China Wpl Series Servo Planetary Gearbox Reducer First to Three Stage

Product Description

1. WPL series precision planetary gear speed reducer Model: WPL40, WPL60, WPL90, WPL120, WPL160, WPL200
2. The speed ratio: 3, 4, 5, 7, 9, 10, 15, 20, 25, 30, 35, 40, 50, 64, 70, 80, 100, 150, 200, 250, 350, 400, 500, 700, 1000
3. Stages: Three
Performance and features:
1. Planetary gear transmission interface using doesn’t contain full needle needle bearing, and increase the contact area to improve structural rigidity and output torque;
2. WPL series precision planetary gear reducer, with high precision, high rigidity, high load, high efficiency, high speed ratio, high life, low inertia, low vibration, low noise, low temperature rising, beautiful appearance, structure, light weight, easy installation, accurate positioning, etc, and is suitable for AC servo motor, DC servo motor, stepper motor, hydraulic motor of growth and slow down transmission
 

Type WPL-40 WPL-60 WPL-90 WPL-120 WPL-160 WPL-200 Ratio Stages
T2N
Rated output torque
(Nm)
10 28 120 220 480 1230 3 1
15 48 150 270 590 1780 4
15 48 150 270 590 1345 5
9 39 110 215 470 745 7
7 19 58 98 260 720 10
10 28 120 220 480 1230 9 2
15 48 150 270 590 1485 15
15 48 150 270 590 2035 20
15 48 150 270 590 1485 25
15 48 150 270 590 2035 30
15 48 150 270 590 1450 35
15 48 150 270 590 1485 40
15 48 150 270 590 1450 50
9 39 110 215 470 840 70
7 19 58 98 260 720 100
15 48 150 270 590 2590 64 3
15 48 150 270 590 2590 80
15 48 150 270 590 2590 100
15 48 150 270 590 2590 150
15 48 150 270 590 1855 200
15 48 150 270 590 2596 250
15 48 150 270 590 1855 350
15 48 150 270 590 1450 400
15 48 150 270 590 1070 500
9 39 110 215 470 1070 700
7 19 58 98 260 1070 1000
emergency stop torque T2not=2T2N
Rotational inertia
(kgm2)
0.031 0.0135 0.77 2.63 12.14 15.6 3 1
0.571 0.093 0.52 1.79 7.78 16.3 4
0.019 0.078 0.45 1.53 6.07 15.4 5
0.017 0.065 0.39 1.32 4.63 16.1 7
0.016 0.065 0.39 1.32 4.63 15.2 10
0.03 0.131 0.74 2.62 12.14 15.9 9 2
0.571 0.077 0.71 2.53 12.35 15 15
0.019 0.075 0.44 1.5 6.65 15.7 20
0.019 0.075 0.44 1.49 5.81 15.3 25
0.017 0.064 0.39 1.3 6.36 15.2 30
0.016 0.064 0.39 1.3 5.28 16.1 35
0.016 0.064 0.39 1.3 5.28 15.2 40
0.016 0.064 0.39 1.3 4.5 15.2 50
0.016 0.064 0.39 1.3 4.5 15.2 70
0.016 0.058 0.31 1.12 3.53 15.2 100
0.019 0.075 0.5 1.5 7.5 15.4 80 3
0.019 0.075 0.44 1.49 7.4 15.4 100
0.016 0.064 0.39 1.3 6.5 15.2 150
0.016 0.064 0.39 1.3 6.2 15.2 200
0.016 0.064 0.39 1.3 5.7 15.2 250
0.016 0.064 0.39 1.3 5.4 15.2 350
0.016 0.064 0.39 1.3 5.4 15.2 400
0.016 0.064 0.39 1.3 5.2 15.2 500
0.016 0.064 0.39 1.3 5.2 15.2 700
0.016 0.064 0.39 1.3 5.2 15.2 1000
backslash
(arcmin)
reduced <5 <3 <3 <3 <5 <10   1
standard <10 <8 <8 <8 <10 <15  
reduced <8 <5 <5 <5 <8 <15   2
standard <12 <10 <10 <10 <10 <18  
reduced <10 <8 <8 <8 <10 <18   3
standard <15 <12 <12 <12 <15 <22  
torsional rigidity
(Nm/arcmin)
0.7 1.8 4.4 9.2 26.7 66.7  
noise dB(A) 55 58 60 65 70 75  
Max.input speed 10000 8000 6000 6000 5000 3500 1-min
Rated input speed 4500 4000 4000 3500 2000 1500 1-min
Max.Radialforce(N) 185 265 400 1240 3700 6700 Stages
Max.Axialforce(N) 150 200 420 1000 3500 3800
Full-load efficiency(%) 96 1
94 2
90 3
 service life (H) 20000  
Weight (Kg) 0.55 1.7 4.5 9 24 42 1
0.68 2.1 5 10.5 30 56 2
0.75 2.5 5.5 13.1 36 71 3

 

What is a Planetary Gearbox?

A planetary gearbox is a mechanical device in which the teeth of a planet mesh with the teeth of its sun or ring. The number of teeth and the spacing of planets will determine whether the teeth mesh correctly. In this article, we will learn more about planetary gearboxes. Besides understanding their working, you can also learn how to design your own. Here are some examples:

planetary gearboxes

If your car has an automatic transmission, then a planetary gearbox is the type you have. It is possible to find out if you have this type of gearbox by consulting the owner’s manual, calling the service department of your car’s manufacturer, or conducting a search using your favorite search engine. However, planetary gears are more complex and have many more components than standard gearboxes. The following information will explain more about this type of gearbox.
Planetary gearboxes use 3 different gear types to transmit torque. The sun gear sits in the center of the gear assembly, while the other gears rotate around it. A carrier connects the 2 gears, and is designed to set the spacing between them. When the gears are rotated, the carrier will spin, enabling the entire assembly to work together. The carrier also incorporates the output shaft. For this gearbox to work effectively, it must meet the application’s requirements.
There are 3 main types of planetary gearboxes: the basic model is highly efficient and transmits 97% of the power input. The earliest models are not complex, but they do have some key differences. Some of these differences make them ideal for various applications. For example, a planetary gearbox can operate in alternating and continuous operation, with the output support having internal grooving. Some designs have more than 1 output shaft, allowing the user to choose the configuration and torque that is best for their application.
One of the main differences between a planetary gearbox and a conventional 1 is the way the planetary parts move. A planetary gearbox may have multiple axes for increased torque. A planetary gearbox can provide a torque up to 113,000 N.m. by rotating its maximum teeth simultaneously. They are the ideal choice for space-constrained applications. For instance, a car with small spaces can install 1 with ease.
A planetary gearbox’s gear ratio is determined by the ratio of the sun gear to the ring gear. The number of teeth on the sun gear is a way to adjust the gear ratio. Smaller sun gears result in larger planetary gear ratios, while larger ones cause a decrease in torque. The ratio between planetary gears ranges from 3:1 to 10:1, with the lowest ratio being three. The greatest possible ratio is 10:1.
A planetary gearbox has many benefits. The compact design makes them a more efficient choice for small motors and is advantageous for servo functions. Planetary gearboxes have low inertia, which is an important factor, especially in servo applications, since the inertia of the gearbox adds to the motor’s load inertia. The planetary gearboxes are typically lubricated with grease or oil, so you don’t need to worry about re-lubrication or maintenance.
planetarygearbox

planetary gearboxes with output shaft

The advantages of planetary gearboxes are numerous. They are widely used in many applications, from automobiles to medical equipment, goods & personnel lifts to machine tools. They are also used in derrick & dockyard cranes and slewing drives. These gearboxes are available in various sizes and shapes, ranging from small to extremely large. There are many different types, and each is designed to suit its intended use.
The LP generation 3 gearhead series combines maximum quality with economic precision in a low-backlash planetary gearbox. The output shaft version is especially suited for high-speed, highly dynamic cyclic operation. Another version is the SP+ HIGH SPEED. The SP+ high-speed version is designed to achieve maximum speeds while in continuous operation. If you need a planetary gearbox with an output shaft, look no further. It is the best choice for many applications.
As the name suggests, a planetary gearbox incorporates planetary parts and an output shaft. The outer gears (also called the planetary gears) are connected by a carrier to the output shaft. The carrier is then connected to the output shaft by a ring. There are 2 or more planetary gears inside the planetary gearbox. Each gear is connected to a carrier, which is connected to the output shaft.
An epicyclic planetary gear train can be assembled so that the planet gear rolls around the sun gear. In the wheel drive planetary gearbox, the planetary gears are grouped over the housing to optimize the size and weight of the system. The planetary gear train can handle torques as high as 332,000 N.m., with the ring gear being fixed while the sun gear is movable.
Another advantage of a planetary gearbox is that it uses many teeth at once. This allows for high speed reduction and high torque transmission, and it is extremely compact. Planetary gearboxes with output shaft are ideal for space-constrained applications. Their compact size and minimal weight make them a popular choice in many industries. They are also known as epicyclic gears and are used in many different types of machines.
A planetary gearbox can have 3 components. A central sun gear, an outer ring known as the inner gear, and an output shaft. These 3 components are linked by a carrier. The carrier rotates so that the input and output gears are in sync. They also have a standard gap between the gears. The carrier also acts as the output shaft. They can be used to create small machines, such as a bicycle acceleration hub.
planetarygearbox

planetary gearboxes with integer number of teeth

When designing a planetary gearbox, 1 must determine the amount of tooth count. This figure is known as the mesh load factor Kg, and is based on the normal tooth forces that are generated in each mesh. The number of planets, the error in the gear design, and the rigidity of the housing all affect Kg. Depending on the type of application, Kg can be calculated by using different standards.
In a typical planetary gearbox, the ratio is an integer number, and the lowest is 3:1. At a ratio of 10, the sun gear is too large and the sun wheel is too low to provide a sufficient amount of torque. In most cases, the ratio is an integer value, and the teeth are evenly spaced. The gear mesh is then balanced to grade 2. The carrier is measured three-dimensionally to detect the accuracy of the planet pin hole in the carrier.
In the simplest case, each planetary gear mesh produces a dynamic signal at its mesh frequency. These signals can cancel or reinforce in various ways. A helix angle, however, introduces axial forces into the gear mesh, which can be cancelled or reinforced in the same way as torques. As the helix angle is an integer number, this planetary gear model does not necessarily require infinite precision.
The resulting motion period is measured in rotational angles. This figure can be used to determine fault diagnosis and calculate the minimum data length required. It can also be used to calculate the kinematic motion of a faulty planet gear tooth. It is important to note that fault-mesh motion is not instantaneous, and therefore, it requires a sufficient amount of time to fully mesh a faulty planet gear.
The load-share factor is similar to that of spur and helical gearboxes, and can be used to calculate dynamic load sharing. When the load share factor is low, the individual gear meshes are slightly loaded. Deflections can vary, especially with high-precision gears. Therefore, the design process should incorporate the tolerance chain. This will ensure the correct ratio of gear mesh.
A planetary gearbox is a type of planetary gear system that is used in motors. It has a sun gear at the center and a set of outer gears. Each gear turns according to its axis around the sun. They are interconnected by a ring component and are connected to each other through a carrier. The carrier also includes the output shaft. And since the sun gear is centered, the mesh is standard.
As an added benefit, planetary gearboxes have sliding surfaces, which reduce noise and vibration. Despite the high-quality of planetary gearboxes, it is important to properly lubricate them to avoid wear and tear. CZPT uses CZPT. In order to make the planetary gearboxes last a long time, the lubricant is usually incorporated in the planetary gearbox.

China Wpl Series Servo Planetary Gearbox Reducer First to Three Stage  China Wpl Series Servo Planetary Gearbox Reducer First to Three Stage

Planetary Gearboxes

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