.
6. Lubrication: Proper lubrication is critical for reducing friction and wear in the gearbox. Consider the lubrication requirements of the selected gear materials and ensure the gearbox is designed for efficient lubricant distribution and maintenance.
7. Environmental Conditions: Assess the environmental conditions in which the gearbox will operate. Factors such as temperature, humidity, and exposure to contaminants can impact gear material performance. Choose materials that can withstand the operating environment.
8. Noise and Vibration: Gear material selection can influence noise and vibration levels. Some materials are more adept at dampening vibrations and reducing noise, which is essential for applications where quiet operation is crucial.
9. Cost: Consider the budget for the gearbox and balance the cost of materials, manufacturing, and performance requirements. While high-quality materials may increase initial costs, they can lead to longer gearbox lifespan and reduced maintenance expenses.
10. Manufacturer’s Recommendations: Consult with gearbox manufacturers or experts for guidance on selecting the appropriate size and gear materials. They can provide insights based on their experience and knowledge of various applications.
Ultimately, the proper selection of size and gear materials is vital for achieving reliable, efficient, and long-lasting performance in planetary gearboxes. Taking into account load, gear ratio, materials, lubrication, and other factors ensures the gearbox meets the specific needs of the application.
Challenges and Solutions for Managing Power Transmission Efficiency in Planetary Gearboxes
Managing power transmission efficiency in planetary gearboxes is crucial to ensure optimal performance and minimize energy losses. Several challenges and solutions are involved in maintaining high efficiency:
1. Gear Meshing Efficiency: The interaction between gears can lead to energy losses due to friction and meshing misalignment. To address this, manufacturers use precision manufacturing techniques to ensure accurate gear meshing and reduce friction. High-quality materials and surface treatments are also employed to minimize wear and friction.
2. Lubrication: Proper lubrication is essential to reduce friction and wear between gear surfaces. Using high-quality lubricants with the appropriate viscosity and additives can enhance power transmission efficiency. Regular maintenance and monitoring of lubrication levels are vital to prevent efficiency losses.
3. Bearing Efficiency: Bearings support the rotating elements of the gearbox and can contribute to energy losses if not properly designed or maintained. Choosing high-quality bearings and ensuring proper alignment and lubrication can mitigate efficiency losses in this area.
4. Bearing Preload: Incorrect bearing preload can lead to increased friction and efficiency losses. Precision assembly and proper adjustment of bearing preload are necessary to optimize power transmission efficiency.
5. Mechanical Losses: Various mechanical losses, such as windage and churning losses, can occur in planetary gearboxes. Designing gearboxes with streamlined shapes and efficient ventilation systems can reduce these losses and enhance overall efficiency.
6. Material Selection: Choosing appropriate materials with high strength and minimal wear characteristics is essential for reducing power losses due to material deformation and wear. Advanced materials and surface coatings can be employed to enhance efficiency.
7. Noise and Vibration: Excessive noise and vibration can indicate energy losses in the form of mechanical inefficiencies. Proper design and precise manufacturing techniques can help minimize noise and vibration, indicating better power transmission efficiency.
8. Efficiency Monitoring: Regular efficiency monitoring through testing and analysis allows engineers to identify potential issues and optimize gearbox performance. This proactive approach ensures that any efficiency losses are promptly addressed.
By addressing these challenges through careful design, material selection, manufacturing techniques, lubrication, and maintenance, engineers can manage power transmission efficiency in planetary gearboxes and achieve high-performance power transmission systems.
editor by CX 2024-05-06
China Professional Close Loop Stepper Series Servo Motor Speed Reducer NEMA23 NEMA34 NEMA42 Planetary Gearbox Ab Series planetary gearbox backlash
Product Description
Product name | Precision Planetary Reducer |
Model No. | AB42-AB220 |
Layout form | Planetary structure |
Speed ratio | 3-512 |
Output torque | 20-1500N.M |
Power | 50W~30KW |
Input speed | 0~4000RPM |
Output speed | 0~1300RPM |
Output type | Shaft type |
Installation | Flange mounting |
Product Description
Precision planetary gear reducer is another name for planetary gear reducer in the industry. Its main transmission structure is planetary gear, sun gear and inner gear ring.
Compared with other gear reducers, precision planetary gear reducers have the characteristics of high rigidity, high precision (single stage can achieve less than 1 point), high transmission efficiency (single stage can achieve 97% – 98%), high torque/volume ratio, lifelong maintenance-free, etc. Most of them are installed on stepper motor and servo motor to reduce speed, improve torque and match inertia.
Company Profile
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Hardness: | Hardened Tooth Surface |
---|---|
Installation: | Vertical Type |
Layout: | Coaxial |
Gear Shape: | Planetary |
Step: | Single-Step |
Type: | Gear Reducer |
Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
---|
Planetary Gearbox
This article will explore the design and applications of a planetary gearbox. The reduction ratio of a planetary gearbox is dependent on the number of teeth in the gears. The ratios of planetary gearboxes are usually lower than those of conventional mechanical transmissions, which are mainly used to drive engines and generators. They are often the best choice for heavy-duty applications. The following are some of the advantages of planetary gearboxes.
planetary gearboxes
Planetary gearboxes work on a similar principle to solar systems. They rotate around a center gear called the sun gear, and two or more outer gears, called planet gears, are connected by a carrier. These gears then drive an output shaft. The arrangement of planet gears is similar to that of the Milky Way’s ring of planets. This arrangement produces the best torque density and stiffness for a gearbox.
As a compact alternative to normal pinion-and-gear reducers, planetary gearing offers many advantages. These characteristics make planetary gearing ideal for a variety of applications, including compactness and low weight. The efficiency of planetary gearing is enhanced by the fact that ninety percent of the input energy is transferred to the output. The gearboxes also have low noise and high torque density. Additionally, their design offers better load distribution, which contributes to a longer service life.
Planetary gears require lubrication. Because they have a smaller footprint than conventional gears, they dissipate heat well. In fact, lubrication can even lower vibration and noise. It’s also important to keep the gears properly lubricated to prevent the wear and tear that comes with use. The lubrication in planetary gears also helps keep them operating properly and reduces wear and tear on the gears.
A planetary gearbox uses multiple planetary parts to achieve the reduction goal. Each gear has an output shaft and a sun gear located in the center. The ring gear is fixed to the machine, while the sun gear is attached to a clamping system. The outer gears are connected to the carrier, and each planetary gear is held together by rings. This arrangement allows the planetary gear to be symmetrical with respect to the input shaft.
The gear ratio of a planetary gearbox is defined by the sun gear’s number of teeth. As the sun gear gets smaller, the ratio of the gear will increase. The ratio range of planetary gears ranges from 3:1 to ten to one. Eventually, however, the sun gear becomes too small, and the torque will fall significantly. The higher the ratio, the less torque the gears can transmit. So, planetary gears are often referred to as “planetary” gears.
Their design
The basic design of a Planetary Gearbox is quite simple. It consists of three interconnecting links, each of which has its own torque. The ring gear is fixed to the frame 0 at O, and the other two are fixed to each other at A and B. The ring gear, meanwhile, is attached to the planet arm 3 at O. All three parts are connected by joints. A free-body diagram is shown in Figure 9.
During the development process, the design team will divide the power to each individual planet into its respective power paths. This distribution will be based on the meshing condition of all gears in the system. Then, the design team will proceed to determine the loads on individual gear meshes. Using this method, it is possible to determine the loads on individual gear meshes and the shape of ring gear housing.
Planetary Gearboxes are made of three gear types. The sun gear is the center, which is connected to the other two gears by an internal tooth ring gear. The planet pinions are arranged in a carrier assembly that sets their spacing. The carrier also incorporates an output shaft. The three components in a Planetary Gearbox mesh with each other, and they rotate together as one. Depending on the application, they may rotate at different speeds or at different times.
The planetary gearbox’s design is unique. In a planetary gearbox, the input gear rotates around the central gear, while the outer gears are arranged around the sun gear. In addition, the ring gear holds the structure together. A carrier connects the outer gears to the output shaft. Ultimately, this gear system transmits high torque. This type of gearbox is ideal for high-speed operations.
The basic design of a Planetary Gearbox consists of multiple contacts that must mesh with each other. A single planet has an integer number of teeth, while the ring has a non-integer number. The teeth of the planets must mesh with each other, as well as the sun. The tooth counts, as well as the planet spacing, play a role in the design. A planetary gearbox must have an integer number of teeth to function properly.
Applications
In addition to the above-mentioned applications, planetary gearing is also used in machine tools, plastic machinery, derrick and dock cranes, and material handling equipments. Further, its application is found in dredging equipment, road-making machinery, sugar crystallizers, and mill drives. While its versatility and efficiency makes it a desirable choice for many industries, its complicated structure and construction make it a complex component.
Among the many benefits of using a planetary gearbox, the ability to transmit greater torque into a controlled space makes it a popular choice for many industries. Moreover, adding additional planet gears increases the torque density. This makes planetary gears suitable for applications requiring high torque. They are also used in electric screwdrivers and turbine engines. However, they are not used in everything. Some of the more common applications are discussed below:
One of the most important features of planetary gearboxes is their compact footprint. They are able to transmit torque while at the same time reducing noise and vibration. In addition to this, they are able to achieve a high speed without sacrificing high-quality performance. The compact footprint of these gears also allows them to be used in high-speed applications. In some cases, a planetary gearbox has sliding sections. Some of these sections are lubricated with oil, while others may require a synthetic gel. Despite these unique features, planetary gears have become common in many industries.
Planetary gears are composed of three components. The sun gear is the input gear, whereas the planet gears are the output gears. They are connected by a carrier. The carrier connects the input shaft with the output shaft. A planetary gearbox can be designed for various requirements, and the type you use will depend on the needs of your application. Its design and performance must meet your application’s needs.
The ratios of planetary gears vary depending on the number of planets. The smaller the sun gear, the greater the ratio. When planetary stages are used alone, the ratio range is 3:1 to 10:1. Higher ratios can be obtained by connecting several planetary stages together in the same ring gear. This method is known as a multi-stage gearbox. However, it can only be used in large gearboxes.
Maintenance
The main component of a planetary gearbox is the planetary gear. It requires regular maintenance and cleaning to remain in top shape. Demand for a longer life span protects all other components of the gearbox. This article will discuss the maintenance and cleaning procedures for planetary gears. After reading this article, you should know how to maintain your planetary gearbox properly. Hopefully, you can enjoy a longer life with your gearbox.
Firstly, it is important to know how to properly lubricate a planetary gearbox. The lubricant is essential as gears that operate at high speeds are subject to high levels of heat and friction. The housing of the planetary gearbox should be constructed to allow the heat to dissipate. The recommended oil is synthetic, and it should be filled between 30 and 50 percent. The lubricant should be changed at least every six months or as needed.
While it may seem unnecessary to replace a planetary gearbox, regular servicing will help it last a long time. A regular inspection will identify a problem and the appropriate repairs are needed. Once the planetary gearbox is full, it will plug with gear oil. To avoid this problem, consider getting the unit repaired instead of replacing the gearbox. This can save you a lot of money over a new planetary gearbox.
Proper lubrication is essential for a long life of your planetary gearbox. Oil change frequency should be based on oil temperature and operating speed. Oil at higher temperatures should be changed more frequently because it loses its molecular structure and cannot form a protective film. After this, oil filter maintenance should be performed every few months. Lastly, the gearbox oil needs to be checked regularly and replaced when necessary.
editor by Dream 2024-05-03
China best High Torque Ab Series Planetary Gearbox Helical Bevel Planetary Speed Reducer Gearboxes with Best Sales
Product Description
Planetary Gearbox AB Series Square Flange Helical Bevel Planetary Transmission Gearboxes Servo Motor
Product Overview:
Precision planetary gear reducer is another name for planetary gear reducer in the industry. Its main transmission structure is planetary gear, sun gear and inner gear ring.
Compared with other gear reducers, precision planetary gear reducers have the characteristics of high rigidity, high precision (single stage can achieve less than 1 point), high transmission efficiency (single stage can achieve 97% – 98%), high torque/volume ratio, lifelong maintenance-free, etc. Most of them are installed on stepper motor and servo motor to reduce speed, improve torque and match inertia.
AB series precision planetary gear box reducer AB60/90/115/142/180/220
features:
AB-series reducer features:
1. Helical gear design The reduction mechanism adopts the helical gear design, and its tooth shape meshing rate is more than twice that of the general spur gear, and has the characteristics of smooth operation, low noise, high output torque and low backlash
2. Collet type locking mechanism The connection between the input end and the motor adopts a collet-type locking mechanism and undergoes dynamic balance analysis to ensure the concentricity of the joint interface and zero-backlash power transmission at high input speeds
3. Modular design of motor connection board The unique modular design of the motor connecting plate and shaft is suitable for any brand and type of servo motor;
4. Efficient surface treatment technology The surface of the gearbox is treated with electroless nickel, and the connecting plate of the motor is treated with black anodic treatment to improve the environmental tolerance and corrosion resistance
5. One-piece gearbox body The gearbox and the inner ring gear adopt an integrated design, with compact structure, high precision and large output torque
6. Accurate concentricity of gear bar The sun gear made of the whole gear bar has strong rigidity and accurate concentricity
7. Solid, Single piece sun gear construction obtains precise concentricity with increased strength and rigidity. 8.Precision taper roller bearing support to increases radial and axial loading capacity.
Our Advantages
SERIES: AB/ ABR/ AD/ADS/ ADR/ AF/ AFR/ AFX/ AFXR/ AE/ AER/ AE/ AERS
PLF series, PLE series, ZPLF series, ZPLE series, AB series, ABR series and many other models are available.
Product Description
Planetary Gearbox AB Series Square Flange Helical Bevel Planetary Transmission Gearboxes Servo Motor
Advantages of the planetary gearbox:
Low backlash
High Efficiency
High Torque
High Input Speed
High Stability
High Reduction Ratio
Product Parameters
Name |
High Precision Planetary Gearbox |
Model |
AB042, AB060, AB060A, AB090A, AB115, AB142, AB180, AB220 |
Gearing Arrangement |
Planetary |
Effeiency withfull load |
≥97 |
Backlash |
≤5 |
Weight |
0.5~48kg |
Gear Type |
Helical Gear |
Gear stages |
1 stage, 2 stage |
Rated Torque |
14N.m-2000N.m |
Gear Ratio One-stage |
3, 4, 5, 6, 7, 8, 9, 10 |
Gear Ratio Two-stage |
15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100 |
Mounting Position |
Horizontal (foot mounted) or Vertical (flange mounted) |
Usage |
stepper motor, servo motor, AC motor, DC motor, etc |
Applications
Company Profile
Certifications
Packaging & Shipping
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Hardness: | Hardened Tooth Surface |
---|---|
Installation: | Vertical Type |
Layout: | Coaxial |
Gear Shape: | Planetary |
Step: | Single-Step |
Type: | Ab Series Gearbox, Gear Reducer |
Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
---|
Challenges in Achieving High Gear Ratios with Compactness in Planetary Gearboxes
Designing planetary gearboxes with high gear ratios while maintaining compactness presents several challenges:
- Space Constraints: As the gear ratio increases, the number of gear stages required also increases. This can lead to larger gearbox sizes, which may be challenging to accommodate in applications with limited space.
- Bearing Loads: Higher gear ratios often result in increased loads on the bearings and other components due to the redistribution of forces. This can impact the durability and lifespan of the gearbox.
- Efficiency: Each gear stage introduces losses due to friction and other factors. With multiple stages, the overall efficiency of the gearbox can decrease, affecting its energy efficiency.
- Complexity: Achieving high gear ratios can require complex gear arrangements and additional components, which can lead to increased manufacturing complexity and costs.
- Thermal Effects: Higher gear ratios can lead to greater heat generation due to increased friction and loads. Managing thermal effects becomes crucial to prevent overheating and component failure.
To address these challenges, gearbox designers use advanced materials, precise machining techniques, and innovative bearing arrangements to optimize the design for both compactness and performance. Computer simulations and modeling play a critical role in predicting the behavior of the gearbox under different operating conditions, helping to ensure reliability and efficiency.
Contribution of Planetary Gearboxes to Construction Machinery and Heavy Equipment
Planetary gearboxes play a crucial role in enhancing the proper functioning of construction machinery and heavy equipment. Here’s how they contribute:
High Torque Transmission: Construction machinery often requires high torque to handle heavy loads and perform tasks like digging, lifting, and material handling. Planetary gearboxes excel in transmitting high torque efficiently, allowing these machines to operate effectively even under demanding conditions.
Compact Design: Many construction and heavy equipment applications have limited space for gear mechanisms. Planetary gearboxes offer a compact design with a high power-to-weight ratio. This compactness allows manufacturers to integrate gearboxes into tight spaces without compromising performance.
Customizable Ratios: Different construction tasks require varying speeds and torque levels. Planetary gearboxes offer the advantage of customizable gear ratios, allowing equipment designers to tailor the gearbox to the specific needs of the application. This flexibility enhances the versatility of construction machinery.
Durability and Reliability: Construction sites are challenging environments with dust, debris, and extreme weather conditions. Planetary gearboxes are known for their durability and robustness, making them well-suited for heavy-duty applications. Their enclosed design protects internal components from contaminants and ensures reliable operation.
Efficient Power Distribution: Many construction machines are equipped with multiple functions that require power distribution among different components. Planetary gearboxes can be designed with multiple output shafts, enabling efficient distribution of power to various tasks while maintaining precise control.
Reduced Maintenance: The rugged construction and efficient power transmission of planetary gearboxes result in reduced wear and lower maintenance requirements. This is particularly beneficial in construction settings where downtime for maintenance can be costly.
Overall, planetary gearboxes contribute significantly to the proper functioning of construction machinery and heavy equipment by providing high torque, compactness, customization, durability, efficient power distribution, and reduced maintenance needs. Their capabilities enhance the performance and reliability of these machines in the demanding construction industry.
Common Applications and Industries of Planetary Gearboxes
Planetary gearboxes are widely utilized across various industries and applications due to their unique design and performance characteristics. Some common applications and industries where planetary gearboxes are commonly used include:
- Automotive Industry: Planetary gearboxes are found in automatic transmissions, hybrid vehicle systems, and powertrains. They provide efficient torque conversion and variable gear ratios.
- Robotics: Planetary gearboxes are used in robotic joints and manipulators, providing compact and high-torque solutions for precise movement.
- Industrial Machinery: They are employed in conveyors, cranes, pumps, mixers, and various heavy-duty machinery where high torque and compact design are essential.
- Aerospace: Aerospace applications include aircraft actuation systems, landing gear mechanisms, and satellite deployment mechanisms.
- Material Handling: Planetary gearboxes are used in equipment like forklifts and pallet jacks to provide controlled movement and high lifting capabilities.
- Renewable Energy: Wind turbines use planetary gearboxes to convert low-speed, high-torque rotational motion of the blades into higher-speed rotational motion for power generation.
- Medical Devices: Planetary gearboxes find applications in medical imaging equipment, prosthetics, and surgical robots for precise and controlled motion.
- Mining and Construction: Planetary gearboxes are used in heavy equipment like excavators, loaders, and bulldozers to handle heavy loads and provide controlled movement.
- Marine Industry: They are employed in marine propulsion systems, winches, and steering mechanisms, benefiting from their compact design and high torque capabilities.
The versatility of planetary gearboxes makes them suitable for applications that require compact size, high torque density, and efficient power transmission. Their ability to handle varying torque loads, offer high gear ratios, and maintain consistent performance has led to their widespread adoption across numerous industries.
editor by CX 2024-04-30
China Standard Pls/Ab/Nb Close Loop Stepper Series Servo Motor Speed Reducer NEMA23 NEMA34 NEMA 42 Planetary Gearbox bevel gearbox
Product Description
Product Description
Helical Gear Motor Box PAB 42mm Speed Reducer High Speed Small Planetary Gearbox
3F PAB series high precision planetary gearbox adopts the integrated design of planet carrier and output shaft to ensure the maximum torque stiffness and stability. Several backlash types can be chosen depends on customers’ needs: Micro precision backlash (P0), precision backlash (P1) and standard backlash (P2) are available. Thanks to the high cost performance of 3F PAB series planetary gearbox, it is widely used in motion control industries for servo application. 3F PAB precision gearboxes are featured with high torque and the input diameter D4 can be up to φ255mm, which can greatly meet the customer needs. Single-stage planetary gearboxes and two-stage gearboxes are available:
.One-stage ratio : 3, 4, 5, 6, 7, 8, 9, 10
.Two-stage ratio: 12, 15, 20, 25, 30, 35, 40, 50, 60, 70, 80, 90, 100
.Note: Three-stage technical data are not available in 3F catalogue. If needed, please contact our salesmen.
Overview of PAB Planetary Reducer
* The minimum backlash can reach to 0-3 arcmin.
* With the advantages of high High torque and high strength.
* It can be applied for any servo motors and stepper motor.
* The positioning time of starting and stoppingis shorter.
* High rigidity and high motor rotor inertia.
* Due to the miniaturization of motor power, it can achieve the stability of inertia load and small vibration.
Product Parameters
Product type | PLS60 | PLS90 | PLS115 | PLS142 | Reduction rqatio | Number of stage | |
Rated output torque |
N.M | 30 | 75 | 150 | 400 | 3 | 1 |
40 | 100 | 200 | 560 | 4 | |||
50 | 110 | 210 | 700 | 5 | |||
37 | 62 | 148 | 450 | 8 | |||
27 | 45 | 125 | 305 | 10 | |||
77 | 120 | 260 | 910 | 12 | 2 | ||
68 | 110 | 210 | 780 | 15 | |||
77 | 120 | 260 | 910 | 16 | |||
77 | 110 | 260 | 910 | 20 | |||
68 | 110 | 210 | 780 | 25 | |||
77 | 120 | 260 | 910 | 32 | |||
68 | 110 | 210 | 780 | 40 | |||
37 | 62 | 148 | 450 | 64 | |||
27 | 45 | 125 | 305 | 100 | |||
Life | Hour | 30,000 | |||||
Instant stop torque | N.M | Two times of rated output torque | |||||
Product type | PLS60 | PLS90 | PLS115 | PLS142 | Number of stage | ||
max radial torque | 3000 | 3900 | 4300 | 8200 | N | ||
max axial torque | 6000 | 9000 | 12000 | 19000 | N | ||
Fullload efficiency | 98 | % | 1 | ||||
95 | 2 | ||||||
weight | 3.0 | 4.3 | 9.0 | 15.4 | kg | 1 | |
3.8 | 5.7 | 11.6 | 18.5 | 2 | |||
operating temperature | -25ºC~+90ºC | ºC | |||||
IP | lp65 | ||||||
Lubirication type | Lifetime lubrication | ||||||
Mounting type | Any | ||||||
The max radial and axial torque work in the location of the center of output shaft when the out speed is 100RPM. |
Detailed Photos
Application
Company Profile
Certifications
Packaging & Shipping
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Hardness: | Hardened Tooth Surface |
---|---|
Installation: | Vertical Type |
Layout: | Coaxial |
Gear Shape: | Planetary |
Step: | Single-Step |
Type: | Gear Reducer |
Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
---|
Impact of Gear Tooth Design and Profile on the Efficiency of Planetary Gearboxes
The design and profile of gear teeth have a significant impact on the efficiency of planetary gearboxes:
- Tooth Profile: The tooth profile, such as involute, cycloid, or modified profiles, affects the contact pattern and load distribution between gear teeth. An optimized profile minimizes stress concentration and ensures smooth meshing, contributing to higher efficiency.
- Tooth Shape: The shape of gear teeth influences the amount of sliding and rolling motion during meshing. Gear teeth designed for more rolling and less sliding motion reduce friction and wear, enhancing overall efficiency.
- Pressure Angle: The pressure angle at which gear teeth engage affects the force distribution and efficiency. Larger pressure angles can lead to higher efficiency due to improved load sharing, but they may require more space.
- Tooth Thickness and Width: Optimized tooth thickness and width contribute to distributing the load more evenly across the gear face. Proper sizing reduces stress and increases efficiency.
- Backlash: Backlash, the gap between meshing gear teeth, impacts efficiency by causing vibrations and energy losses. Properly controlled backlash minimizes these effects and improves efficiency.
- Tooth Surface Finish: Smoother tooth surfaces reduce friction and wear. Proper surface finish, achieved through grinding or honing, enhances efficiency by reducing energy losses due to friction.
- Material Selection: The choice of gear material influences wear, heat generation, and overall efficiency. Materials with good wear resistance and low friction coefficients contribute to higher efficiency.
- Profile Modification: Profile modifications, such as tip and root relief, optimize tooth contact and reduce interference. These modifications minimize friction and increase efficiency.
In summary, the design and profile of gear teeth play a crucial role in determining the efficiency of planetary gearboxes. Optimal tooth profiles, shapes, pressure angles, thicknesses, widths, surface finishes, and material selections all contribute to reducing friction, wear, and energy losses, resulting in improved overall efficiency.
Contribution of Planetary Gearboxes to Construction Machinery and Heavy Equipment
Planetary gearboxes play a crucial role in enhancing the proper functioning of construction machinery and heavy equipment. Here’s how they contribute:
High Torque Transmission: Construction machinery often requires high torque to handle heavy loads and perform tasks like digging, lifting, and material handling. Planetary gearboxes excel in transmitting high torque efficiently, allowing these machines to operate effectively even under demanding conditions.
Compact Design: Many construction and heavy equipment applications have limited space for gear mechanisms. Planetary gearboxes offer a compact design with a high power-to-weight ratio. This compactness allows manufacturers to integrate gearboxes into tight spaces without compromising performance.
Customizable Ratios: Different construction tasks require varying speeds and torque levels. Planetary gearboxes offer the advantage of customizable gear ratios, allowing equipment designers to tailor the gearbox to the specific needs of the application. This flexibility enhances the versatility of construction machinery.
Durability and Reliability: Construction sites are challenging environments with dust, debris, and extreme weather conditions. Planetary gearboxes are known for their durability and robustness, making them well-suited for heavy-duty applications. Their enclosed design protects internal components from contaminants and ensures reliable operation.
Efficient Power Distribution: Many construction machines are equipped with multiple functions that require power distribution among different components. Planetary gearboxes can be designed with multiple output shafts, enabling efficient distribution of power to various tasks while maintaining precise control.
Reduced Maintenance: The rugged construction and efficient power transmission of planetary gearboxes result in reduced wear and lower maintenance requirements. This is particularly beneficial in construction settings where downtime for maintenance can be costly.
Overall, planetary gearboxes contribute significantly to the proper functioning of construction machinery and heavy equipment by providing high torque, compactness, customization, durability, efficient power distribution, and reduced maintenance needs. Their capabilities enhance the performance and reliability of these machines in the demanding construction industry.
Advantages of Planetary Gearboxes Compared to Other Gearbox Configurations
Planetary gearboxes, also known as epicyclic gearboxes, offer several advantages compared to other gearbox configurations. These advantages make them well-suited for a wide range of applications. Here’s a closer look at why planetary gearboxes are favored:
- Compact Size: Planetary gearboxes are known for their compact and space-efficient design. The arrangement of multiple gears within a single housing allows for high gear reduction ratios without significantly increasing the size of the gearbox.
- High Torque Density: Due to their compact design, planetary gearboxes offer high torque density, meaning they can transmit a significant amount of torque relative to their size. This makes them ideal for applications where space is limited, but high torque is required.
- Efficiency: Planetary gearboxes can achieve high efficiency levels, especially when properly lubricated and well-designed. The arrangement of multiple meshing gears allows for load distribution, reducing individual gear tooth stresses and minimizing losses due to friction.
- Multiple Gear Stages: Planetary gearboxes can be designed with multiple stages, allowing for higher gear reduction ratios. This is particularly advantageous when precise control of output speed and torque is required.
- High Gear Ratios: Planetary gearboxes can achieve high gear reduction ratios in a single stage, eliminating the need for multiple external gears. This simplifies the overall design and reduces the number of components.
- Load Sharing: The multiple gear meshing arrangements in planetary gearboxes distribute loads evenly across multiple gears, reducing the stress on individual components and enhancing overall durability.
- High Precision: Planetary gearboxes offer high precision and accuracy in gear meshing, making them suitable for applications that demand precise motion control.
- Quiet Operation: The design of planetary gearboxes often leads to smoother and quieter operation compared to some other gearbox configurations, contributing to improved user experience.
Overall, the advantages of planetary gearboxes in terms of size, torque density, efficiency, versatility, and precision make them an attractive choice for a wide range of applications across industries, including robotics, automotive, aerospace, and industrial machinery.
editor by CX 2024-04-22
China manufacturer Pab Series Helical Gear Speed Reducer NEMA 24 Planetary Gearbox Gear Box cycloidal gearbox
Product Description
Product Description
Helical Gear Motor Box PAB 42mm Speed Reducer High Speed Small Planetary Gearbox
3F PAB series high precision planetary gearbox adopts the integrated design of planet carrier and output shaft to ensure the maximum torque stiffness and stability. Several backlash types can be chosen depends on customers’ needs: Micro precision backlash (P0), precision backlash (P1) and standard backlash (P2) are available. Thanks to the high cost performance of 3F PAB series planetary gearbox, it is widely used in motion control industries for servo application. 3F PAB precision gearboxes are featured with high torque and the input diameter D4 can be up to φ255mm, which can greatly meet the customer needs. Single-stage planetary gearboxes and two-stage gearboxes are available:
.One-stage ratio : 3, 4, 5, 6, 7, 8, 9, 10
.Two-stage ratio: 12, 15, 20, 25, 30, 35, 40, 50, 60, 70, 80, 90, 100
.Note: Three-stage technical data are not available in 3F catalogue. If needed, please contact our salesmen.
Overview of PAB Planetary Reducer
* The minimum backlash can reach to 0-3 arcmin.
* With the advantages of high High torque and high strength.
* It can be applied for any servo motors and stepper motor.
* The positioning time of starting and stoppingis shorter.
* High rigidity and high motor rotor inertia.
* Due to the miniaturization of motor power, it can achieve the stability of inertia load and small vibration.
Product Parameters
Product type | PLS60 | PLS90 | PLS115 | PLS142 | Reduction rqatio | Number of stage | |
Rated output torque |
N.M | 30 | 75 | 150 | 400 | 3 | 1 |
40 | 100 | 200 | 560 | 4 | |||
50 | 110 | 210 | 700 | 5 | |||
37 | 62 | 148 | 450 | 8 | |||
27 | 45 | 125 | 305 | 10 | |||
77 | 120 | 260 | 910 | 12 | 2 | ||
68 | 110 | 210 | 780 | 15 | |||
77 | 120 | 260 | 910 | 16 | |||
77 | 110 | 260 | 910 | 20 | |||
68 | 110 | 210 | 780 | 25 | |||
77 | 120 | 260 | 910 | 32 | |||
68 | 110 | 210 | 780 | 40 | |||
37 | 62 | 148 | 450 | 64 | |||
27 | 45 | 125 | 305 | 100 | |||
Life | Hour | 30,000 | |||||
Instant stop torque | N.M | Two times of rated output torque | |||||
Product type | PLS60 | PLS90 | PLS115 | PLS142 | Number of stage | ||
max radial torque | 3000 | 3900 | 4300 | 8200 | N | ||
max axial torque | 6000 | 9000 | 12000 | 19000 | N | ||
Fullload efficiency | 98 | % | 1 | ||||
95 | 2 | ||||||
weight | 3.0 | 4.3 | 9.0 | 15.4 | kg | 1 | |
3.8 | 5.7 | 11.6 | 18.5 | 2 | |||
operating temperature | -25ºC~+90ºC | ºC | |||||
IP | lp65 | ||||||
Lubirication type | Lifetime lubrication | ||||||
Mounting type | Any | ||||||
The max radial and axial torque work in the location of the center of output shaft when the out speed is 100RPM. |
Detailed Photos
Application
Company Profile
Certifications
Packaging & Shipping
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Hardness: | Hardened Tooth Surface |
---|---|
Installation: | Vertical Type |
Layout: | Coaxial |
Gear Shape: | Planetary |
Step: | Single-Step |
Type: | Gear Reducer |
Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
---|
Challenges in Achieving High Gear Ratios with Compactness in Planetary Gearboxes
Designing planetary gearboxes with high gear ratios while maintaining a compact form factor poses several challenges due to the intricate arrangement of gears and the need to balance various factors:
Space Constraints: Increasing the gear ratio typically requires adding more planetary stages, resulting in additional gears and components. However, limited available space can make it challenging to fit these additional components without compromising the compactness of the gearbox.
Efficiency: As the number of planetary stages increases to achieve higher gear ratios, there can be a trade-off in terms of efficiency. Additional gear meshings and friction losses can lead to decreased overall efficiency, impacting the gearbox’s performance.
Load Distribution: The distribution of loads across multiple stages becomes critical when designing high gear ratio planetary gearboxes. Proper load distribution ensures that each stage shares the load proportionally, preventing premature wear and ensuring reliable operation.
Bearing Arrangement: Accommodating multiple stages of planetary gears requires an effective bearing arrangement to support the rotating components. Improper bearing selection or arrangement can lead to increased friction, reduced efficiency, and potential failures.
Manufacturing Tolerances: Achieving high gear ratios demands tight manufacturing tolerances to ensure accurate gear tooth profiles and precise gear meshing. Any deviations can result in noise, vibration, and reduced performance.
Lubrication: Adequate lubrication becomes crucial in maintaining smooth operation and reducing friction as gear ratios increase. However, proper lubrication distribution across multiple stages can be challenging, impacting efficiency and longevity.
Noise and Vibration: The complexity of high gear ratio planetary gearboxes can lead to increased noise and vibration levels due to the higher number of gear meshing interactions. Managing noise and vibration becomes essential for ensuring acceptable performance and user comfort.
To address these challenges, engineers employ advanced design techniques, high-precision manufacturing processes, specialized materials, innovative bearing arrangements, and optimized lubrication strategies. Achieving the right balance between high gear ratios and compactness involves careful consideration of these factors to ensure the gearbox’s reliability, efficiency, and performance.
Signs of Wear or Damage in Planetary Gearboxes and Recommended Service
Planetary gearboxes, like any mechanical component, can exhibit signs of wear or damage over time. Recognizing these signs is crucial for timely maintenance to prevent further issues. Here are some common signs of wear or damage in planetary gearboxes:
1. Unusual Noise: Excessive noise, grinding, or whining sounds during operation can indicate worn or misaligned gear teeth. Unusual noise is often a clear indicator that something is wrong within the gearbox.
2. Increased Vibration: Excessive vibration or shaking during operation can result from misalignment, damaged bearings, or worn gears. Vibration can lead to further damage if not addressed promptly.
3. Gear Tooth Wear: Inspect gear teeth for signs of wear, pitting, or chipping. These issues can result from improper lubrication, overload, or other operational factors. Damaged gear teeth can affect the gearbox’s efficiency and performance.
4. Oil Leakage: Leakage of gearbox oil or lubricant can indicate a faulty seal or gasket. Oil leakage not only leads to reduced lubrication but can also cause environmental contamination and further damage to the gearbox components.
5. Temperature Increase: A significant rise in operating temperature can suggest increased friction due to wear or inadequate lubrication. Monitoring temperature changes can help identify potential issues early.
6. Reduced Efficiency: If you notice a decrease in performance, such as decreased torque output or inconsistent speed, it could indicate internal damage to the gearbox components.
7. Abnormal Gear Ratios: If the output speed or torque does not match the expected gear ratio, it could be due to gear wear, misalignment, or other issues affecting the gear engagement.
8. Frequent Maintenance Intervals: If you find that you need to service the gearbox more frequently than usual, it could be a sign that the gearbox is experiencing excessive wear or damage.
When to Service: If any of the above signs are observed, it’s important to address them promptly. Regular maintenance checks are also recommended to detect potential issues early and prevent more significant problems. Scheduled maintenance should include inspections, lubrication checks, and replacement of worn or damaged components.
It’s advisable to consult the gearbox manufacturer’s guidelines for recommended service intervals and practices. Regular maintenance can extend the lifespan of the planetary gearbox and ensure it continues to operate efficiently and reliably.
Impact of Gear Ratio on Output Speed and Torque in Planetary Gearboxes
The gear ratio of a planetary gearbox has a significant effect on both the output speed and torque of the system. The gear ratio is defined as the ratio of the number of teeth on the driven gear (output) to the number of teeth on the driving gear (input).
1. Output Speed: The gear ratio determines the relationship between the input and output speeds of the gearbox. A higher gear ratio (more teeth on the output gear) results in a lower output speed compared to the input speed. Conversely, a lower gear ratio (fewer teeth on the output gear) leads to a higher output speed relative to the input speed.
2. Output Torque: The gear ratio also affects the output torque of the gearbox. An increase in gear ratio amplifies the torque delivered at the output, making it higher than the input torque. Conversely, a decrease in gear ratio reduces the output torque relative to the input torque.
The relationship between gear ratio, output speed, and output torque is inversely proportional. This means that as the gear ratio increases and output speed decreases, the output torque proportionally increases. Conversely, as the gear ratio decreases and output speed increases, the output torque proportionally decreases.
It’s important to note that the gear ratio selection in a planetary gearbox involves trade-offs between output speed and torque. Engineers choose a gear ratio that aligns with the specific application’s requirements, considering factors such as desired speed, torque, and efficiency.
editor by CX 2024-04-12