Product Description
160 Series Precision Planetary reducer gearbox for CNC machine and Industrial Robot and Automatic Arm
Our Service
1. We will give positive feedbacks to our customers when we receive the payment released by Aliexpress system. So hope you also can leave positive feedbacks to our service. If you are not satified with our products or service, you also can contact with us directly. We are welcome you to give our your precious suggestions.
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3. Before placing your order, please leave the key parameters to us so that we can prepare the products to you ASAP to short the delivery time. Our after sales service also keep tracking it and send message to you when there is any delay in shipping.
4.When you receive the package, please open the package and check all the items are working in good condition before you sign.Don’t CHINAMFG if the items are broken,and ask the delivery company to make a “damage certificate” Otherwise,we will not provide any warranty and refund.
Payment & Delivery
Payment terms | T/T |
EXW | 30% In advance, 70% before delivery |
FOB | |||
CFR/C&F | 30% In advance, 70% against copy of B/L | ||
CIF | |||
L/C | Total amount above USD50,000, we accept L/C at sight | ||
West Union | Total amount less than USD5,000 | ||
PayPal | |||
Delivery time | 15-20 working days after receiving down payment for 1 container |
Our full production process strictly adhered to the ISO9001 quality control system, our higher quality , advanced equipment and technology ensure a guarantee in leakage-proof , retention and duration !
Your OEM orders are also warmly welcomed, it is our commitment to satisfy your requirement, please turst that we will be your reliable business partner for our good reputation,good quality and competitive price ! /* 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(/(.*?):(.*)$/))&&1
Application: | Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car, Industry |
---|---|
Function: | Distribution Power, Clutch, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction, Speed Increase |
Layout: | Cycloidal |
Hardness: | Hardened Tooth Surface |
Installation: | Vertical Type |
Step: | Four-Step |
Samples: |
US$ 1/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Considerations for Choosing Lubrication for Industrial Gearboxes
Choosing the right lubrication for industrial gearboxes is crucial for ensuring optimal performance, longevity, and efficiency. Several important considerations should be taken into account when selecting lubrication:
1. Operating Conditions: The operating environment, including temperature, humidity, and contaminants, affects the choice of lubrication. Extreme temperatures may require lubricants with specific temperature ranges.
2. Load and Torque: The magnitude of load and torque influences the selection of lubrication with appropriate viscosity and film strength to provide effective protection under varying conditions.
3. Speed and RPM: Gearbox speed and RPM determine the lubrication’s ability to maintain a stable lubricating film between gear teeth and other components.
4. Lubrication Interval: Consider the required lubrication frequency and intervals. Some applications may demand lubricants with longer service intervals to minimize downtime.
5. Gearbox Type: Different gearbox designs, such as helical, bevel, or worm, may have varying lubrication requirements due to differences in gear engagement and motion.
6. Compatibility: Ensure the selected lubricant is compatible with the gearbox materials, seals, and components to prevent degradation or damage.
7. Contamination Control: Lubricants should possess effective anti-contamination properties to minimize the risk of particles or debris affecting gearbox performance.
8. Water Resistance: In applications exposed to water or moisture, water-resistant lubricants help prevent corrosion and maintain proper lubrication properties.
9. Additives: Some lubricants include additives that enhance performance, such as anti-wear, anti-foam, and extreme pressure additives.
10. Environmental Considerations: Evaluate the environmental impact of the chosen lubrication, including disposal and potential harm to the ecosystem.
11. Manufacturer Recommendations: Follow the gearbox manufacturer’s recommendations and guidelines for lubrication type, viscosity, and maintenance practices.
Choosing the appropriate lubrication involves a comprehensive assessment of these factors, ensuring that the lubricant selected is well-suited for the specific demands of the industrial gearbox and its application.
Factors to Consider When Selecting the Right Industrial Gearbox for an Application
Choosing the appropriate industrial gearbox for a specific application requires careful consideration of various factors to ensure optimal performance, reliability, and efficiency. Here are the key factors to consider:
- Load and Torque Requirements: Determine the maximum load and torque the gearbox will need to handle in the application.
- Speed Range: Consider the required speed range for both input and output shafts.
- Operating Conditions: Evaluate the environmental conditions, such as temperature, humidity, and presence of dust or chemicals.
- Space Constraints: Take into account the available installation space and clearance requirements.
- Efficiency: Choose a gearbox with the appropriate efficiency rating to minimize power losses.
- Noise and Vibration: Consider noise and vibration levels, especially in applications where low noise is crucial.
- Service and Maintenance: Assess ease of maintenance, accessibility for repairs, and availability of replacement parts.
- Mounting and Alignment: Ensure compatibility with the existing machinery and proper shaft alignment.
- Cost and Budget: Balance performance requirements with budget constraints.
- Expected Lifespan: Choose a gearbox with a suitable lifespan for the application’s durability needs.
- Gearbox Type: Select the appropriate gearbox type (helical, bevel, worm, etc.) based on the application’s specific requirements.
By carefully considering these factors and consulting with gearbox experts, you can make an informed decision and choose the right industrial gearbox that meets the unique demands of your application.
Benefits of Using an Industrial Gearbox in Heavy-Duty Applications
An industrial gearbox offers several benefits when used in heavy-duty applications, where robust and reliable power transmission is essential:
- High Torque Handling: Industrial gearboxes are designed to handle high levels of torque, making them well-suited for heavy-duty tasks that require substantial force and power.
- Durability and Longevity: Heavy-duty gearboxes are constructed from rugged materials and designed to withstand harsh operating conditions, ensuring extended service life and reduced maintenance requirements.
- Load Distribution: Gearboxes distribute the load across multiple gears, reducing the strain on individual components and promoting even wear, which is crucial in heavy-duty applications.
- Efficient Power Transmission: Industrial gearboxes efficiently transmit power between input and output shafts, ensuring minimal power loss and maximizing overall system efficiency.
- Flexibility in Speed and Torque: Heavy-duty gearboxes offer the flexibility to adjust speed and torque by selecting appropriate gear ratios, allowing for precise control over machinery performance.
- Adaptability to Varying Conditions: Industrial gearboxes can adapt to changing load conditions, making them suitable for applications with fluctuating requirements.
- Reduced Downtime: The durability and reliability of industrial gearboxes contribute to reduced downtime and increased operational uptime, enhancing productivity.
- Customization: Gearboxes can be customized to meet specific heavy-duty application needs, ensuring optimal performance and compatibility.
Overall, industrial gearboxes play a pivotal role in heavy-duty applications by providing robust power transmission, durability, and versatility to meet the demands of challenging tasks.
editor by CX 2024-04-24
China manufacturer Industrial Robot Arm RV Reducer Gearbox gearbox assembly
Product Description
Details Photos:
1.It is equipped with an angular contact ball bearing, so it can support the external load with the rigid moment and large allowable moment
2.Easy assemble, small vibration
3.It can reduce the motor straight junction (input gear) and inertia
4.Large torsional rigidity
5.Strong impact resistance (500% of rated torque)
6.The crankshaft is supported by 2 columns in the reducer
7.Excellent starting efficiency & Small wear and long service life
8.Small backlash (1arc. Min.) & Use rolling bearing
9.Strong impact resistance (500% of rated torque)
10.The number of simultaneous engagements between RV gear and needle teeth is large
Advantages:
1. High precision, high torque
2. Dedicated technical personnel can be on the go to provide design solutions
3. Factory direct sales fine workmanship durable quality assurance
4. Product quality issues have a one-year warranty time, can be returned for replacement or repair
Company profile:
HangZhou CHINAMFG Technology Co., Ltd. was established in 2014. Based on long-term accumulated experience in mechanical design and manufacturing, various types of harmonic reducers have been developed according to the different needs of customers. The company is in a stage of rapid development. , Equipment and personnel are constantly expanding. Now we have a group of experienced technical and managerial personnel, with advanced equipment, complete testing methods, and product manufacturing and design capabilities. Product design and production can be carried out according to customer needs, and a variety of high-precision transmission components such as harmonic reducers and RV reducers have been formed; the products have been sold in domestic and global(Such as USA, Germany, Turkey, India) and have been used in industrial robots, machine tools, medical equipment, laser processing, cutting, and dispensing, Brush making, LED equipment manufacturing, precision electronic equipment, and other industries have established a good reputation.
In the future, Hongwing will adhere to the purpose of gathering talents, keeping close to the market, and technological innovation, carry CHINAMFG the value pursuit in the field of harmonic drive&RV reducers, seek the common development of the company and the society, and quietly build itself into a CHINAMFG brand with independent intellectual property rights. Quality supplier in the field of precision transmission”.
Strength factory:
Our plant has an entire campus The number of workshops is around 300 Whether it’s from the production of raw materials and the procurement of raw materials to the inspection of finished products, we’re doing it ourselves. There is a complete production system
HST-I Parameter:
Rated Table | ||||||||||||||
Output rotational speed (rpm) | 5 | 10 | 15 | 20 | 25 | 30 | 40 | 50 | 60 | |||||
Model | Speed ratio code | Transmission Ratio(R) | Output Torque (Nm) / Enter the capacity (kW |
|||||||||||
Rotation of axes | Housing rotation | |||||||||||||
RV-6E | 31 | 31 | 30 | 101 / 0.07 |
81 / 0.11 |
72 / 0.15 |
66 / 0.19 |
62 / 0.22 |
58 / 0.25 |
54 / 0.30 |
50 / 0.35 |
47 / 0.40 |
||
43 | 43 | 42 | ||||||||||||
53.5 | 53.5 | 52.5 | ||||||||||||
59 | 59 | 58 | ||||||||||||
79 | 79 | 78 | ||||||||||||
103 | 103 | 102 | ||||||||||||
RV-20E | 57 | 57 | 56 | 231 / 0.16 |
188 / 0.26 |
167 / 0.35 |
153 / 0.43 |
143 / 0.50 |
135 / 0.57 |
124 / 0.70 |
115 / 0.81 |
110 / 0.92 |
||
81 | 81 | 80 | ||||||||||||
105 | 105 | 104 | ||||||||||||
121 | 121 | 120 | ||||||||||||
141 | 141 | 140 | ||||||||||||
161 | 161 | 160 | ||||||||||||
RV-40E | 57 | 57 | 56 | 572 / 0.40 |
465 / 0.65 |
412 / 0.86 |
377 / 1.05 |
353 / 1.23 |
334 / 1.40 |
307 / 1.71 |
287 / 2.00 |
271 / 2.27 |
||
81 | 81 | 80 | ||||||||||||
105 | 105 | 104 | ||||||||||||
121 | 121 | 120 | ||||||||||||
153 | 153 | 152 | ||||||||||||
RV-80E | 57 | 57 | 56 | 1,088 / 0.76 |
885 / 1.24 |
784 / 1.64 |
719 / 2.01 |
672 / 2.35 |
637 / 2.67 |
584 / 3.26 |
546 / 3.81 |
517 / 4.33 |
||
81 | 81 | 80 | ||||||||||||
101 | 101 | 100 | ||||||||||||
121 | 121 | 120 | ||||||||||||
153 | 1(153) | 1(152) | ||||||||||||
RV-110E | 81 | 81 | 80 | 1,499 / 1.05 |
1,215 / 1.70 |
1,078 / 2.26 |
990 / 2.76 |
925 / 3.23 |
875 / 3.67 |
804 / 4.49 |
||||
111 | 111 | 110 | ||||||||||||
161 | 161 | 160 | ||||||||||||
175 | 1227/7 | 1220/7 | ||||||||||||
RV-160E | 81 | 81 | 80 | 2,176 / 1.52 |
1,774 / 2.48 |
1,568 / 3.28 |
1,441 / 4.02 |
1,343 / 4.69 |
1,274 / 5.34 |
|||||
101 | 101 | 100 | ||||||||||||
129 | 129 | 128 | ||||||||||||
145 | 145 | 144 | ||||||||||||
171 | 171 | 170 | ||||||||||||
RV-320E | 81 | 81 | 80 | 4,361 / 3.04 |
3,538 / 4.94 |
3,136 / 6.57 |
2,881 / 8.05 |
2,695 / 9.41 |
2,548 / 10.7 |
|||||
101 | 101 | 100 | ||||||||||||
118.5 | 118.5 | 117.5 | ||||||||||||
129 | 129 | 128 | ||||||||||||
141 | 141 | 140 | ||||||||||||
171 | 171 | 170 | ||||||||||||
185 | 185 | 184 | ||||||||||||
RV-450E | 81 | 81 | 80 | 6,135 / 4.28 |
4,978 / 6.95 |
4,410 / 9.24 |
4,047 / 11.3 |
3,783 / 13.2 |
||||||
101 | 101 | 100 | ||||||||||||
118.5 | 118.5 | 117.5 | ||||||||||||
129 | 129 | 128 | ||||||||||||
154.8 | 2013/13 | 2000/13 | ||||||||||||
171 | 171 | 170 | ||||||||||||
192 | 1347/7 | 1340/7 | ||||||||||||
Note: 1. The allowable output speed is affected by duty cycle, load, and ambient temperature. When the allowable output speed is above NS1, please consult our company about the precautions. 2. Calculate the input capacity (kW) by the following formula. |
||||||||||||||
Input capacity (kW) =(2π*N*T)/(60*η/100*10*10*10) | N: output speed (RPM) T: output torque (nm) η = 75: reducer efficiency (%) |
|||||||||||||
The input capacity is the reference value. 3. When using the reducer at a low temperature, the no-load running torque will increase, so please pay attention when selecting the motor. (refer to p.93 low-temperature characteristics) |
T0 Rated torque(Remark .7) |
N0 Rated output speed |
K Rated life |
TS1 Allowable starting and stopping torque |
TS2 Instantaneous maximum allowable torque |
NS0 Allowable maximum output speed (Remark .1) |
Backlash | Empty distance MAX. | Angle transmission error MAX. | A representative value of starting efficiency | MO1 Allowable moment (Remark .4) |
MO2 Instantaneous maximum allowable moment |
Wr Allowable radial load (Remark .10) |
I Converted value of inertia moment input shaft (Remark .5) |
Weight |
(Nm) | (rpm) | (h) | (Nm) | (Nm) | (r/min) | (arc.sec.) | (arc.min.) | (arc.sec.) | (%) | (Nm) | (Nm) | (N) | (kgm2) | (kg) |
58 | 30 | 6,000 | 117 | 294 | 100 | 1.5 | 1.5 | 80 | 70 | 196 | 392 | 2,140 | 2.63×10-6 | 2.5 |
2.00×10-6 | ||||||||||||||
1.53×10-6 | ||||||||||||||
1.39×10-6 | ||||||||||||||
1.09×10-6 | ||||||||||||||
0.74×10-6 | ||||||||||||||
167 | 15 | 6,000 | 412 | 833 | 75 | 1.0 | 1.0 | 70 | 75 | 882 | 1,764 | 7,785 | 9.66×10-6 | 4.7 |
6.07×10-6 | ||||||||||||||
4.32×10-6 | ||||||||||||||
3.56×10-6 | ||||||||||||||
2.88×10-6 | ||||||||||||||
2.39×10-6 | ||||||||||||||
412 | 15 | 6,000 | 1,571 | 2,058 | 70 | 1.0 | 1.0 | 60 | 85 | 1,666 | 3,332 | 11,594 | 3.25×10-5 | 9.3 |
2.20×10-5 | ||||||||||||||
1.63×10-5 | ||||||||||||||
1.37×10-5 | ||||||||||||||
1.01×10-5 | ||||||||||||||
784 | 15 | 6,000 | 1,960 | Bolt tightening 3920 | 70 | 1.0 | 1.0 | 50 | 85 | Bolt fastening 2156 | Bolt tightening | Bolt tightening 12988 | 8.16×10-5 | Bolt tightening 13.1 |
6.00×10-5 | ||||||||||||||
4.82×10-5 | ||||||||||||||
Pin combination 3185 | Pin combination 1735 | Pin combination 2156 | Pin combination 1571 | Pin combination 12.7 | ||||||||||
3.96×10-5 | ||||||||||||||
2.98×10-5 | ||||||||||||||
1,078 | 15 | 6,000 | 2,695 | 5,390 | 50 | 1.0 | 1.0 | 50 | 85 | 2,940 | 5,880 | 16,648 | 9.88×10-5 | 17.4 |
6.96×10-5 | ||||||||||||||
4.36×10-5 | ||||||||||||||
3.89×10-5 | ||||||||||||||
1,568 | 15 | 6,000 | 3,920 | Bolt tightening 7840 | 45 | 1.0 | 1.0 | 50 | 85 | 3,920 | Bolt tightening 7840 | 18,587 | 1.77×10-4 | 26.4 |
1.40×10-4 | ||||||||||||||
1.06×10-4 | ||||||||||||||
Pin and use 6615 | Pin and use 6762 | |||||||||||||
0.87×10-4 | ||||||||||||||
0.74×10-4 | ||||||||||||||
3,136 | 15 | 6,000 | 7,840 | Bolt tightening 15680 | 35 | 1.0 | 1.0 | 50 | 80 | Bolt tightening 7056 | Bolt tightening 14112 | Bolt tightening 28067 | 4.83×10-4 | 44.3 |
3.79×10-4 | ||||||||||||||
3.15×10-4 | ||||||||||||||
2.84×10-4 | ||||||||||||||
Pin combination 12250 | Pin combination 6174 | Pin and use 1571 | Pin combination 24558 | |||||||||||
2.54×10-4 | ||||||||||||||
1.97×10-4 | ||||||||||||||
1.77×10-4 | ||||||||||||||
4,410 | 15 | 6,000 | 11,571 | Bolt tightening 22050 | 25 | 1.0 | 1.0 | 50 | 85 | 8,820 | Bolt tightening 17640 | 30,133 | 8.75×10-4 | 66.4 |
6.91×10-4 | ||||||||||||||
5.75×10-4 | ||||||||||||||
5.20×10-4 | ||||||||||||||
Pin and use 18620 | Pin and use 13524 | |||||||||||||
4.12×10-4 | ||||||||||||||
3.61×10-4 | ||||||||||||||
3.07×10-4 | ||||||||||||||
4. The allowable torque will vary according to the thrust load. Please confirm by the allowable moment line diagram (p.91). 5. The value of inertia moment is the value of the reducer body. The moment of inertia of the input gear is not included. 6. For moment stiffness and torsion stiffness, please refer to the calculation of inclination angle and torsion angle (p.99). 7. Rated torque refers to the torque value reflecting the rated life at rated output speed, not the data showing the upper limit of load. Please refer to the glossary (p.81) and product selection flow chart (p.82). 8. If you want to buy products other than the above speed ratio, please consult our company. 9. The above specifications are obtained according to the company’s evaluation method. Please confirm that the product meets the use conditions of carrying real aircraft before use. 10. When a radial load is applied to dimension B, please use it within the allowable radial load range. 11. 1 RV-80e r = 153 is only output shaft bolt fastening type( P.20,21) |
APPLICATIONS:
FQA:
Q: What should I provide when I choose a gearbox/speed reducer?
A: The best way is to provide the motor drawing with parameters. Our engineer will check and recommend the most suitable gearbox model for your reference.
Or you can also provide the below specification as well:
1) Type, model, and torque.
2) Ratio or output speed
3) Working condition and connection method
4) Quality and installed machine name
5) Input mode and input speed
6) Motor brand model or flange and motor shaft size
/* 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(/(.*?):(.*)$/))&&1
Application: | Motor, Motorcycle, Machinery, Agricultural Machinery |
---|---|
Hardness: | Hardened Tooth Surface |
Installation: | Horizontal Type |
Layout: | Coaxial |
Gear Shape: | Cylindrical Gear |
Step: | Single-Step |
Samples: |
US$ 600/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Real-World Examples of Industrial Gearbox Applications
Industrial gearbox technology finds widespread use in a diverse range of products and applications across various industries. Some real-world examples include:
1. Wind Turbines: Industrial gearboxes are integral components in wind turbines, where they transmit the rotational energy of the wind turbine’s blades to the generator at an optimal speed to produce electricity.
2. Conveyor Systems: Gearboxes are used in conveyor systems to control the speed and direction of material handling, ensuring efficient movement of goods in industries like manufacturing, logistics, and mining.
3. Mining Equipment: Heavy-duty machinery in the mining industry, such as crushers, excavators, and loaders, rely on industrial gearboxes for torque multiplication and efficient power transmission.
4. Construction Machinery: Cranes, excavators, and concrete mixers utilize industrial gearboxes to manage heavy loads and perform precise movements in construction projects.
5. Marine Propulsion: Ships and vessels use gearboxes in their propulsion systems to convert the high-speed rotation of the engines into the lower-speed rotation needed by the propellers.
6. Automotive Industry: Gearboxes are found in vehicles to transmit power from the engine to the wheels, enabling speed variation and torque multiplication.
7. Food Processing: Industrial gearboxes play a role in various stages of food processing, such as mixing, grinding, and packaging, ensuring efficient and controlled movement of ingredients and products.
8. Paper and Pulp Industry: Gearboxes are used in paper mills for processes like pulping, refining, and paper machine operations, where precise control and torque management are essential.
9. Steel and Metal Processing: Gearboxes are vital in metal processing equipment like rolling mills and extruders, enabling the shaping and forming of metals at varying speeds and forces.
10. Textile Machinery: In textile manufacturing, industrial gearboxes are employed in machines for spinning, weaving, and knitting, facilitating the intricate movements required for fabric production.
11. Agriculture: Tractors and other agricultural machinery utilize gearboxes to control the speed and power required for tasks such as plowing, tilling, and harvesting.
12. Renewable Energy: Beyond wind turbines, industrial gearboxes are used in other renewable energy systems like hydroelectric power plants and solar tracking mechanisms.
These examples showcase the versatility and importance of industrial gearbox technology in various sectors, where they enable efficient power transmission, motion control, and the reliable operation of critical machinery.
Factors to Consider When Selecting the Right Industrial Gearbox for an Application
Choosing the appropriate industrial gearbox for a specific application requires careful consideration of various factors to ensure optimal performance, reliability, and efficiency. Here are the key factors to consider:
- Load and Torque Requirements: Determine the maximum load and torque the gearbox will need to handle in the application.
- Speed Range: Consider the required speed range for both input and output shafts.
- Operating Conditions: Evaluate the environmental conditions, such as temperature, humidity, and presence of dust or chemicals.
- Space Constraints: Take into account the available installation space and clearance requirements.
- Efficiency: Choose a gearbox with the appropriate efficiency rating to minimize power losses.
- Noise and Vibration: Consider noise and vibration levels, especially in applications where low noise is crucial.
- Service and Maintenance: Assess ease of maintenance, accessibility for repairs, and availability of replacement parts.
- Mounting and Alignment: Ensure compatibility with the existing machinery and proper shaft alignment.
- Cost and Budget: Balance performance requirements with budget constraints.
- Expected Lifespan: Choose a gearbox with a suitable lifespan for the application’s durability needs.
- Gearbox Type: Select the appropriate gearbox type (helical, bevel, worm, etc.) based on the application’s specific requirements.
By carefully considering these factors and consulting with gearbox experts, you can make an informed decision and choose the right industrial gearbox that meets the unique demands of your application.
Industries Using Industrial Gearboxes
Industrial gearboxes play a crucial role in various industries, enabling efficient power transmission and motion control. Some of the industries that commonly utilize industrial gearboxes for their operations include:
- Manufacturing: Industrial gearboxes are used in manufacturing processes for tasks such as material handling, assembly lines, and machine tools.
- Automotive: Gearboxes are essential components in automotive manufacturing, used in transmissions, engines, and other critical systems.
- Construction: Construction machinery relies on gearboxes for tasks like lifting, excavating, and moving heavy materials.
- Mining: Mining equipment utilizes gearboxes for drilling, crushing, conveying, and other demanding operations.
- Energy: Power generation facilities, including wind turbines, hydroelectric plants, and fossil fuel power plants, use gearboxes for efficient energy conversion.
- Marine: Gearboxes are crucial in marine applications, such as ship propulsion systems and offshore equipment.
- Agriculture: Farming machinery, like tractors and harvesters, relies on gearboxes for various tasks like plowing, planting, and harvesting.
- Food and Beverage: Gearboxes are used in food processing and packaging equipment, ensuring precise and efficient production.
- Textile: The textile industry employs gearboxes in machinery for weaving, spinning, and fabric processing.
- Pulp and Paper: Gearboxes play a role in papermaking processes, including pulping, drying, and rolling.
These are just a few examples of industries that heavily rely on industrial gearboxes to optimize their operations and ensure the efficient functioning of their machinery and equipment.
editor by CX 2024-04-15
China Professional Industrial Robot Arm RV Reducer Gearbox gearbox assembly
Product Description
Details Photos:
1.It is equipped with an angular contact ball bearing, so it can support the external load with the rigid moment and large allowable moment
2.Easy assemble, small vibration
3.It can reduce the motor straight junction (input gear) and inertia
4.Large torsional rigidity
5.Strong impact resistance (500% of rated torque)
6.The crankshaft is supported by 2 columns in the reducer
7.Excellent starting efficiency & Small wear and long service life
8.Small backlash (1arc. Min.) & Use rolling bearing
9.Strong impact resistance (500% of rated torque)
10.The number of simultaneous engagements between RV gear and needle teeth is large
Advantages:
1. High precision, high torque
2. Dedicated technical personnel can be on the go to provide design solutions
3. Factory direct sales fine workmanship durable quality assurance
4. Product quality issues have a one-year warranty time, can be returned for replacement or repair
Company profile:
HangZhou CHINAMFG Technology Co., Ltd. was established in 2014. Based on long-term accumulated experience in mechanical design and manufacturing, various types of harmonic reducers have been developed according to the different needs of customers. The company is in a stage of rapid development. , Equipment and personnel are constantly expanding. Now we have a group of experienced technical and managerial personnel, with advanced equipment, complete testing methods, and product manufacturing and design capabilities. Product design and production can be carried out according to customer needs, and a variety of high-precision transmission components such as harmonic reducers and RV reducers have been formed; the products have been sold in domestic and global(Such as USA, Germany, Turkey, India) and have been used in industrial robots, machine tools, medical equipment, laser processing, cutting, and dispensing, Brush making, LED equipment manufacturing, precision electronic equipment, and other industries have established a good reputation.
In the future, Hongwing will adhere to the purpose of gathering talents, keeping close to the market, and technological innovation, carry CHINAMFG the value pursuit in the field of harmonic drive&RV reducers, seek the common development of the company and the society, and quietly build itself into a CHINAMFG brand with independent intellectual property rights. Quality supplier in the field of precision transmission”.
Strength factory:
Our plant has an entire campus The number of workshops is around 300 Whether it’s from the production of raw materials and the procurement of raw materials to the inspection of finished products, we’re doing it ourselves. There is a complete production system
HST-I Parameter:
Rated Table | ||||||||||||||
Output rotational speed (rpm) | 5 | 10 | 15 | 20 | 25 | 30 | 40 | 50 | 60 | |||||
Model | Speed ratio code | Transmission Ratio(R) | Output Torque (Nm) / Enter the capacity (kW |
|||||||||||
Rotation of axes | Housing rotation | |||||||||||||
RV-6E | 31 | 31 | 30 | 101 / 0.07 |
81 / 0.11 |
72 / 0.15 |
66 / 0.19 |
62 / 0.22 |
58 / 0.25 |
54 / 0.30 |
50 / 0.35 |
47 / 0.40 |
||
43 | 43 | 42 | ||||||||||||
53.5 | 53.5 | 52.5 | ||||||||||||
59 | 59 | 58 | ||||||||||||
79 | 79 | 78 | ||||||||||||
103 | 103 | 102 | ||||||||||||
RV-20E | 57 | 57 | 56 | 231 / 0.16 |
188 / 0.26 |
167 / 0.35 |
153 / 0.43 |
143 / 0.50 |
135 / 0.57 |
124 / 0.70 |
115 / 0.81 |
110 / 0.92 |
||
81 | 81 | 80 | ||||||||||||
105 | 105 | 104 | ||||||||||||
121 | 121 | 120 | ||||||||||||
141 | 141 | 140 | ||||||||||||
161 | 161 | 160 | ||||||||||||
RV-40E | 57 | 57 | 56 | 572 / 0.40 |
465 / 0.65 |
412 / 0.86 |
377 / 1.05 |
353 / 1.23 |
334 / 1.40 |
307 / 1.71 |
287 / 2.00 |
271 / 2.27 |
||
81 | 81 | 80 | ||||||||||||
105 | 105 | 104 | ||||||||||||
121 | 121 | 120 | ||||||||||||
153 | 153 | 152 | ||||||||||||
RV-80E | 57 | 57 | 56 | 1,088 / 0.76 |
885 / 1.24 |
784 / 1.64 |
719 / 2.01 |
672 / 2.35 |
637 / 2.67 |
584 / 3.26 |
546 / 3.81 |
517 / 4.33 |
||
81 | 81 | 80 | ||||||||||||
101 | 101 | 100 | ||||||||||||
121 | 121 | 120 | ||||||||||||
153 | 1(153) | 1(152) | ||||||||||||
RV-110E | 81 | 81 | 80 | 1,499 / 1.05 |
1,215 / 1.70 |
1,078 / 2.26 |
990 / 2.76 |
925 / 3.23 |
875 / 3.67 |
804 / 4.49 |
||||
111 | 111 | 110 | ||||||||||||
161 | 161 | 160 | ||||||||||||
175 | 1227/7 | 1220/7 | ||||||||||||
RV-160E | 81 | 81 | 80 | 2,176 / 1.52 |
1,774 / 2.48 |
1,568 / 3.28 |
1,441 / 4.02 |
1,343 / 4.69 |
1,274 / 5.34 |
|||||
101 | 101 | 100 | ||||||||||||
129 | 129 | 128 | ||||||||||||
145 | 145 | 144 | ||||||||||||
171 | 171 | 170 | ||||||||||||
RV-320E | 81 | 81 | 80 | 4,361 / 3.04 |
3,538 / 4.94 |
3,136 / 6.57 |
2,881 / 8.05 |
2,695 / 9.41 |
2,548 / 10.7 |
|||||
101 | 101 | 100 | ||||||||||||
118.5 | 118.5 | 117.5 | ||||||||||||
129 | 129 | 128 | ||||||||||||
141 | 141 | 140 | ||||||||||||
171 | 171 | 170 | ||||||||||||
185 | 185 | 184 | ||||||||||||
RV-450E | 81 | 81 | 80 | 6,135 / 4.28 |
4,978 / 6.95 |
4,410 / 9.24 |
4,047 / 11.3 |
3,783 / 13.2 |
||||||
101 | 101 | 100 | ||||||||||||
118.5 | 118.5 | 117.5 | ||||||||||||
129 | 129 | 128 | ||||||||||||
154.8 | 2013/13 | 2000/13 | ||||||||||||
171 | 171 | 170 | ||||||||||||
192 | 1347/7 | 1340/7 | ||||||||||||
Note: 1. The allowable output speed is affected by duty cycle, load, and ambient temperature. When the allowable output speed is above NS1, please consult our company about the precautions. 2. Calculate the input capacity (kW) by the following formula. |
||||||||||||||
Input capacity (kW) =(2π*N*T)/(60*η/100*10*10*10) | N: output speed (RPM) T: output torque (nm) η = 75: reducer efficiency (%) |
|||||||||||||
The input capacity is the reference value. 3. When using the reducer at a low temperature, the no-load running torque will increase, so please pay attention when selecting the motor. (refer to p.93 low-temperature characteristics) |
T0 Rated torque(Remark .7) |
N0 Rated output speed |
K Rated life |
TS1 Allowable starting and stopping torque |
TS2 Instantaneous maximum allowable torque |
NS0 Allowable maximum output speed (Remark .1) |
Backlash | Empty distance MAX. | Angle transmission error MAX. | A representative value of starting efficiency | MO1 Allowable moment (Remark .4) |
MO2 Instantaneous maximum allowable moment |
Wr Allowable radial load (Remark .10) |
I Converted value of inertia moment input shaft (Remark .5) |
Weight |
(Nm) | (rpm) | (h) | (Nm) | (Nm) | (r/min) | (arc.sec.) | (arc.min.) | (arc.sec.) | (%) | (Nm) | (Nm) | (N) | (kgm2) | (kg) |
58 | 30 | 6,000 | 117 | 294 | 100 | 1.5 | 1.5 | 80 | 70 | 196 | 392 | 2,140 | 2.63×10-6 | 2.5 |
2.00×10-6 | ||||||||||||||
1.53×10-6 | ||||||||||||||
1.39×10-6 | ||||||||||||||
1.09×10-6 | ||||||||||||||
0.74×10-6 | ||||||||||||||
167 | 15 | 6,000 | 412 | 833 | 75 | 1.0 | 1.0 | 70 | 75 | 882 | 1,764 | 7,785 | 9.66×10-6 | 4.7 |
6.07×10-6 | ||||||||||||||
4.32×10-6 | ||||||||||||||
3.56×10-6 | ||||||||||||||
2.88×10-6 | ||||||||||||||
2.39×10-6 | ||||||||||||||
412 | 15 | 6,000 | 1,571 | 2,058 | 70 | 1.0 | 1.0 | 60 | 85 | 1,666 | 3,332 | 11,594 | 3.25×10-5 | 9.3 |
2.20×10-5 | ||||||||||||||
1.63×10-5 | ||||||||||||||
1.37×10-5 | ||||||||||||||
1.01×10-5 | ||||||||||||||
784 | 15 | 6,000 | 1,960 | Bolt tightening 3920 | 70 | 1.0 | 1.0 | 50 | 85 | Bolt fastening 2156 | Bolt tightening | Bolt tightening 12988 | 8.16×10-5 | Bolt tightening 13.1 |
6.00×10-5 | ||||||||||||||
4.82×10-5 | ||||||||||||||
Pin combination 3185 | Pin combination 1735 | Pin combination 2156 | Pin combination 1571 | Pin combination 12.7 | ||||||||||
3.96×10-5 | ||||||||||||||
2.98×10-5 | ||||||||||||||
1,078 | 15 | 6,000 | 2,695 | 5,390 | 50 | 1.0 | 1.0 | 50 | 85 | 2,940 | 5,880 | 16,648 | 9.88×10-5 | 17.4 |
6.96×10-5 | ||||||||||||||
4.36×10-5 | ||||||||||||||
3.89×10-5 | ||||||||||||||
1,568 | 15 | 6,000 | 3,920 | Bolt tightening 7840 | 45 | 1.0 | 1.0 | 50 | 85 | 3,920 | Bolt tightening 7840 | 18,587 | 1.77×10-4 | 26.4 |
1.40×10-4 | ||||||||||||||
1.06×10-4 | ||||||||||||||
Pin and use 6615 | Pin and use 6762 | |||||||||||||
0.87×10-4 | ||||||||||||||
0.74×10-4 | ||||||||||||||
3,136 | 15 | 6,000 | 7,840 | Bolt tightening 15680 | 35 | 1.0 | 1.0 | 50 | 80 | Bolt tightening 7056 | Bolt tightening 14112 | Bolt tightening 28067 | 4.83×10-4 | 44.3 |
3.79×10-4 | ||||||||||||||
3.15×10-4 | ||||||||||||||
2.84×10-4 | ||||||||||||||
Pin combination 12250 | Pin combination 6174 | Pin and use 1571 | Pin combination 24558 | |||||||||||
2.54×10-4 | ||||||||||||||
1.97×10-4 | ||||||||||||||
1.77×10-4 | ||||||||||||||
4,410 | 15 | 6,000 | 11,571 | Bolt tightening 22050 | 25 | 1.0 | 1.0 | 50 | 85 | 8,820 | Bolt tightening 17640 | 30,133 | 8.75×10-4 | 66.4 |
6.91×10-4 | ||||||||||||||
5.75×10-4 | ||||||||||||||
5.20×10-4 | ||||||||||||||
Pin and use 18620 | Pin and use 13524 | |||||||||||||
4.12×10-4 | ||||||||||||||
3.61×10-4 | ||||||||||||||
3.07×10-4 | ||||||||||||||
4. The allowable torque will vary according to the thrust load. Please confirm by the allowable moment line diagram (p.91). 5. The value of inertia moment is the value of the reducer body. The moment of inertia of the input gear is not included. 6. For moment stiffness and torsion stiffness, please refer to the calculation of inclination angle and torsion angle (p.99). 7. Rated torque refers to the torque value reflecting the rated life at rated output speed, not the data showing the upper limit of load. Please refer to the glossary (p.81) and product selection flow chart (p.82). 8. If you want to buy products other than the above speed ratio, please consult our company. 9. The above specifications are obtained according to the company’s evaluation method. Please confirm that the product meets the use conditions of carrying real aircraft before use. 10. When a radial load is applied to dimension B, please use it within the allowable radial load range. 11. 1 RV-80e r = 153 is only output shaft bolt fastening type( P.20,21) |
APPLICATIONS:
FQA:
Q: What should I provide when I choose a gearbox/speed reducer?
A: The best way is to provide the motor drawing with parameters. Our engineer will check and recommend the most suitable gearbox model for your reference.
Or you can also provide the below specification as well:
1) Type, model, and torque.
2) Ratio or output speed
3) Working condition and connection method
4) Quality and installed machine name
5) Input mode and input speed
6) Motor brand model or flange and motor shaft size
Application: | Motor, Motorcycle, Machinery, Agricultural Machinery |
---|---|
Hardness: | Hardened Tooth Surface |
Installation: | Horizontal Type |
Layout: | Coaxial |
Gear Shape: | Cylindrical Gear |
Step: | Single-Step |
Samples: |
US$ 600/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Enhancing Efficiency of Conveyor Systems and Manufacturing with Industrial Gearboxes
Industrial gearboxes play a crucial role in enhancing the efficiency of conveyor systems and manufacturing processes. They offer several benefits that contribute to smoother operations and improved productivity:
- Torque Multiplication: Industrial gearboxes allow for torque multiplication, enabling conveyor systems to handle heavy loads with ease. This ensures consistent and reliable movement of materials along the conveyor belts.
- Speed Control: Gearboxes provide precise speed control, allowing manufacturers to adjust the conveyor’s speed according to the specific production requirements. This helps optimize the manufacturing process by maintaining a steady flow of materials.
- Reduced Downtime: By efficiently transmitting power and torque, industrial gearboxes minimize wear and tear on conveyor components. This results in reduced maintenance and downtime, leading to increased operational uptime.
- Motion Synchronization: Gearboxes enable synchronized movement of multiple conveyor belts or other manufacturing components. This synchronization ensures that various stages of the manufacturing process are properly coordinated, reducing bottlenecks and errors.
- Energy Efficiency: Industrial gearboxes help optimize energy consumption by converting high-speed input power to the appropriate output speed for the application. This energy-efficient conversion contributes to cost savings and sustainability.
- Precision and Accuracy: Gearboxes provide precise motion control, which is essential for manufacturing processes that require accurate positioning, cutting, shaping, or assembly. This precision enhances the quality of the final products.
- Adaptability: Industrial gearboxes can be customized to match the specific requirements of conveyor systems and manufacturing equipment. This adaptability ensures that gearboxes can effectively handle a wide range of tasks and applications.
Whether it’s in material handling or manufacturing, industrial gearboxes enable conveyor systems to operate seamlessly, promoting efficient production processes, reduced operational costs, and enhanced product quality.
Industrial Gearboxes for Speed Reduction and Speed Increase
Yes, industrial gearboxes are versatile components that can be used for both speed reduction and speed increase in mechanical systems. Their ability to manipulate torque and rotational speed makes them essential for various applications:
Speed Reduction: In many cases, industrial gearboxes are employed to reduce the rotational speed of the input shaft while increasing torque at the output shaft. This is commonly seen in heavy-duty applications such as conveyor systems, where high-speed motors are used to drive the system, but the conveyor itself operates at a slower, controlled speed to handle materials safely and efficiently.
Speed Increase: Conversely, industrial gearboxes can also be designed to increase the speed of the input shaft while decreasing torque at the output shaft. This configuration is valuable in situations where a high-speed output is necessary for a specific process or operation, such as in certain types of machinery or equipment.
By incorporating different gear ratios and arrangements, industrial gearboxes can achieve the desired speed and torque characteristics needed for a wide range of applications. The flexibility of industrial gearboxes to handle both speed reduction and speed increase makes them essential components in industries that require precise control over power transmission and motion control.
Variations in Industrial Gearbox Designs for Specific Tasks
Industrial gearbox designs can vary significantly based on the specific tasks and applications they are intended for. Different industries and applications have unique requirements, and gearbox designs are tailored to meet those needs. Here are some variations in industrial gearbox designs for specific tasks:
- Helical Gearboxes: Helical gearboxes are known for their efficiency and smooth operation. They are commonly used in applications where precision, low noise, and high efficiency are required, such as conveyors, pumps, and compressors.
- Bevel Gearboxes: Bevel gearboxes are suitable for transmitting power between non-parallel shafts, making them ideal for applications like printing presses, packaging machinery, and woodworking equipment.
- Worm Gearboxes: Worm gearboxes offer high torque multiplication and are often used in heavy-duty applications such as mining equipment, elevators, and material handling systems.
- Planetary Gearboxes: Planetary gearboxes provide excellent power-to-weight ratios and compact designs. They are commonly used in robotics, precision machinery, and aerospace applications.
- Parallel Shaft Gearboxes: Parallel shaft gearboxes are versatile and can handle a wide range of applications, including conveyors, mixers, agitators, and industrial fans.
- Right-Angle Gearboxes: Right-angle gearboxes are designed to transmit power at a 90-degree angle, making them suitable for applications such as paper mills, textile machinery, and cooling towers.
The design variations take into account factors such as load distribution, torque requirements, operating speeds, space constraints, and environmental conditions. Industrial gearbox manufacturers offer a variety of options to ensure that the gearbox design aligns with the specific tasks and challenges of the intended application, ultimately enhancing performance, reliability, and efficiency.
editor by CX 2023-10-08
China high quality Industrial Robot Arm RV Reducer Gearbox gearbox engine
Product Description
Details Photos:
1.It is equipped with an angular contact ball bearing, so it can support the external load with the rigid moment and large allowable moment
2.Easy assemble, small vibration
3.It can reduce the motor straight junction (input gear) and inertia
4.Large torsional rigidity
5.Strong impact resistance (500% of rated torque)
6.The crankshaft is supported by 2 columns in the reducer
7.Excellent starting efficiency & Small wear and long service life
8.Small backlash (1arc. Min.) & Use rolling bearing
9.Strong impact resistance (500% of rated torque)
10.The number of simultaneous engagements between RV gear and needle teeth is large
Advantages:
1. High precision, high torque
2. Dedicated technical personnel can be on the go to provide design solutions
3. Factory direct sales fine workmanship durable quality assurance
4. Product quality issues have a one-year warranty time, can be returned for replacement or repair
Company profile:
HangZhou CHINAMFG Technology Co., Ltd. was established in 2014. Based on long-term accumulated experience in mechanical design and manufacturing, various types of harmonic reducers have been developed according to the different needs of customers. The company is in a stage of rapid development. , Equipment and personnel are constantly expanding. Now we have a group of experienced technical and managerial personnel, with advanced equipment, complete testing methods, and product manufacturing and design capabilities. Product design and production can be carried out according to customer needs, and a variety of high-precision transmission components such as harmonic reducers and RV reducers have been formed; the products have been sold in domestic and global(Such as USA, Germany, Turkey, India) and have been used in industrial robots, machine tools, medical equipment, laser processing, cutting, and dispensing, Brush making, LED equipment manufacturing, precision electronic equipment, and other industries have established a good reputation.
In the future, Hongwing will adhere to the purpose of gathering talents, keeping close to the market, and technological innovation, carry CHINAMFG the value pursuit in the field of harmonic drive&RV reducers, seek the common development of the company and the society, and quietly build itself into a CHINAMFG brand with independent intellectual property rights. Quality supplier in the field of precision transmission”.
Strength factory:
Our plant has an entire campus The number of workshops is around 300 Whether it’s from the production of raw materials and the procurement of raw materials to the inspection of finished products, we’re doing it ourselves. There is a complete production system
HST-I Parameter:
Rated Table | ||||||||||||||
Output rotational speed (rpm) | 5 | 10 | 15 | 20 | 25 | 30 | 40 | 50 | 60 | |||||
Model | Speed ratio code | Transmission Ratio(R) | Output Torque (Nm) / Enter the capacity (kW |
|||||||||||
Rotation of axes | Housing rotation | |||||||||||||
RV-6E | 31 | 31 | 30 | 101 / 0.07 |
81 / 0.11 |
72 / 0.15 |
66 / 0.19 |
62 / 0.22 |
58 / 0.25 |
54 / 0.30 |
50 / 0.35 |
47 / 0.40 |
||
43 | 43 | 42 | ||||||||||||
53.5 | 53.5 | 52.5 | ||||||||||||
59 | 59 | 58 | ||||||||||||
79 | 79 | 78 | ||||||||||||
103 | 103 | 102 | ||||||||||||
RV-20E | 57 | 57 | 56 | 231 / 0.16 |
188 / 0.26 |
167 / 0.35 |
153 / 0.43 |
143 / 0.50 |
135 / 0.57 |
124 / 0.70 |
115 / 0.81 |
110 / 0.92 |
||
81 | 81 | 80 | ||||||||||||
105 | 105 | 104 | ||||||||||||
121 | 121 | 120 | ||||||||||||
141 | 141 | 140 | ||||||||||||
161 | 161 | 160 | ||||||||||||
RV-40E | 57 | 57 | 56 | 572 / 0.40 |
465 / 0.65 |
412 / 0.86 |
377 / 1.05 |
353 / 1.23 |
334 / 1.40 |
307 / 1.71 |
287 / 2.00 |
271 / 2.27 |
||
81 | 81 | 80 | ||||||||||||
105 | 105 | 104 | ||||||||||||
121 | 121 | 120 | ||||||||||||
153 | 153 | 152 | ||||||||||||
RV-80E | 57 | 57 | 56 | 1,088 / 0.76 |
885 / 1.24 |
784 / 1.64 |
719 / 2.01 |
672 / 2.35 |
637 / 2.67 |
584 / 3.26 |
546 / 3.81 |
517 / 4.33 |
||
81 | 81 | 80 | ||||||||||||
101 | 101 | 100 | ||||||||||||
121 | 121 | 120 | ||||||||||||
153 | 1(153) | 1(152) | ||||||||||||
RV-110E | 81 | 81 | 80 | 1,499 / 1.05 |
1,215 / 1.70 |
1,078 / 2.26 |
990 / 2.76 |
925 / 3.23 |
875 / 3.67 |
804 / 4.49 |
||||
111 | 111 | 110 | ||||||||||||
161 | 161 | 160 | ||||||||||||
175 | 1227/7 | 1220/7 | ||||||||||||
RV-160E | 81 | 81 | 80 | 2,176 / 1.52 |
1,774 / 2.48 |
1,568 / 3.28 |
1,441 / 4.02 |
1,343 / 4.69 |
1,274 / 5.34 |
|||||
101 | 101 | 100 | ||||||||||||
129 | 129 | 128 | ||||||||||||
145 | 145 | 144 | ||||||||||||
171 | 171 | 170 | ||||||||||||
RV-320E | 81 | 81 | 80 | 4,361 / 3.04 |
3,538 / 4.94 |
3,136 / 6.57 |
2,881 / 8.05 |
2,695 / 9.41 |
2,548 / 10.7 |
|||||
101 | 101 | 100 | ||||||||||||
118.5 | 118.5 | 117.5 | ||||||||||||
129 | 129 | 128 | ||||||||||||
141 | 141 | 140 | ||||||||||||
171 | 171 | 170 | ||||||||||||
185 | 185 | 184 | ||||||||||||
RV-450E | 81 | 81 | 80 | 6,135 / 4.28 |
4,978 / 6.95 |
4,410 / 9.24 |
4,047 / 11.3 |
3,783 / 13.2 |
||||||
101 | 101 | 100 | ||||||||||||
118.5 | 118.5 | 117.5 | ||||||||||||
129 | 129 | 128 | ||||||||||||
154.8 | 2013/13 | 2000/13 | ||||||||||||
171 | 171 | 170 | ||||||||||||
192 | 1347/7 | 1340/7 | ||||||||||||
Note: 1. The allowable output speed is affected by duty cycle, load, and ambient temperature. When the allowable output speed is above NS1, please consult our company about the precautions. 2. Calculate the input capacity (kW) by the following formula. |
||||||||||||||
Input capacity (kW) =(2π*N*T)/(60*η/100*10*10*10) | N: output speed (RPM) T: output torque (nm) η = 75: reducer efficiency (%) |
|||||||||||||
The input capacity is the reference value. 3. When using the reducer at a low temperature, the no-load running torque will increase, so please pay attention when selecting the motor. (refer to p.93 low-temperature characteristics) |
T0 Rated torque(Remark .7) |
N0 Rated output speed |
K Rated life |
TS1 Allowable starting and stopping torque |
TS2 Instantaneous maximum allowable torque |
NS0 Allowable maximum output speed (Remark .1) |
Backlash | Empty distance MAX. | Angle transmission error MAX. | A representative value of starting efficiency | MO1 Allowable moment (Remark .4) |
MO2 Instantaneous maximum allowable moment |
Wr Allowable radial load (Remark .10) |
I Converted value of inertia moment input shaft (Remark .5) |
Weight |
(Nm) | (rpm) | (h) | (Nm) | (Nm) | (r/min) | (arc.sec.) | (arc.min.) | (arc.sec.) | (%) | (Nm) | (Nm) | (N) | (kgm2) | (kg) |
58 | 30 | 6,000 | 117 | 294 | 100 | 1.5 | 1.5 | 80 | 70 | 196 | 392 | 2,140 | 2.63×10-6 | 2.5 |
2.00×10-6 | ||||||||||||||
1.53×10-6 | ||||||||||||||
1.39×10-6 | ||||||||||||||
1.09×10-6 | ||||||||||||||
0.74×10-6 | ||||||||||||||
167 | 15 | 6,000 | 412 | 833 | 75 | 1.0 | 1.0 | 70 | 75 | 882 | 1,764 | 7,785 | 9.66×10-6 | 4.7 |
6.07×10-6 | ||||||||||||||
4.32×10-6 | ||||||||||||||
3.56×10-6 | ||||||||||||||
2.88×10-6 | ||||||||||||||
2.39×10-6 | ||||||||||||||
412 | 15 | 6,000 | 1,571 | 2,058 | 70 | 1.0 | 1.0 | 60 | 85 | 1,666 | 3,332 | 11,594 | 3.25×10-5 | 9.3 |
2.20×10-5 | ||||||||||||||
1.63×10-5 | ||||||||||||||
1.37×10-5 | ||||||||||||||
1.01×10-5 | ||||||||||||||
784 | 15 | 6,000 | 1,960 | Bolt tightening 3920 | 70 | 1.0 | 1.0 | 50 | 85 | Bolt fastening 2156 | Bolt tightening | Bolt tightening 12988 | 8.16×10-5 | Bolt tightening 13.1 |
6.00×10-5 | ||||||||||||||
4.82×10-5 | ||||||||||||||
Pin combination 3185 | Pin combination 1735 | Pin combination 2156 | Pin combination 1571 | Pin combination 12.7 | ||||||||||
3.96×10-5 | ||||||||||||||
2.98×10-5 | ||||||||||||||
1,078 | 15 | 6,000 | 2,695 | 5,390 | 50 | 1.0 | 1.0 | 50 | 85 | 2,940 | 5,880 | 16,648 | 9.88×10-5 | 17.4 |
6.96×10-5 | ||||||||||||||
4.36×10-5 | ||||||||||||||
3.89×10-5 | ||||||||||||||
1,568 | 15 | 6,000 | 3,920 | Bolt tightening 7840 | 45 | 1.0 | 1.0 | 50 | 85 | 3,920 | Bolt tightening 7840 | 18,587 | 1.77×10-4 | 26.4 |
1.40×10-4 | ||||||||||||||
1.06×10-4 | ||||||||||||||
Pin and use 6615 | Pin and use 6762 | |||||||||||||
0.87×10-4 | ||||||||||||||
0.74×10-4 | ||||||||||||||
3,136 | 15 | 6,000 | 7,840 | Bolt tightening 15680 | 35 | 1.0 | 1.0 | 50 | 80 | Bolt tightening 7056 | Bolt tightening 14112 | Bolt tightening 28067 | 4.83×10-4 | 44.3 |
3.79×10-4 | ||||||||||||||
3.15×10-4 | ||||||||||||||
2.84×10-4 | ||||||||||||||
Pin combination 12250 | Pin combination 6174 | Pin and use 1571 | Pin combination 24558 | |||||||||||
2.54×10-4 | ||||||||||||||
1.97×10-4 | ||||||||||||||
1.77×10-4 | ||||||||||||||
4,410 | 15 | 6,000 | 11,571 | Bolt tightening 22050 | 25 | 1.0 | 1.0 | 50 | 85 | 8,820 | Bolt tightening 17640 | 30,133 | 8.75×10-4 | 66.4 |
6.91×10-4 | ||||||||||||||
5.75×10-4 | ||||||||||||||
5.20×10-4 | ||||||||||||||
Pin and use 18620 | Pin and use 13524 | |||||||||||||
4.12×10-4 | ||||||||||||||
3.61×10-4 | ||||||||||||||
3.07×10-4 | ||||||||||||||
4. The allowable torque will vary according to the thrust load. Please confirm by the allowable moment line diagram (p.91). 5. The value of inertia moment is the value of the reducer body. The moment of inertia of the input gear is not included. 6. For moment stiffness and torsion stiffness, please refer to the calculation of inclination angle and torsion angle (p.99). 7. Rated torque refers to the torque value reflecting the rated life at rated output speed, not the data showing the upper limit of load. Please refer to the glossary (p.81) and product selection flow chart (p.82). 8. If you want to buy products other than the above speed ratio, please consult our company. 9. The above specifications are obtained according to the company’s evaluation method. Please confirm that the product meets the use conditions of carrying real aircraft before use. 10. When a radial load is applied to dimension B, please use it within the allowable radial load range. 11. 1 RV-80e r = 153 is only output shaft bolt fastening type( P.20,21) |
APPLICATIONS:
FQA:
Q: What should I provide when I choose a gearbox/speed reducer?
A: The best way is to provide the motor drawing with parameters. Our engineer will check and recommend the most suitable gearbox model for your reference.
Or you can also provide the below specification as well:
1) Type, model, and torque.
2) Ratio or output speed
3) Working condition and connection method
4) Quality and installed machine name
5) Input mode and input speed
6) Motor brand model or flange and motor shaft size
Application: | Motor, Motorcycle, Machinery, Agricultural Machinery |
---|---|
Hardness: | Hardened Tooth Surface |
Installation: | Horizontal Type |
Layout: | Coaxial |
Gear Shape: | Cylindrical Gear |
Step: | Single-Step |
Samples: |
US$ 600/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Enhancing Efficiency of Conveyor Systems and Manufacturing with Industrial Gearboxes
Industrial gearboxes play a crucial role in enhancing the efficiency of conveyor systems and manufacturing processes. They offer several benefits that contribute to smoother operations and improved productivity:
- Torque Multiplication: Industrial gearboxes allow for torque multiplication, enabling conveyor systems to handle heavy loads with ease. This ensures consistent and reliable movement of materials along the conveyor belts.
- Speed Control: Gearboxes provide precise speed control, allowing manufacturers to adjust the conveyor’s speed according to the specific production requirements. This helps optimize the manufacturing process by maintaining a steady flow of materials.
- Reduced Downtime: By efficiently transmitting power and torque, industrial gearboxes minimize wear and tear on conveyor components. This results in reduced maintenance and downtime, leading to increased operational uptime.
- Motion Synchronization: Gearboxes enable synchronized movement of multiple conveyor belts or other manufacturing components. This synchronization ensures that various stages of the manufacturing process are properly coordinated, reducing bottlenecks and errors.
- Energy Efficiency: Industrial gearboxes help optimize energy consumption by converting high-speed input power to the appropriate output speed for the application. This energy-efficient conversion contributes to cost savings and sustainability.
- Precision and Accuracy: Gearboxes provide precise motion control, which is essential for manufacturing processes that require accurate positioning, cutting, shaping, or assembly. This precision enhances the quality of the final products.
- Adaptability: Industrial gearboxes can be customized to match the specific requirements of conveyor systems and manufacturing equipment. This adaptability ensures that gearboxes can effectively handle a wide range of tasks and applications.
Whether it’s in material handling or manufacturing, industrial gearboxes enable conveyor systems to operate seamlessly, promoting efficient production processes, reduced operational costs, and enhanced product quality.
Efficient Power Distribution and Motion Control with Industrial Gearboxes
Industrial gearboxes play a crucial role in ensuring efficient power distribution and precise motion control within mechanical systems. Here’s how they achieve these functions:
- Power Transmission: Industrial gearboxes efficiently transfer power from the input shaft to the output shaft through a series of gears with different tooth configurations. The gears mesh and transmit torque, allowing power to be distributed and converted at the desired speed and torque levels.
- Gear Ratio Selection: By choosing appropriate gear ratios, industrial gearboxes enable the adjustment of output speed and torque according to the application’s requirements. This flexibility allows for efficient power distribution based on specific operational needs.
- Reduction of Speed: In cases where high-speed input needs to be converted into low-speed output with increased torque, gearboxes use gear reduction to achieve the desired motion control. This is particularly beneficial for heavy-duty applications requiring precision and controlled movement.
- Increase in Torque: Conversely, industrial gearboxes can increase torque while reducing speed, which is valuable for applications requiring high force output, such as heavy lifting or material processing.
- Motion Control: Gearboxes provide precise control over the motion of machinery by adjusting speed and torque. This is essential for tasks that demand accurate positioning, synchronization, and coordination of components.
- Directional Changes: Some gearbox designs, such as bevel or worm gearboxes, enable changes in motion direction. This capability is crucial for applications involving complex motion patterns or reversing movements.
- Consistency and Reliability: Industrial gearboxes ensure consistent power distribution and motion control over prolonged periods, contributing to the reliability and stability of mechanical systems.
Overall, industrial gearboxes optimize power distribution and motion control, enhancing the efficiency, accuracy, and performance of various machinery and equipment across different industries.
Industrial Gearbox: Definition and Applications
An industrial gearbox is a mechanical device designed to transmit power and torque between input and output shafts while changing the speed and direction of rotation. It consists of a set of gears enclosed in a housing to protect the components and facilitate lubrication. Industrial gearboxes find wide-ranging applications across various industries:
- Manufacturing: Gearboxes are used in manufacturing processes for tasks like material handling, conveyor systems, and assembly line automation.
- Energy Generation: Wind turbines, hydroelectric plants, and thermal power plants utilize gearboxes to adapt rotational speeds and transmit power between turbines and generators.
- Construction: In construction equipment such as cranes, excavators, and concrete mixers, gearboxes play a crucial role in converting engine power into mechanical motion.
- Automotive: Vehicles require gearboxes to transfer power from engines to wheels, providing various speed options for different driving conditions.
- Agriculture: Tractors and agricultural machinery utilize gearboxes for tasks like plowing, seeding, and harvesting.
- Mining: Mining equipment, including conveyor systems and heavy machinery, rely on gearboxes to handle the demanding conditions of mineral extraction.
- Marine: Gearboxes are essential in marine applications, such as propulsion systems for ships and boats.
- Food and Beverage: Conveyors, mixers, and processing equipment in the food and beverage industry utilize gearboxes for controlled movement and processing.
- Oil and Gas: Drilling rigs, pumps, and extraction machinery in the oil and gas sector use gearboxes to handle high torque and speed requirements.
Industrial gearboxes ensure efficient power transmission and enable machinery to perform specific tasks at optimal speeds. Their versatility and reliability make them integral components in various industrial processes and equipment.
editor by CX 2023-09-28
China Zero Backlash Harmonic Drive Speed Reducer Harmonic Gearbox for Robot Arm with Great quality
Item Description
Merchandise Description:
1. Flexspline is a hollow flanging normal cylinder structure.
two. There is a huge-diameter hollow shaft hole in the center of the cam of the wave generator. The interior design of the reducer has a support bearing.
3. It has a entirely sealed composition and is straightforward to put in. It is extremely suited for events in which the wire requirements to be threaded from the center of the reducer.
Positive aspects:
one. Higher precision,large torque
two. Focused specialized personnel can be on-the-go to supply layout solutions
3. Manufacturing facility direct income wonderful workmanship tough top quality assurance
4. Merchandise quality issues have a a single-calendar year guarantee time, can be returned for substitution or fix
Business profile:
HangZhou CZPT Technologies Co., Ltd. recognized in 2014, is committed to the R & D plant of higher-precision transmission components. At present, the once-a-year manufacturing potential can reach 45000 sets of harmonic reducers. We firmly imagine in top quality first. All backlinks from raw supplies to concluded items are strictly supervised and managed, which offers a strong basis for solution high quality. Our products are sold all more than the nation and overseas.
The harmonic reducer and other large-precision transmission factors ended up independently created by the firm. Our business spends twenty% of its product sales every calendar year on the analysis and improvement of new systems in the business. There are 5 men and women in R & D.
Our advantage is as underneath:
1.7 a long time of advertising and marketing experience
two. 5-particular person R & D crew to supply you with technological assistance
3. It is bought at house and abroad and exported to Turkey and Eire
4. The solution high quality is confirmed with a 1-year guarantee
5. Goods can be tailored
Toughness manufacturing facility:
Our plant has an entire campus The variety of workshops is all around 300 Whether it truly is from the manufacturing of raw resources and the procurement of raw resources to the inspection of finished merchandise, we’re doing it ourselves. There is a total manufacturing system
HST-III Parameter:
Model | Speed ratio | Enter the rated torque at 2000r/min | Allowed CZPT torque at start off cease | The allowable maximum of the regular load torque | Maximum torque is allowed in an instantaneous | Let the highest speed to be entered | Common input pace is authorized | Back gap | layout existence | ||||
NM | kgfm | NM | kgfm | NM | kgfm | NM | kgfm | r / min | r / min | Arc sec | Hour | ||
14 | fifty | six.two | .6 | twenty.7 | 2.one | seven.nine | .seven | 40.three | 4.one | 7000 | 3000 | ≤30 | 10000 |
eighty | 9 | .9 | 27 | two.seven | twelve.seven | 1.three | fifty four.one | five.five | |||||
a hundred | 9 | .9 | 32 | 3.three | 12.seven | 1.three | sixty two.one | 6.3 | |||||
17 | fifty | eighteen.4 | 1.nine | 39 | four | 29.nine | 3 | 80.5 | 8.two | 6500 | 3000 | ≤30 | 15000 |
eighty | twenty five.three | 2.6 | 49.five | five | 31 | 3.2 | one hundred.1 | 10.two | |||||
100 | 27.6 | two.8 | sixty two | 6.3 | forty five | 4.six | 124.2 | twelve.seven | |||||
20 | 50 | 28.8 | 2.9 | 64.four | 6.six | 39 | four | 112.7 | eleven.5 | 5600 | 3000 | ≤30 | 15000 |
80 | 39.one | four | 85 | eight.8 | 54 | five.5 | 146.1 | fourteen.nine | |||||
one hundred | 46 | four.7 | 94.3 | 9.6 | fifty six | five.8 | 169.one | 17.two | |||||
a hundred and twenty | 46 | four.seven | 100 | ten.two | 56 | five.eight | 169.1 | 17.two | |||||
160 | 46 | 4.seven | one hundred | 10.two | 56 | five.8 | 169.one | seventeen.2 | |||||
25 | fifty | forty four.nine | four.six | 113 | 11.5 | sixty three | 6.5 | 213.9 | 21.eight | 4800 | 3000 | ≤30 | 15000 |
eighty | seventy two.5 | 7.4 | 158 | sixteen.one | 100 | ten.2 | 293.3 | 29.nine | |||||
a hundred | seventy seven.one | seven.9 | 181 | eighteen.4 | 124 | 12.7 | 326.six | 33.three | |||||
one hundred twenty | 77.1 | seven.9 | 192 | 19.6 | 124 | 12.7 | 349.6 | 35.6 | |||||
32 | 50 | 87.four | 8.nine | 248 | 25.3 | 124 | 12.7 | 439 | forty four.eight | 4000 | 3000 | ≤30 | 15000 |
eighty | one hundred thirty five.seven | thirteen.eight | 350 | 35.six | 192 | 19.6 | 653 | 66.6 | |||||
one hundred | 157.six | 16.1 | 383 | 39.one | 248 | twenty five.3 | 744 | seventy five.nine | |||||
40 | a hundred | 308 | 37.two | 660 | 67 | 432 | 44 | 1232 | 126.seven | 4000 | 3000 | ≤30 | 15000 |
HSG Parameter:
Model | Speed ratio | Enter the rated torque at 2000r/min | Allowed CZPT torque at begin stop | The allowable maximum of the average load torque | Maximum torque is allowed in an instant | Permit the maximum pace to be entered | Common enter pace is allowed | Again gap | layout life | ||||
NM | kgfm | NM | kgfm | NM | kgfm | NM | kgfm | r / min | r / min | Arc sec | Hour | ||
14 | 50 | seven | .7 | 23 | 2.three | 9 | .nine | 46 | four.7 | 14000 | 8500 | ≤20 | 15000 |
80 | 10 | one | 30 | three.one | 14 | 1.four | sixty one | 6.two | |||||
one hundred | ten | 1 | 36 | 3.seven | 14 | one.four | 70 | seven.2 | |||||
17 | 50 | 21 | 2.1 | forty four | four.five | 34 | 3.4 | 91 | nine | 10000 | 7300 | ≤20 | 20000 |
80 | 29 | 2.nine | fifty six | five.7 | 35 | three.six | 113 | 12 | |||||
100 | 31 | 3.2 | 70 | 7.2 | 51 | 5.2 | 143 | 15 | |||||
20 | 50 | 33 | 3.three | seventy three | 7.four | forty four | 4.five | 127 | 13 | 10000 | 6500 | ≤20 | 20000 |
eighty | forty four | four.five | 96 | nine.8 | 61 | six.2 | a hundred sixty five | seventeen | |||||
one hundred | fifty two | 5.3 | 107 | ten.nine | 64 | six.five | 191 | 20 | |||||
one hundred twenty | fifty two | 5.three | 113 | 11.five | 64 | six.five | 191 | twenty | |||||
160 | 52 | five.three | a hundred and twenty | 12.two | 64 | six.5 | 191 | twenty | |||||
25 | fifty | 51 | five.2 | 127 | 13 | 72 | 7.3 | 242 | twenty five | 7500 | 5600 | ≤20 | 20000 |
eighty | eighty two | 8.4 | 178 | 18 | 113 | 12 | 332 | 34 | |||||
a hundred | 87 | 8.9 | 204 | 21 | a hundred and forty | fourteen | 369 | 38 | |||||
a hundred and twenty | 87 | eight.9 | 217 | 22 | 140 | fourteen | 395 | 40 | |||||
32 | 50 | ninety nine | 10 | 281 | 29 | one hundred forty | 14 | 497 | 51 | 7000 | 4800 | ≤20 | 20000 |
eighty | 153 | 16 | 395 | forty | 217 | 22 | 738 | seventy five | |||||
a hundred | 178 | eighteen | 433 | forty four | 281 | 29 | 841 | 86 | |||||
forty | 100 | 345 | 35 | 738 | 75 | 484 | forty nine | 1400 | 143 | 5600 | 4000 | ≤20 | 20000 |
Exhibitions:
Application situation:
FQA:
Q: What need to I give when I choose a gearbox/pace reducer?
A: The greatest way is to give the motor drawing with parameters. Our engineer will check out and advise the most appropriate gearbox product for your reference.
Or you can also offer the underneath specification as nicely:
one) Sort, product, and torque.
2) Ratio or output pace
3) Operating issue and relationship strategy
4) Top quality and installed machine title
five) Input method and enter velocity
6) Motor brand model or flange and motor shaft size
US $349.2 / Piece | |
1 Piece (Min. Order) |
###
Application: | Motor, Machinery, Agricultural Machinery, Hst-I |
---|---|
Hardness: | Hardened Tooth Surface |
Installation: | 90 Degree |
Layout: | Coaxial |
Gear Shape: | Cylindrical Gear |
Step: | Single-Step |
###
Samples: |
US$ 100/Piece
1 Piece(Min.Order) |
---|
###
Customization: |
Available
|
---|
###
Model | Speed ratio | Enter the rated torque at 2000r/min | Allowed peak torque at start stop | The allowable maximum of the average load torque | Maximum torque is allowed in an instant | Allow the maximum speed to be entered | Average input speed is allowed | Back gap | design life | ||||
NM | kgfm | NM | kgfm | NM | kgfm | NM | kgfm | r / min | r / min | Arc sec | Hour | ||
14 | 50 | 6.2 | 0.6 | 20.7 | 2.1 | 7.9 | 0.7 | 40.3 | 4.1 | 7000 | 3000 | ≤30 | 10000 |
80 | 9 | 0.9 | 27 | 2.7 | 12.7 | 1.3 | 54.1 | 5.5 | |||||
100 | 9 | 0.9 | 32 | 3.3 | 12.7 | 1.3 | 62.1 | 6.3 | |||||
17 | 50 | 18.4 | 1.9 | 39 | 4 | 29.9 | 3 | 80.5 | 8.2 | 6500 | 3000 | ≤30 | 15000 |
80 | 25.3 | 2.6 | 49.5 | 5 | 31 | 3.2 | 100.1 | 10.2 | |||||
100 | 27.6 | 2.8 | 62 | 6.3 | 45 | 4.6 | 124.2 | 12.7 | |||||
20 | 50 | 28.8 | 2.9 | 64.4 | 6.6 | 39 | 4 | 112.7 | 11.5 | 5600 | 3000 | ≤30 | 15000 |
80 | 39.1 | 4 | 85 | 8.8 | 54 | 5.5 | 146.1 | 14.9 | |||||
100 | 46 | 4.7 | 94.3 | 9.6 | 56 | 5.8 | 169.1 | 17.2 | |||||
120 | 46 | 4.7 | 100 | 10.2 | 56 | 5.8 | 169.1 | 17.2 | |||||
160 | 46 | 4.7 | 100 | 10.2 | 56 | 5.8 | 169.1 | 17.2 | |||||
25 | 50 | 44.9 | 4.6 | 113 | 11.5 | 63 | 6.5 | 213.9 | 21.8 | 4800 | 3000 | ≤30 | 15000 |
80 | 72.5 | 7.4 | 158 | 16.1 | 100 | 10.2 | 293.3 | 29.9 | |||||
100 | 77.1 | 7.9 | 181 | 18.4 | 124 | 12.7 | 326.6 | 33.3 | |||||
120 | 77.1 | 7.9 | 192 | 19.6 | 124 | 12.7 | 349.6 | 35.6 | |||||
32 | 50 | 87.4 | 8.9 | 248 | 25.3 | 124 | 12.7 | 439 | 44.8 | 4000 | 3000 | ≤30 | 15000 |
80 | 135.7 | 13.8 | 350 | 35.6 | 192 | 19.6 | 653 | 66.6 | |||||
100 | 157.6 | 16.1 | 383 | 39.1 | 248 | 25.3 | 744 | 75.9 | |||||
40 | 100 | 308 | 37.2 | 660 | 67 | 432 | 44 | 1232 | 126.7 | 4000 | 3000 | ≤30 | 15000 |
###
Model | Speed ratio | Enter the rated torque at 2000r/min | Allowed peak torque at start stop | The allowable maximum of the average load torque | Maximum torque is allowed in an instant | Allow the maximum speed to be entered | Average input speed is allowed | Back gap | design life | ||||
NM | kgfm | NM | kgfm | NM | kgfm | NM | kgfm | r / min | r / min | Arc sec | Hour | ||
14 | 50 | 7 | 0.7 | 23 | 2.3 | 9 | 0.9 | 46 | 4.7 | 14000 | 8500 | ≤20 | 15000 |
80 | 10 | 1 | 30 | 3.1 | 14 | 1.4 | 61 | 6.2 | |||||
100 | 10 | 1 | 36 | 3.7 | 14 | 1.4 | 70 | 7.2 | |||||
17 | 50 | 21 | 2.1 | 44 | 4.5 | 34 | 3.4 | 91 | 9 | 10000 | 7300 | ≤20 | 20000 |
80 | 29 | 2.9 | 56 | 5.7 | 35 | 3.6 | 113 | 12 | |||||
100 | 31 | 3.2 | 70 | 7.2 | 51 | 5.2 | 143 | 15 | |||||
20 | 50 | 33 | 3.3 | 73 | 7.4 | 44 | 4.5 | 127 | 13 | 10000 | 6500 | ≤20 | 20000 |
80 | 44 | 4.5 | 96 | 9.8 | 61 | 6.2 | 165 | 17 | |||||
100 | 52 | 5.3 | 107 | 10.9 | 64 | 6.5 | 191 | 20 | |||||
120 | 52 | 5.3 | 113 | 11.5 | 64 | 6.5 | 191 | 20 | |||||
160 | 52 | 5.3 | 120 | 12.2 | 64 | 6.5 | 191 | 20 | |||||
25 | 50 | 51 | 5.2 | 127 | 13 | 72 | 7.3 | 242 | 25 | 7500 | 5600 | ≤20 | 20000 |
80 | 82 | 8.4 | 178 | 18 | 113 | 12 | 332 | 34 | |||||
100 | 87 | 8.9 | 204 | 21 | 140 | 14 | 369 | 38 | |||||
120 | 87 | 8.9 | 217 | 22 | 140 | 14 | 395 | 40 | |||||
32 | 50 | 99 | 10 | 281 | 29 | 140 | 14 | 497 | 51 | 7000 | 4800 | ≤20 | 20000 |
80 | 153 | 16 | 395 | 40 | 217 | 22 | 738 | 75 | |||||
100 | 178 | 18 | 433 | 44 | 281 | 29 | 841 | 86 | |||||
40 | 100 | 345 | 35 | 738 | 75 | 484 | 49 | 1400 | 143 | 5600 | 4000 | ≤20 | 20000 |
US $349.2 / Piece | |
1 Piece (Min. Order) |
###
Application: | Motor, Machinery, Agricultural Machinery, Hst-I |
---|---|
Hardness: | Hardened Tooth Surface |
Installation: | 90 Degree |
Layout: | Coaxial |
Gear Shape: | Cylindrical Gear |
Step: | Single-Step |
###
Samples: |
US$ 100/Piece
1 Piece(Min.Order) |
---|
###
Customization: |
Available
|
---|
###
Model | Speed ratio | Enter the rated torque at 2000r/min | Allowed peak torque at start stop | The allowable maximum of the average load torque | Maximum torque is allowed in an instant | Allow the maximum speed to be entered | Average input speed is allowed | Back gap | design life | ||||
NM | kgfm | NM | kgfm | NM | kgfm | NM | kgfm | r / min | r / min | Arc sec | Hour | ||
14 | 50 | 6.2 | 0.6 | 20.7 | 2.1 | 7.9 | 0.7 | 40.3 | 4.1 | 7000 | 3000 | ≤30 | 10000 |
80 | 9 | 0.9 | 27 | 2.7 | 12.7 | 1.3 | 54.1 | 5.5 | |||||
100 | 9 | 0.9 | 32 | 3.3 | 12.7 | 1.3 | 62.1 | 6.3 | |||||
17 | 50 | 18.4 | 1.9 | 39 | 4 | 29.9 | 3 | 80.5 | 8.2 | 6500 | 3000 | ≤30 | 15000 |
80 | 25.3 | 2.6 | 49.5 | 5 | 31 | 3.2 | 100.1 | 10.2 | |||||
100 | 27.6 | 2.8 | 62 | 6.3 | 45 | 4.6 | 124.2 | 12.7 | |||||
20 | 50 | 28.8 | 2.9 | 64.4 | 6.6 | 39 | 4 | 112.7 | 11.5 | 5600 | 3000 | ≤30 | 15000 |
80 | 39.1 | 4 | 85 | 8.8 | 54 | 5.5 | 146.1 | 14.9 | |||||
100 | 46 | 4.7 | 94.3 | 9.6 | 56 | 5.8 | 169.1 | 17.2 | |||||
120 | 46 | 4.7 | 100 | 10.2 | 56 | 5.8 | 169.1 | 17.2 | |||||
160 | 46 | 4.7 | 100 | 10.2 | 56 | 5.8 | 169.1 | 17.2 | |||||
25 | 50 | 44.9 | 4.6 | 113 | 11.5 | 63 | 6.5 | 213.9 | 21.8 | 4800 | 3000 | ≤30 | 15000 |
80 | 72.5 | 7.4 | 158 | 16.1 | 100 | 10.2 | 293.3 | 29.9 | |||||
100 | 77.1 | 7.9 | 181 | 18.4 | 124 | 12.7 | 326.6 | 33.3 | |||||
120 | 77.1 | 7.9 | 192 | 19.6 | 124 | 12.7 | 349.6 | 35.6 | |||||
32 | 50 | 87.4 | 8.9 | 248 | 25.3 | 124 | 12.7 | 439 | 44.8 | 4000 | 3000 | ≤30 | 15000 |
80 | 135.7 | 13.8 | 350 | 35.6 | 192 | 19.6 | 653 | 66.6 | |||||
100 | 157.6 | 16.1 | 383 | 39.1 | 248 | 25.3 | 744 | 75.9 | |||||
40 | 100 | 308 | 37.2 | 660 | 67 | 432 | 44 | 1232 | 126.7 | 4000 | 3000 | ≤30 | 15000 |
###
Model | Speed ratio | Enter the rated torque at 2000r/min | Allowed peak torque at start stop | The allowable maximum of the average load torque | Maximum torque is allowed in an instant | Allow the maximum speed to be entered | Average input speed is allowed | Back gap | design life | ||||
NM | kgfm | NM | kgfm | NM | kgfm | NM | kgfm | r / min | r / min | Arc sec | Hour | ||
14 | 50 | 7 | 0.7 | 23 | 2.3 | 9 | 0.9 | 46 | 4.7 | 14000 | 8500 | ≤20 | 15000 |
80 | 10 | 1 | 30 | 3.1 | 14 | 1.4 | 61 | 6.2 | |||||
100 | 10 | 1 | 36 | 3.7 | 14 | 1.4 | 70 | 7.2 | |||||
17 | 50 | 21 | 2.1 | 44 | 4.5 | 34 | 3.4 | 91 | 9 | 10000 | 7300 | ≤20 | 20000 |
80 | 29 | 2.9 | 56 | 5.7 | 35 | 3.6 | 113 | 12 | |||||
100 | 31 | 3.2 | 70 | 7.2 | 51 | 5.2 | 143 | 15 | |||||
20 | 50 | 33 | 3.3 | 73 | 7.4 | 44 | 4.5 | 127 | 13 | 10000 | 6500 | ≤20 | 20000 |
80 | 44 | 4.5 | 96 | 9.8 | 61 | 6.2 | 165 | 17 | |||||
100 | 52 | 5.3 | 107 | 10.9 | 64 | 6.5 | 191 | 20 | |||||
120 | 52 | 5.3 | 113 | 11.5 | 64 | 6.5 | 191 | 20 | |||||
160 | 52 | 5.3 | 120 | 12.2 | 64 | 6.5 | 191 | 20 | |||||
25 | 50 | 51 | 5.2 | 127 | 13 | 72 | 7.3 | 242 | 25 | 7500 | 5600 | ≤20 | 20000 |
80 | 82 | 8.4 | 178 | 18 | 113 | 12 | 332 | 34 | |||||
100 | 87 | 8.9 | 204 | 21 | 140 | 14 | 369 | 38 | |||||
120 | 87 | 8.9 | 217 | 22 | 140 | 14 | 395 | 40 | |||||
32 | 50 | 99 | 10 | 281 | 29 | 140 | 14 | 497 | 51 | 7000 | 4800 | ≤20 | 20000 |
80 | 153 | 16 | 395 | 40 | 217 | 22 | 738 | 75 | |||||
100 | 178 | 18 | 433 | 44 | 281 | 29 | 841 | 86 | |||||
40 | 100 | 345 | 35 | 738 | 75 | 484 | 49 | 1400 | 143 | 5600 | 4000 | ≤20 | 20000 |
What Is a Gearbox?
There are several factors to consider when choosing a gearbox. Backlash, for example, is a consideration, as it is the angle at which the output shaft can rotate without the input shaft moving. While this isn’t necessary in applications without load reversals, it is important for precision applications involving load reversals. Examples of these applications include automation and robotics. If backlash is a concern, you may want to look at other factors, such as the number of teeth in each gear.
Function of a gearbox
A gearbox is a mechanical unit that consists of a chain or set of gears. The gears are mounted on a shaft and are supported by rolling element bearings. These devices alter the speed or torque of the machine they are used in. Gearboxes can be used for a wide variety of applications. Here are some examples of how gearboxes function. Read on to discover more about the gears that make up a gearbox.
Regardless of the type of transmission, most gearboxes are equipped with a secondary gear and a primary one. While the gear ratios are the same for both the primary and secondary transmission, the gearboxes may differ in size and efficiency. High-performance racing cars typically employ a gearbox with two green and one blue gear. Gearboxes are often mounted in the front or rear of the engine.
The primary function of a gearbox is to transfer torque from one shaft to another. The ratio of the driving gear’s teeth to the receiving member determines how much torque is transmitted. A large gear ratio will cause the main shaft to revolve at a slower speed and have a high torque compared to its counter shaft. Conversely, a low gear ratio will allow the vehicle to turn at a lower speed and produce a lower torque.
A conventional gearbox has input and output gears. The countershaft is connected to a universal shaft. The input and output gears are arranged to match the speed and torque of each other. The gear ratio determines how fast a car can go and how much torque it can generate. Most conventional transmissions use four gear ratios, with one reverse gear. Some have two shafts and three inputs. However, if the gear ratios are high, the engine will experience a loss of torque.
In the study of gearbox performance, a large amount of data has been collected. A highly ambitious segmentation process has yielded nearly 20,000 feature vectors. These results are the most detailed and comprehensive of all the available data. This research has a dual curse – the first is the large volume of data collected for the purpose of characterization, while the second is the high dimensionality. The latter is a complication that arises when the experimental gearbox is not designed to perform well.
Bzvacklash
The main function of a gearhead is to multiply a moment of force and create a mechanical advantage. However, backlash can cause a variety of issues for the system, including impaired positioning accuracy and lowered overall performance. A zero backlash gearbox can eliminate motion losses caused by backlash and improve overall system performance. Here are some common problems associated with backlash in gearheads and how to fix them. After you understand how to fix gearbox backlash, you’ll be able to design a machine that meets your requirements.
To reduce gearbox backlash, many designers try to decrease the center distance of the gears. This eliminates space for lubrication and promotes excessive tooth mesh, which leads to premature mesh failure. To minimize gearbox backlash, a gear manufacturer may separate the two parts of the gear and adjust the mesh center distance between them. To do this, rotate one gear with respect to the fixed gear, while adjusting the other gear’s effective tooth thickness.
Several manufacturing processes may introduce errors, and reducing tooth thickness will minimize this error. Gears with bevel teeth are a prime example of this. This type of gear features a small number of teeth in comparison to its mating gear. In addition to reducing tooth thickness, bevel gears also reduce backlash. While bevel gears have fewer teeth than their mating gear, all of their backlash allowance is applied to the larger gear.
A gear’s backlash can affect the efficiency of a gearbox. In an ideal gear, the backlash is zero. But if there is too much, backlash can cause damage to the gears and cause it to malfunction. Therefore, the goal of gearbox backlash is to minimize this problem. However, this may require the use of a micrometer. To determine how much gearbox backlash you need, you can use a dial gauge or feeler gauge.
If you’ve been looking for a way to reduce backlash, a gearbox’s backlash may be the answer. However, backlash is not a revolt against the manufacturer. It is an error in motion that occurs naturally in gear systems that change direction. If it is left unaccounted for, it can lead to major gear degradation and even compromise the entire system. In this article, we’ll explain how backlash affects gears and how it affects the performance of a gearbox.
Design
The design of gearboxes consists of a variety of factors, including the type of material used, power requirements, speed and reduction ratio, and the application for which the unit is intended. The process of designing a gearbox usually begins with a description of the machine or gearbox and its intended use. Other key parameters to consider during gearbox design include the size and weight of the gear, its overall gear ratio and number of reductions, as well as the lubrication methods used.
During the design process, the customer and supplier will participate in various design reviews. These include concept or initial design review, manufacturing design validation, critical design review, and final design review. The customer may also initiate the process by initiating a DFMEA. After receiving the initial design approval, the design will go through several iterations before the finalized design is frozen. In some cases, the customer will require a DFMEA of the gearbox.
The speed increaser gearboxes also require special design considerations. These gearboxes typically operate at high speeds, causing problems with gear dynamics. Furthermore, the high speeds of the unit increase frictional and drag forces. A proper design of this component should minimize the effect of these forces. To solve these problems, a gearbox should incorporate a brake system. In some cases, an external force may also increase frictional forces.
Various types of gear arrangements are used in gearboxes. The design of the teeth of the gears plays a significant role in defining the type of gear arrangement in the gearbox. Spur gear is an example of a gear arrangement, which has teeth that run parallel to the axis of rotation. These gears offer high gear ratios and are often used in multiple stages. So, it is possible to create a gearbox that meets the needs of your application.
The design of gearboxes is the most complex process in the engineering process. These complex devices are made of multiple types of gears and are mounted on shafts. They are supported by rolling element bearings and are used for a variety of applications. In general, a gearbox is used to reduce speed and torque and change direction. Gearboxes are commonly used in motor vehicles, but can also be found in pedal bicycles and fixed machines.
Manufacturers
There are several major segments in the gearbox market, including industrial, mining, and automotive. Gearbox manufacturers are required to understand the application and user industries to design a gearbox that meets their specific requirements. Basic knowledge of metallurgy is necessary. Multinational companies also provide gearbox solutions for the power generation industry, shipping industry, and automotive industries. To make their products more competitive, they need to focus on product innovation, geographical expansion, and customer retention.
The CZPT Group started as a small company in 1976. Since then, it has become a global reference in mechanical transmissions. Its production range includes gears, reduction gearboxes, and geared motors. The company was the first in Italy to achieve ISO certification, and it continues to grow into one of the world’s leading manufacturers of production gearboxes. As the industry evolves, CZPT focuses on research and development to create better products.
The agriculture industry uses gearboxes to implement a variety of processes. They are used in tractors, pumps, and agricultural machinery. The automotive industry uses gears in automobiles, but they are also found in mining and tea processing machinery. Industrial gearboxes also play an important role in feed and speed drives. The gearbox industry has a diverse portfolio of manufacturers and suppliers. Here are some examples of gearboxes:
Gearboxes are complex pieces of equipment. They must be used properly to optimize efficiency and extend their lifespan. Manufacturers employ advanced technology and strict quality control processes to ensure their products meet the highest standards. In addition to manufacturing precision and reliability, gearbox manufacturers ensure that their products are safe for use in the production of industrial machinery. They are also used in office machines and medical equipment. However, the automotive gearbox market is becoming increasingly competitive.
editor by czh 2023-01-31