Applicable Industries: Energy & Mining, Food & Beverage Shops
Gearing Arrangement: Planetary
Output Torque: <15000N.M
Input Speed: 2500-3000rpm
Output Speed: 10-500rpm
IP: IP65
gear ratio: 3 to 10000
Backlash: <3 arcmin
Output torque: 16000n.m
Efficiency: >95%
low noixe: <61dB
Application: for servo motor spee reduction
Warranty: 12 Months
Packaging Details: as the standard packing of Tesech
Port: HangZhou

Planetary Gearbox for Servo Motor

Tesech Planetary Gear reducer TPS Serries

1.0Description of Planetary Gearbox
Planetary gearboxes have a high overload capacity, are torsionally stiff and ensure low backlash of up to 1 angular minute. Coupled with our servo motors they form a compact and powerful drive unit. The gearboxes are available as 1 and 2-stage versions with a torque of up to 1000 Nm and a ratio of up to i=35.

2.0Planetary Gearbox glance at:
For match application of Servo Motor to be Speed reduction

3.0Outstanding features
1)Integrated Planetary Arm Bracket
The planetary arm bracket and the output shaft are one-piece constructed to increase tosional rigidity and accuracy. The entire structure is one-timje machined for controlling accuracy in the specified tolerance
2)One-Piece Gearbox body&Advanced Surface Treatment
The gearbox and internal ring are 1 –piece constructed ,and tempered for high torque output .High gear accuracy meets DINS6 Class standard.Gearbox surface is anticorrosive treated for upgrading environmental-resistant and corrosion-resistant capability
3)Complete hard teeth-face gear
The planetary and sun gear are manufactured from high quality 20CrMnTi,precision machined and carbunzed to ardness900Hv; precision teeth grinding assures gear accuracy reaches Din5 class.It provideds better wear resistance impatt resistance and longer service life then gears with only surface nitrided.
4)Complete honed toothings
The planetary and sun gear are manufactured from high quality 20Cr Mn,It provides better wear resistance impatt resistance pwo noise and longer service life than gears with only surface
5)The special modular design of motor connection plate is suitable for any brand and any type of servomotors.Manufactured from aluminum alloy,its surface is anti-oxidant treated for upgrading ecvironmental-resistand and corrosion-resistant capability

Type
WPH-40
WPH-60
WPH-90
WPH-115
WPH-142
WPH-190
Ratio
Stages

T2NRated output torque(Nm)
5
12.5
37
100
310
1485
3
1

10
28
76
200
605
1780
4

9
24
62
140
420
1345
5

5
15
37
90
270
745
7

6
9
20
45
120
905
10

6
15.5
42
112
340
1070
9
2

6
15.5
42
112
340
1485
15

12
34.5
90
235
680
2035
20

10.5
29
70
155
460
1485
25

12
34.5
90
235
680
2035
30

9
24
62
140
590
1450
35

10.5
29
70
155
460
1485
40

9
24
50
112
340
1070
50

6
17
41
96
308
840
70

6
17
41
96
308
840
100

7.6
19
54
145
422
2590
64
3

15.5
44
110
295
895
2590
80

15.5
44
110
295
895
2590
100

15.5
44
110
295
895
2590
150

13.5
38
89
195
580
1855
200

15.5
44
110
295
895
2596
250

13.5
38
89
195
580
1855
350

10.5
30
50
145
515
1450
400

7.5
22
52
124.5
400
1070
500

7.5
22
52
124.5
400
1070
700

7.5
22
52
124.5
400
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
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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)
1850
3400
5300
9550
14000
18000
Stages

Max.Axialforce(N)
1600
3000
4500
8000
11000
15000

Full-load efficiency(%)
96
1

94
2

90
3

service life (H)
20000

Weight (Kg)
1.1
2.2
5.8
12.7
29
55
1

1.3
2.4
6.3
14.7
34
62
2

1.5
2.6
6.8
16.7
39
76
3

How to Select a Gearbox

When you drive your vehicle, the gearbox provides you with traction and speed. The lower gear provides the most traction, while the higher gear has the most speed. Selecting the right gear for your driving conditions will help you maximize both. The right gearing will vary based on road conditions, load, and speed. Short gearing will accelerate you more quickly, while tall gearing will increase top speed. However, you should understand how to use the gearbox before driving.

Function

The function of the gearbox is to transmit rotational energy to the machine’s drive train. The ratio between input and output torque is the ratio of the torque to the speed of rotation. Gearboxes have many different functions. A gearbox may have multiple functions or one function that is used to drive several other machines. If one gear is not turning, the other will be able to turn the gearbox. This is where the gearbox gets its name.
The pitch-controlled system has an equal number of failure modes as the electrical system, accounting for a large proportion of the longest machine downtime and halt time. The relationship between mechanisms and faults is not easily modeled mathematically. Failure modes of gearboxes are shown in Fig. 3. A gearbox’s true service life is six to eight years. However, a gearbox’s fault detection process must be developed as mature technology is required to reduce the downtime and avoid catastrophic incidents.
A gearbox is a vital piece of machinery. It processes energy produced by an engine to move the machine’s parts. A gearbox’s efficiency depends on how efficiently it transfers energy. The higher the ratio, the more torque is transferred to the wheels. It is a common component of bicycles, cars, and a variety of other devices. Its four major functions include:
In addition to ensuring gearbox reliability, a gearbox’s maintainability should be evaluated in the design phase. Maintainability considerations should be integrated into the gearbox design, such as the type of spare parts available. An appropriate maintenance regime will also determine how often to replace or repair specific parts. A proper maintenance procedure will also ensure that the gearbox is accessible. Whether it is easy to access or difficult to reach, accessibility is essential.

Purpose

A car’s transmission connects the engine to the wheels, allowing a higher-speed crankshaft to provide leverage. High-torque engines are necessary for the vehicle’s starting, acceleration, and meeting road resistance. The gearbox reduces the engine’s speed and provides torque variations at the wheels. The transmission also provides reversing power, making it possible to move the vehicle backwards and forwards.
Gears transmit power from one shaft to another. The size of the gears and number of teeth determine the amount of torque the unit can transmit. A higher gear ratio means more torque, but slower speed. The gearbox’s lever moves the engaging part on the shaft. The lever also slides the gears and synchronizers into place. If the lever slips to the left or right, the engine operates in second gear.
Gearboxes need to be closely monitored to reduce the likelihood of premature failure. Various tests are available to detect defective gear teeth and increase machine reliability. Figure 1.11(a) and (b) show a gearbox with 18 teeth and a 1.5:1 transmission ratio. The input shaft is connected to a sheave and drives a “V” belt. This transmission ratio allows the gearbox to reduce the speed of the motor, while increasing torque and reducing output speed.
When it comes to speed reduction, gear box is the most common method for reducing motor torque. The torque output is directly proportional to the volume of the motor. A small gearbox, for example, can produce as much torque as a large motor with the same output speed. The same holds true for the reverse. There are hybrid drives and in-line gearboxes. Regardless of the type, knowing about the functions of a gearbox will make it easier to choose the right one for your specific application.

Application

When selecting a gearbox, the service factor must be considered. Service factor is the difference between the actual capacity of the gearbox and the value required by the application. Additional requirements for the gearbox may result in premature seal wear or overheating. The service factor should be as low as possible, as it could be the difference between the lifetime of the gearbox and its failure. In some cases, a gearbox’s service factor can be as high as 1.4, which is sufficient for most industrial applications.
China dominates the renewable energy industry, with the largest installed capacity of 1000 gigawatts and more than 2000 terawatt hours of electricity generated each year. The growth in these sectors is expected to increase the demand for gearboxes. For example, in China, wind and hydropower energy production are the major components of wind and solar power plants. The increased installation capacity indicates increased use of gearboxes for these industries. A gearbox that is not suitable for its application will not be functional, which may be detrimental to the production of products in the country.
A gearbox can be mounted in one of four different positions. The first three positions are concentric, parallel, or right angle, and the fourth position is shaft mount. A shaft mount gearbox is typically used in applications where the motor can’t be mounted via a foot. These positions are discussed in more detail below. Choosing the correct gearbox is essential in your business, but remember that a well-designed gearbox will help your bottom line.
The service factor of a gearbox is dependent on the type of load. A high shock load, for example, can cause premature failure of the gear teeth or shaft bearings. In such cases, a higher service factor is required. In other cases, a gearbox that is designed for high shock loads can withstand such loads without deteriorating its performance. Moreover, it will also reduce the cost of maintaining the gearbox over time.

Material

When choosing the material for your gearbox, you must balance the strength, durability, and cost of the design. This article will discuss the different types of materials and their respective applications and power transmission calculations. A variety of alloys are available, each of which offers its own advantages, including improved hardness and wear resistance. The following are some of the common alloys used in gears. The advantage of alloys is their competitive pricing. A gear made from one of these materials is usually stronger than its counterparts.
The carbon content of SPCC prevents the material from hardening like SS. However, thin sheets made from SPCC are often used for gears with lower strength. Because of the low carbon content, SPCC’s surface doesn’t harden as quickly as SS gears do, so soft nitriding is needed to provide hardness. However, if you want a gear that won’t rust, then you should consider SS or FCD.
In addition to cars, gearboxes are also used in the aerospace industry. They are used in space travel and are used in airplane engines. In agriculture, they are used in irrigation, pest and insect control machinery, and plowing machines. They are also used in construction equipment like cranes, bulldozers, and tractors. Gearboxes are also used in the food processing industry, including conveyor systems, kilns, and packaging machinery.
The teeth of the gears in your gearbox are important when it comes to performance. A properly meshing gear will allow the gears to achieve peak performance and withstand torque. Gear teeth are like tiny levers, and effective meshing reduces stress and slippage. A stationary parametric analysis will help you determine the quality of meshing throughout the gearing cycle. This method is often the most accurate way to determine whether your gears are meshing well.

Manufacturing

The global gear market is divided into five key regions, namely, North America, Europe, Asia Pacific, and Latin America. Among these regions, Asia Pacific is expected to generate the largest GDP, owing to rapidly growing energy demand and investments in industrial infrastructure. This region is also home to some of the largest manufacturing bases, and its continuous building of new buildings and homes will support the industry’s growth. In terms of application, gearboxes are used in construction, agricultural machinery, and transportation.
The Industrial Gearbox market is anticipated to expand during the next several years, driven by the rapid growth of the construction industry and business advancements. However, there are several challenges that hamper the growth of the industry. These include the high cost of operations and maintenance of gear units. This report covers the market size of industrial gearboxes globally, as well as their manufacturing technologies. It also includes manufacturer data for the period of 2020-2024. The report also features a discussion of market drivers and restraints.
Global health crisis and decreasing seaborne commerce have moderately adverse effects on the industry. Falling seaborne commerce has created a barrier to investment. The value of international crude oil is expected to cross USD 0 by April 2020, putting an end to new assets development and exploitation. In such a scenario, the global gearbox market will face many challenges. However, the opportunities are huge. So, the market for industrial gearboxes is expected to grow by more than 6% by 2020, thanks to the increasing number of light vehicles sold in the country.
The main shaft of a gearbox, also known as the output shaft, spins at different speeds and transfers torque to an automobile. The output shaft is splined so that a coupler and gear can be connected to it. The counter shaft and primary shaft are supported by bearings, which reduce friction in the spinning element. Another important part of a gearbox is the gears, which vary in tooth count. The number of teeth determines how much torque a gear can transfer. In addition, the gears can glide in any position.