Product Description
Product Description
China made NMRV30 series aluminium small worm gearboxs speed reducer for nema 23 stepper motor or BLDC motor
1. Made of high quality aluminum alloy, light in weight and non-rusting
2. Large in output torque
3. Smooth in running and low in noise, can work long time in dreadful conditions
4. High in radiating efficiency
5. Good looking in appearance, durable in service life and small in volume
6. Suitable for Omnibearing installation
KeyWords | NMRV Worm gear speed reducer |
Model | NMRV030 |
Ratio | 5/7.5/10/15/20/25/30/40/50/60/80 |
Color | Silver or CHINAMFG customer’s request |
Material of housing | Aluminium Alloy or Cast Iron |
Bearing | Input: C&U Output: TOWE |
Oil Seal | Input: SKF Output: NAK |
Lubricant | Synthetic or Mineral Oil |
Warranty | 1 year |
Packing | Carton and wooden case |
Mass | 1.54Kg |
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product assortment |
Service |
Customer service officer
Our customer service personnel are experienced product specialists who can answer your questions 7 days a week from 9 am to 5 pm. Contact us now. |
OEM / ODMOur professional staffs allow us to have the capability to design and manufacture a wide range of new items according to the buyer’s requirements. Our ability to provide buyers labels and design services for our clients make us an attractive choice. |
Firm teamTimes Brilliant is committed to delivery quality products. We guarantee our products to be free from manufacture defects. We offer one-month of return & exchange service, one-year of parts replacement and lifetime tech support |
Factory Tour |
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Application: | Electric Cars |
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Hardness: | Soft Tooth Surface |
Installation: | 90 Degree |
Layout: | Shunting |
Gear Shape: | Conical – Cylindrical Gear |
Step: | Three-Step |
Customization: |
Available
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How does the choice of winch drives affect the overall performance and reliability of lifting operations?
The choice of winch drives has a significant impact on the overall performance and reliability of lifting operations. Here’s a detailed explanation of how the choice of winch drives affects performance and reliability:
- Lifting Capacity:
The choice of winch drives directly affects the lifting capacity of the system. Different winch drives have varying load capacities, and selecting an appropriate winch drive that matches the intended lifting requirements is crucial. Choosing a winch drive with insufficient lifting capacity can result in overloading, which can lead to equipment failure, safety hazards, and potential damage to the load or surrounding structures. On the other hand, selecting a winch drive with a higher lifting capacity than necessary can lead to unnecessary costs and inefficient operation. Therefore, selecting the right winch drive with the appropriate lifting capacity is essential for optimal performance and reliability.
- Speed and Control:
The choice of winch drives also affects the speed and control of lifting operations. Different winch drives offer varying speed ranges and control options. High-quality winch drives provide smooth and precise speed control, allowing for accurate positioning and delicate handling of loads. The choice of winch drives with suitable speed and control capabilities ensures efficient and controlled lifting operations, reducing the risk of accidents, damage to the load, or strain on the lifting equipment. Additionally, winch drives with advanced control features, such as programmable logic controllers (PLCs) or electronic control systems, enhance operational reliability and performance by enabling synchronized movements and automation.
- Durability and Reliability:
The choice of winch drives significantly impacts the durability and reliability of lifting operations. High-quality winch drives constructed with robust materials and designed for heavy-duty applications offer enhanced durability and reliability. They can withstand the demanding conditions and stress associated with lifting operations, minimizing the risk of breakdowns, malfunctions, or premature wear. Choosing winch drives from reputable manufacturers known for their quality and reliability ensures long-term performance and reduces the need for frequent maintenance or replacement, enhancing the overall reliability of the lifting operations.
- Safety Features:
Winch drives come with various safety features that contribute to the overall performance and reliability of lifting operations. These safety features include overload protection systems, emergency stop controls, limit switches, and fail-safe mechanisms. The choice of winch drives with comprehensive safety features enhances the safety of lifting operations by preventing overloading, safeguarding against equipment failures, and providing emergency shutdown options in critical situations. Properly selecting winch drives with appropriate safety features ensures compliance with safety regulations, reduces the risk of accidents, and enhances the reliability of lifting operations.
- Compatibility and Integration:
Choosing winch drives that are compatible with the overall lifting system and easily integrable with other components is crucial for optimal performance and reliability. Compatibility issues can arise if the selected winch drive does not match the mechanical requirements, power supply, or control interfaces of the lifting system. Incompatibility can lead to operational inefficiencies, increased maintenance needs, or even system failures. Therefore, careful consideration of the compatibility and integration aspects when choosing winch drives ensures seamless integration, smooth operation, and enhanced reliability of lifting operations.
In summary, the choice of winch drives significantly impacts the overall performance and reliability of lifting operations. Factors such as lifting capacity, speed and control capabilities, durability and reliability, safety features, and compatibility with the overall system should be carefully considered when selecting winch drives. By choosing the right winch drives that meet the specific requirements of the lifting operations, operators can achieve optimal performance, ensure safe and efficient lifting, and enhance the overall reliability of the operations.
What maintenance practices are recommended for winch drives to ensure optimal functionality?
Proper maintenance practices are essential for ensuring the optimal functionality and longevity of winch drives. Regular maintenance helps prevent breakdowns, reduces the risk of accidents, and maximizes the performance of the winch drive. Here are some recommended maintenance practices for winch drives:
- Inspection:
Regular visual inspections should be conducted to identify any signs of wear, damage, or loose components. Inspect the winch drive housing, motor, gears, and control components for any abnormalities. Look for leaks, corrosion, or excessive dirt accumulation. If any issues are detected, they should be addressed promptly to prevent further damage or performance degradation.
- Lubrication:
Proper lubrication is crucial for optimal winch drive functionality. Follow the manufacturer’s guidelines for the type and frequency of lubrication. Apply lubricants to the bearings, gears, and other moving parts as recommended. Regular lubrication reduces friction, minimizes wear, and ensures smooth operation.
- Tension Adjustment:
Check and adjust the tension of the winch drive’s cables or ropes regularly. Proper tension ensures efficient and safe operation. Follow the manufacturer’s recommendations for the appropriate tension levels and adjustment procedures. Incorrect cable tension can lead to slippage, reduced pulling power, or cable damage.
- Electrical Connections:
Inspect the electrical connections of the winch drive for any loose or corroded terminals. Tighten or clean the connections as necessary to maintain proper electrical conductivity. Loose or faulty connections can result in power loss, erratic operation, or electrical hazards.
- Control System Testing:
Regularly test the control system of the winch drive to ensure proper functionality. Check the operation of switches, buttons, and remote controls. Verify that the control system is responding correctly to commands and that all safety features are functioning as intended. Any issues with the control system should be addressed promptly to maintain safe and reliable operation.
- Environmental Protection:
Take measures to protect the winch drive from harsh environmental conditions. Keep the winch drive clean and free from dirt, debris, and moisture. If the winch drive is exposed to corrosive substances or extreme temperatures, consider using protective covers or enclosures. Protecting the winch drive from environmental factors helps prevent damage and ensures optimal performance.
- Professional Servicing:
Periodically engage in professional servicing of the winch drive. Professional technicians can perform detailed inspections, maintenance, and repairs that may require specialized knowledge or equipment. Follow the manufacturer’s recommendations regarding the frequency and scope of professional servicing to keep the winch drive in optimal condition.
It’s important to note that maintenance practices may vary depending on the specific type of winch drive and its intended application. Always refer to the manufacturer’s guidelines and instructions for the specific winch drive model to ensure proper maintenance procedures are followed.
Can you describe the various types and configurations of winch drives available in the market?
There are several types and configurations of winch drives available in the market, each designed to suit specific applications and requirements. Here’s a detailed description of the various types and configurations of winch drives:
- Electric Winch Drives:
Electric winch drives are powered by electric motors and are widely used in various industries. They are available in different load capacities and configurations. Electric winches are known for their ease of use, precise control, and relatively low maintenance requirements. They can be mounted on vehicles, equipment, or structures and are commonly used in applications such as vehicle recovery, marine operations, construction sites, and material handling.
- Hydraulic Winch Drives:
Hydraulic winch drives are powered by hydraulic systems and offer high pulling power for heavy-duty applications. They are commonly used in industries such as construction, oil and gas, and marine operations. Hydraulic winch drives are known for their robustness, durability, and ability to handle extreme loads. They are often mounted on large vehicles, cranes, or offshore platforms. Hydraulic winch drives require hydraulic power sources, such as hydraulic pumps, and are suitable for applications that require continuous and sustained pulling power.
- Pneumatic Winch Drives:
Pneumatic winch drives utilize compressed air as the power source. They are mainly used in hazardous or explosive environments where electric or hydraulic power sources are not suitable. Pneumatic winch drives are commonly found in industries such as mining, oil refineries, and chemical plants. They offer a high level of safety due to the absence of electrical components and are capable of handling heavy loads in challenging environments.
- Planetary Winch Drives:
Planetary winch drives are a popular type of winch drive known for their compact size, high efficiency, and high torque output. They consist of a central sun gear, multiple planetary gears, and an outer ring gear. The planetary gear system allows for high torque multiplication while maintaining a compact design. Planetary winch drives are commonly used in off-road vehicles, ATV winches, and small to medium-sized industrial applications.
- Worm Gear Winch Drives:
Worm gear winch drives utilize a worm gear mechanism to achieve high gear reduction ratios. They offer excellent load holding capabilities and are commonly used in applications where precise load control and safety are paramount. Worm gear winch drives are popular in industries such as construction, theater rigging, and material handling. They are known for their self-locking feature, which prevents backdriving and provides secure load holding.
- Capstan Winch Drives:
Capstan winch drives are designed with a rotating drum or capstan instead of a traditional spool. They are commonly used in applications that require constant tension or controlled pulling speeds, such as in marine settings for mooring operations or on fishing vessels. Capstan winch drives offer efficient and continuous pulling power and are suitable for handling ropes, cables, or lines with minimal slippage.
- Wire Rope Winch Drives:
Wire rope winch drives are specifically designed to handle wire ropes as the lifting or pulling medium. They are equipped with drums that accommodate wire ropes of different diameters and lengths. Wire rope winch drives are commonly used in industries such as construction, mining, and offshore operations. They offer high load capacities and are suitable for heavy-duty applications that require strength, durability, and resistance to abrasion.
These are some of the various types and configurations of winch drives available in the market. Each type has its own advantages and is designed to cater to specific applications and industry requirements. When selecting a winch drive, it’s important to consider factors such as load capacity, power source, control mechanisms, and environmental conditions to ensure optimal performance and efficiency.
editor by CX 2024-04-16
china best Transmission Geared Motor Unit Wp Nmrv Swl Screw Drive Lifts Stepper Cyclo Cycloidal Extruder Helical Plenetary Bevel Worm Speed Variator Gear Reducer Gearbox manufacturers
Product Description
Transmission Geared CZPT Device Wp NMRV Swl CZPT CZPT CZPT s Stepper Cyclo Cycloidal Extruder CZPT cal Plenetary Bevel Worm CZPT Variator Equipment Reducer Gearbox
The worm gear is made up of a worm and a worm wheel. It is the simultaneous peak offset of vertical electrical power transfer. Typically, the push component is a worm. In order to mix the wheel/worm into a worm gear, it is necessary to make certain that the middle distance is equal and the transmission ratio is equivalent. Centre distances are available from inventory in little measures between 17mm and 80mm. Each middle distance has numerous gear ratios. The severe stress worm gear is suitable for the manufacturing of worm gear drives with a shaft angle of 90°. Utilizing a worm drive, quite big reduction ratios (up to a hundred:1) can be accomplished.
china price High Precision Right Angle Micro Planetary Reducer with Stepper Motor manufacturers
Product Description
Large CZPT Correct CZPT le Micro Planetary Reducer With Stepper CZPT
Components:
one. Gearbox Housing & Flange: CZPT -alloy Die CZPT ADC12
two. Gearset: CZPT Planetary Gear Set
Ring Gears: 40Cr
Planetary Gears: 20CrMnTi, Surface area Hardness HRC58~sixty two, Interior Hardness HRC33~40
three. Input Configurations:
Keyed Hollow Shaft with CZPT Adaptor
four. Output Configurations:
Keyed Solid Shaft Output
Keyless Sound Shaft Output
5. Relevant CZPT s:
Servo CZPT s, Stepper CZPT s
Versions:
PAB/PABR Collection, PPG Series
Attributes:
1. AOKMAN® large percision planetary gearboxes including a total series of inline(linear) and correct angle precision planetary gearboxes
2. CZPT precision, substantial dynamic, reduced backlash
three. Up to 3 optional backlash: CZPT CZPT Backlash, CZPT CZPT Backlash, Regular Backlash
4. CZPT ior performance for precision industrial automation and servo applications
Purposes:
Precision CZPT CZPT mation & Servo Apps
Lubrication:
PAB/PABR Collection: Synthetic Grease (NYOGEL 792D)
PPG Sequence: Castrol LMX Grease
Parameters:
Sequence | Phase | Versions | Ratio | Rated Torque | Output Flange Dia. | Output Shaft Dia. | Backlash | Efficiency |
PAB (Linear) | 1 | PAB042 PAB060 PAB090 PAB115 PAB142 PAB180 PAB220 |
3, 4, 5, 6, 7, 8, 9, 10 | 14N.m~2000N.m | 42mm~220mm | Φ13 Φ16 Φ22 Φ32 Φ40 Φ55 Φ75 |
≤1, ≤3, ≤5 arcmin | ≥97% |
2 | PAB042 PAB060 PAB060A PAB090 PAB090A PAB115 PAB142 PAB180 PAB220 |
15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100 | 14N.m~2000N.m | 42mm~220mm | Φ13 Φ16 Φ22 Φ32 Φ40 Φ55 Φ75 |
≤3, ≤5, ≤7 arcmin | ≥94% | |
PABR (Right Angle) | 1 | PABR042 PABR060 PABR090 PABR115 PABR142 PABR180 PABR220 |
three, 4, 5, 6, 7, 8, 9, 10, 14, 20 | 9N.m~2000N.m | 42mm~220mm | Φ13 Φ16 Φ22 Φ32 Φ40 Φ55 Φ75 |
≤2, ≤4, ≤6 arcmin | ≥95% |
two | PABR042 PABR060 PABR090 PABR115 PABR142 PABR180 PABR220 |
15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 120, 140, 160, 180, 200 | 14N.m~2000N.m | 42mm~220mm | Φ13 Φ16 Φ22 Φ32 Φ40 Φ55 Φ75 |
≤4, ≤7, ≤9 arcmin | ≥92% | |
PPG (Linear) | one | PPG040 PPG060 PPG080 PPG080A PPG120 PPG120A PPG160 |
3, 4, 5, 7, 10 | 9N.m~423N.m | – | Φ10 Φ14 Φ20 Φ25 Φ40 |
≤6, ≤8 arcmin | ≥97% |
two | PPG040 PPG060 PPG080 PPG080A PPG120 PPG120A PPG160 |
fifteen, 16, 20, 25, 30, 35, 40, 50, 70, 100 | 9N.m~423N.m | – | Φ10 Φ14 Φ20 Φ25 Φ40 |
≤8, ≤10 arcmin | ≥94% |
Packing & Supply:
Solution images:
Our company :
AOKMAN® was established in 1982, which has a lot more than 36 many years in R & D and producing of gearboxes, gears, shaft, motor and spare parts.
We can provide the appropriate remedy for uncountable apps. Our items are extensively utilised in the ranges of metallurgical, metal, mining, pulp and paper, sugar and alcoholic beverages marketplace and CZPT other varieties of machines with a strong presence in the international industry.
AOKMAN® has become a reliable supplier, able to provide high quality gearboxes.With 36 years encounter, we assure you the utmost trustworthiness and protection for each solution and services.
Customer going to:
FAQ:
one.Q:What kinds of gearbox can you produce for us?
A:Major merchandise of CZPT business: UDL collection speed variator,RV sequence CZPT reducer, ATA collection shaft mounted gearbox, X,B sequence gear reducer,
P sequence planetary gearbox and R, S, K, and F series CZPT cal-tooth reducer, much more
than a single hundred designs and hundreds of specifications
2.Q:Can you make as for every CZPT drawing?
A: Yes, we offer CZPT ized provider for CZPT ers.
three.Q:What is your conditions of payment ?
A: 30% CZPT payment by T/T following signing the contract.70% prior to delivery
four.Q:What is your MOQ?
A: 1 Set
Welcome you contace me if you are fascinated in CZPT solution.
Our staff will support any require you may well have.
Security PROVISIONS: Worm drives need to not be used as a locking mechanism to secure heavy objects, which could lead to harm or damage in the course of reverse action. In non-probably harmful programs, self-locking is needed to avoid reverse rotation, and then a reduced-pitch one-threaded worm is utilised to instantly lock the worm gear to prevent reverse rotation.
china near me Elss Series Strain Wave Gearing Harmonic Reducer Drive Table Dividing Head Mini Cross Roller Bearing DC Motor with Drive Stepper Angle Drive Degree Gearbox manufacturers
Product Description
ELSS Sequence
A combination product which is easy to work. Each and every design has a cross-roller bearing that with high rigidity to assist external loads.
ELSN Sequence
A mild excess weight merchandise. Evaluate with common merchandise that with the very same functionality, LSN series is thirty% lighter.
ELSG Sequence
Substantial torque. Examine with normal goods, LSG series’ torque ability is thirty% greater. And the services lifestyle is increased by forty three%, with higher load capability and large reliablity.
CONTAST US |
LSS/LSN Rated parameters
Model | Reduction ratio | Rated torque at 2000r/min input | Permissible peak torque at start off and quit | Permissible highest price for typical load torque | Permissible maximum momentary torque | Permissible optimum inputrotational velocity | Permissible average input rotational velocity | Backlash | Design daily life | ||||
Grease | Grease | ||||||||||||
Nm | kgfm | Nm | kgfm | Nm | kgfm | Nm | kgfm | r/min | r/min | Arc Sec | Hour | ||
11 | eighty | three.eight | .4 | 8.5 | .nine | 6.8 | .7 | 19.1 | 1.9 | 8000 | 3000 | ≤30 | 10000 |
100 | four.one | .4 | eight.9 | .9 | 7.two | .seven | 20 | two | |||||
14 | fifty | 6.two | .6 | twenty.seven | two.1 | 7.nine | .seven | forty.3 | 4.1 | 7000 | 3000 | ≤30 | 15000 |
80 | 9 | .9 | 27 | 2.seven | 12.7 | one.three | fifty four.one | 5.5 | |||||
a hundred | 9 | .nine | 32 | 3.three | 12.seven | 1.3 | 62.one | six.three | |||||
17 | 50 | 18.four | one.9 | 39 | four | 29.nine | three | 80.5 | eight.2 | 6500 | 3000 | ≤30 | 15000 |
eighty | 25.three | two.6 | forty nine.5 | five | 31 | 3. 2 | a hundred.1 | ten.two | |||||
one hundred | 27.six | two.8 | 62 | 6.three | 45 | 4.6 | 124.two | twelve.seven | |||||
20 | 50 | 28.8 | 2.9 | 64.4 | six.six | 39 | 4 | 112.7 | eleven.five | 5600 | 3000 | ≤30 | 15000 |
80 | 39.1 | four | 85 | 8.eight | fifty four | five.5 | 146.1 | 14.9 | |||||
a hundred | forty six | 4.seven | ninety four.3 | 9.6 | fifty six | five.eight | 169.1 | seventeen. two | |||||
120 | 46 | four.7 | one hundred | ten.2 | 56 | 5.8 | 169.1 | seventeen.two | |||||
one hundred sixty | forty six | 4.seven | 112 | 10.9 | 56 | 5.eight | 169.1 | seventeen. 2 | |||||
25 | fifty | forty four.nine | four.6 | 113 | 11.5 | sixty three | 6. 5 | 213.nine | 21.8 | 4800 | 3000 | ≤30 | 15000 |
80 | 72.5 | 7.four | 158 | sixteen.1 | one hundred | ten.2 | 293.3 | 29.9 | |||||
one hundred | 77.1 | seven.nine | 181 | 18.4 | 124 | twelve. 7 | 326.six | 33.3 | |||||
a hundred and twenty | seventy seven.one | 7.nine | 192 | 19.6 | 124 | twelve.seven | 349.6 | 35.six | |||||
32 | fifty | 87.4 | eight.9 | 248 | 25.3 | 124 | twelve.7 | 439 | forty four.eight | 4000 | 3000 | ≤30 | 15000 |
eighty | a hundred thirty five.seven | thirteen.8 | 350 | 35.6 | 192 | 19.six | 653 | sixty six.6 | |||||
a hundred | 157.6 | 16.one | 383 | 39.1 | 248 | 25.three | 744 | seventy five.nine | |||||
120 | 157.6 | 16.one | 406 | 41.four | 248 | twenty five.3 | 789 | eighty.five |
LSG Rated parameters
Model | Reduction ratio |
Rated torque at 2000r/min enter |
Permissible peak torque at commence and quit | Permissible maximum price for average load torque | Permissible maximum momentary torque | Permissible maximum input rotational pace | Permissible average input rotational speed | Backlash | Design existence | ||||
Grease | Grease | ||||||||||||
Nm | kgfm | Nm | kgfm | Nm | kgfm | Nm | kgfm | r/min | r/min | Arc Sec | Hour | ||
11 | eighty | three.8 | .four | eight.five | .9 | six.eight | .seven | 19.one | 1.9 | 8000 | 3000 | <=20 | 10000 |
100 | four.1 | .4 | eight.nine | .9 | 7.2 | .seven | 20 | two | |||||
14 | 50 | 7 | .7 | 23 | two.three | nine | .9 | forty six | four.seven | 10000 | 6500 | <=20 | 15000 |
80 | ten | 1 | thirty | three.1 | 14 | 1.4 | sixty one | 6.two | |||||
a hundred | ten | one | 36 | three.seven | fourteen | 1.4 | 70 | 7.two | |||||
17 | fifty | 21 | 2.one | 44 | four.five | 34 | three.4 | 91 | 9 | 7500 | 5600 | <=20 | 20000 |
80 | 29 | two.9 | fifty six | five.seven | 35 | 3.six | 113 | twelve | |||||
a hundred | 31 | three.two | 70 | seven.two | fifty one | five.two | 143 | 15 | |||||
20 | 50 | 33 | 3.three | 73 | 7.four | forty four | 4.five | 127 | thirteen | 7000 | 4800 | <=20 | 20000 |
eighty | 44 | 4.5 | 96 | 9.eight | 61 | six.two | one hundred sixty five | seventeen | |||||
a hundred | fifty two | 5.three | 107 | 10.9 | 64 | six.5 | 191 | 20 | |||||
120 | fifty two | 5.3 | 113 | eleven.five | sixty four | six.5 | 191 | twenty | |||||
one hundred sixty | 52 | five.three | a hundred and twenty | 12.2 | sixty four | 6.5 | 191 | 20 | |||||
25 | 50 | fifty one | five.two | 127 | thirteen | seventy two | seven.three | 242 | twenty five | 5600 | 4000 | <=20 | 20000 |
eighty | eighty two | eight.four | 178 | eighteen | 113 | twelve | 332 | 34 | |||||
a hundred | 87 | 8.9 | 204 | 21 | a hundred and forty | fourteen | 369 | 38 | |||||
120 | 87 | 8.nine | 217 | 22 | 140 | fourteen | 395 | 40 | |||||
32 | fifty | ninety nine | 10 | 281 | 29 | one hundred forty | 14 | 497 | fifty one | 5600 | 3000 | <=20 | 20000 |
eighty | 153 | sixteen | 395 | 40 | 217 | 22 | 738 | 75 | |||||
one hundred | 178 | 18 | 433 | 44 | 281 | 29 | 841 | 86 | |||||
one hundred twenty | 178 | eighteen | 459 | forty seven | 281 | 29 | 892 | 91 |
The worm equipment consists of a worm and a worm wheel. It is the simultaneous height offset of vertical power transfer. Usually, the push aspect is a worm. In purchase to mix the wheel/worm into a worm gear, it is required to make sure that the centre length is equivalent and the transmission ratio is equal. Middle distances are offered from stock in modest measures among 17mm and 80mm. Each and every heart distance has multiple equipment ratios. The intense pressure worm gear is ideal for the generation of worm gear drives with a shaft angle of 90°. Using a worm generate, very massive reduction ratios (up to 100:1) can be reached.
china supplier Elht Series High Precision Harmonic Robot Reducer Drive Strain Wave Gear Set for CNC Machine Sewing Machine Small Gear Speed Stepper Motor manufacturers
Solution Description
LHT Series
A mixture merchandise that with massive diameter hollow gap, flat shape, which is effortless to run.
LHN Series
Gentle bodyweight product, twenty% lighter than common merchandise.
LHG Series
Higher torque. Examine with regular goods, LHG series’ torque ability is thirty% higher. And the services life is increased by forty three%, with large load capability and higher reliablity.
CONTAST US |
LHT/LHN Rated parameters
Model | Reduction ratio | Rated torque at 2000r/min input | Permissible peak torque at begin and quit | Permissible maximum benefit for common load torque | Permissible maximum momentary torque | Permissible maximum input rotational pace | Permissible average input rotational velocity | Backlash | Design daily life | ||||
Grease | Grease | ||||||||||||
Nm | kgfm | Nm | kgfm | Nm | kgfm | Nm | kgfm | r/min | r/min | Arc Sec | Hour | ||
14 | fifty | 6.2 | .six | twenty.seven | 2.one | 7.9 | .7 | forty.three | 4.1 | 7000 | 3000 | <=30 | 10000 |
eighty | 9 | .nine | 27 | 2.seven | twelve.7 | one.three | 54.one | 5.five | |||||
a hundred | nine | .9 | 32 | 3.three | twelve.7 | 1.three | sixty two.1 | six.three | |||||
17 | fifty | 18.4 | 1.9 | 39 | 4 | 29.9 | three | 80.5 | eight.2 | 6500 | 3000 | <=30 | 15000 |
80 | twenty five.3 | two.6 | 49.5 | 5 | 31 | three.2 | one hundred.1 | 10.2 | |||||
a hundred | 27.six | 2.8 | sixty two | 6.3 | 45 | 4.six | 124.two | 12.7 | |||||
20 | 50 | 28.8 | 2.9 | sixty four.four | six.6 | 39 | four | 112.seven | eleven.5 | 5600 | 3000 | <=30 | 15000 |
80 | 39.1 | four | eighty five | 8.8 | fifty four | 5.five | 146.one | fourteen.9 | |||||
one hundred | forty six | 4.7 | 94.three | nine.six | 56 | five.8 | 169.1 | seventeen.two | |||||
one hundred twenty | forty six | 4.7 | a hundred | 10.2 | 56 | five.eight | 169.one | seventeen.two | |||||
160 | forty six | four.7 | one hundred | 10.2 | fifty six | five.eight | 169.1 | 17.two | |||||
25 | 50 | 44.9 | 4.6 | 113 | 11.5 | sixty three | six.5 | 213.nine | 21.8 | 4800 | 3000 | <=30 | 15000 |
80 | 72.five | seven.4 | 158 | sixteen.1 | one hundred | ten.two | 293.three | 29.nine | |||||
100 | seventy seven.one | 7.nine | 181 | eighteen.four | 124 | twelve.seven | 326.6 | 33.three | |||||
one hundred twenty | 77.1 | 7.nine | 192 | 19.6 | 124 | 12.seven | 349.6 | 35.6 | |||||
32 | fifty | 87.4 | 8.9 | 248 | 25.3 | 124 | 12.7 | 439 | forty four.eight | 4000 | 3000 | <=30 | 15000 |
eighty | one hundred thirty five.seven | 13.8 | 350 | 35.six | 192 | 19.6 | 653 | sixty six.6 | |||||
one hundred | 157.6 | sixteen.one | 383 | 39.1 | 248 | 25.three | 744 | 75.nine | |||||
forty | one hundred | 308 | 37.two | 660 | sixty seven | 432 | forty four | 1232 | 126.seven | 4000 | 3000 | <=30 | 15000 |
LHG Rated parameters
Model | Reduction ratio | Rated torque at 2000r/min enter | Permissible peak torque at commence and stop | Permissible maximum price for regular load torque | Permissible maximum momentary torque | Permissible maximum enter rotational speed | Permissible average enter rotational velocity | Backlash | Design existence | ||||
Grease | Grease | ||||||||||||
Nm | kgfm | Nm | kgfm | Nm | kgfm | Nm | kgfm | r/min | r/min | Arc Sec | Hour | ||
14 | fifty | seven | .seven | 23 | two.three | nine | .9 | forty six | 4.seven | 14000 | 8500 | <=20 | 15000 |
eighty | 10 | 1 | thirty | 3.one | 14 | 1.four | 61 | 6.2 | |||||
one hundred | ten | one | 36 | 3.7 | fourteen | one.4 | 70 | 7.2 | |||||
17 | 50 | 21 | two.one | 44 | 4.5 | 34 | three.4 | 91 | nine | 10000 | 7300 | <=20 | 20000 |
80 | 29 | 2.nine | 56 | 5.7 | 35 | 3.six | 113 | twelve | |||||
a hundred | 31 | 3.two | 70 | seven.two | fifty one | 5.two | 143 | 15 | |||||
20 | 50 | 33 | 3.three | 73 | seven.4 | 44 | four.five | 127 | thirteen | 10000 | 6500 | <=20 | 20000 |
eighty | 44 | 4.five | 96 | 9.eight | sixty one | six.2 | one hundred sixty five | seventeen | |||||
one hundred | 52 | five.3 | 107 | ten.nine | sixty four | six.5 | 191 | 20 | |||||
a hundred and twenty | fifty two | 5.three | 113 | 11.5 | sixty four | 6.5 | 191 | 20 | |||||
160 | fifty two | five.three | 120 | twelve.two | 64 | 6.5 | 191 | twenty | |||||
25 | 50 | 51 | five.two | 127 | thirteen | seventy two | seven.3 | 242 | 25 | 7500 | 5600 | <=20 | 20000 |
80 | 82 | 8.four | 178 | eighteen | 113 | 12 | 332 | 34 | |||||
a hundred | 87 | 8.9 | 204 | 21 | one hundred forty | fourteen | 369 | 38 | |||||
120 | 87 | 8.nine | 217 | 22 | one hundred forty | fourteen | 395 | forty | |||||
32 | fifty | 99 | 10 | 281 | 29 | a hundred and forty | 14 | 497 | 51 | 7000 | 4800 | <=20 | 20000 |
eighty | 153 | 16 | 395 | 40 | 217 | 22 | 738 | seventy five | |||||
one hundred | 178 | 18 | 433 | forty four | 281 | 29 | 841 | 86 | |||||
forty | 100 | 345 | 35 | 738 | 75 | 484 | forty nine | 1400 | 143 | 5600 | 4000 | <=20 | 20000 |
Ep’s solution variety only includes bronze worm gears. The cause is basic, bronze assures the greatest sliding and dry working houses when compared to other resources. The aluminium content material also assures high chemical resistance. Worm gears are best for steady procedure at substantial speed and torque.
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Product Description
ELSS Series
A mix merchandise which is easy to work. Each and every product has a cross-roller bearing that with high rigidity to support external loads.
ELSN Sequence
A gentle fat item. Examine with regular item that with the exact same efficiency, LSN sequence is 30% lighter.
ELSG Series
High torque. Evaluate with common goods, LSG series’ torque capability is 30% increased. And the support existence is elevated by 43%, with high load potential and substantial reliablity.
CONTAST US |
LSS/LSN Rated parameters
Model | Reduction ratio | Rated torque at 2000r/min input | Permissible peak torque at begin and end | Permissible greatest value for typical load torque | Permissible optimum momentary torque | Permissible maximum inputrotational pace | Permissible typical input rotational speed | Backlash | Design life | ||||
Grease | Grease | ||||||||||||
Nm | kgfm | Nm | kgfm | Nm | kgfm | Nm | kgfm | r/min | r/min | Arc Sec | Hour | ||
11 | 80 | 3.eight | .4 | eight.five | .9 | six.8 | .7 | 19.one | 1.nine | 8000 | 3000 | ≤30 | 10000 |
100 | four.one | .four | eight.9 | .9 | seven.2 | .seven | 20 | two | |||||
14 | 50 | six.two | .six | twenty.seven | 2.1 | 7.nine | .7 | 40.3 | four.1 | 7000 | 3000 | ≤30 | 15000 |
eighty | nine | .nine | 27 | 2.7 | twelve.seven | one.three | 54.one | five.five | |||||
one hundred | 9 | .9 | 32 | 3.3 | 12.seven | one.three | sixty two.1 | 6.3 | |||||
17 | 50 | 18.4 | one.9 | 39 | four | 29.nine | three | eighty.5 | 8.two | 6500 | 3000 | ≤30 | 15000 |
80 | twenty five.three | two.6 | 49.five | 5 | 31 | 3. two | a hundred.1 | 10.2 | |||||
100 | 27.6 | 2.8 | sixty two | six.3 | 45 | four.six | 124.2 | 12.seven | |||||
20 | fifty | 28.eight | two.9 | sixty four.4 | six.six | 39 | 4 | 112.seven | eleven.five | 5600 | 3000 | ≤30 | 15000 |
80 | 39.one | 4 | eighty five | eight.8 | 54 | five.five | 146.1 | 14.nine | |||||
100 | forty six | four.seven | ninety four.three | 9.6 | fifty six | five.8 | 169.one | 17. 2 | |||||
a hundred and twenty | 46 | four.seven | 100 | 10.two | fifty six | five.eight | 169.one | seventeen.two | |||||
one hundred sixty | forty six | four.seven | 112 | 10.9 | fifty six | 5.eight | 169.1 | seventeen. 2 | |||||
25 | 50 | forty four.nine | 4.six | 113 | 11.five | sixty three | six. five | 213.9 | 21.eight | 4800 | 3000 | ≤30 | 15000 |
eighty | seventy two.five | 7.four | 158 | sixteen.1 | a hundred | ten.2 | 293.three | 29.nine | |||||
100 | seventy seven.1 | seven.9 | 181 | 18.four | 124 | twelve. 7 | 326.six | 33.three | |||||
a hundred and twenty | seventy seven.one | seven.9 | 192 | 19.six | 124 | 12.seven | 349.6 | 35.6 | |||||
32 | fifty | 87.4 | 8.9 | 248 | twenty five.3 | 124 | 12.seven | 439 | forty four.eight | 4000 | 3000 | ≤30 | 15000 |
eighty | a hundred thirty five.seven | 13.eight | 350 | 35.6 | 192 | 19.6 | 653 | 66.six | |||||
a hundred | 157.6 | sixteen.one | 383 | 39.one | 248 | twenty five.3 | 744 | 75.9 | |||||
120 | 157.six | sixteen.one | 406 | 41.four | 248 | twenty five.3 | 789 | 80.5 |
LSG Rated parameters
Model | Reduction ratio |
Rated torque at 2000r/min enter |
Permissible peak torque at begin and end | Permissible maximum price for typical load torque | Permissible maximum momentary torque | Permissible maximum input rotational pace | Permissible average input rotational speed | Backlash | Design lifestyle | ||||
Grease | Grease | ||||||||||||
Nm | kgfm | Nm | kgfm | Nm | kgfm | Nm | kgfm | r/min | r/min | Arc Sec | Hour | ||
11 | 80 | three.eight | .4 | 8.5 | .9 | six.eight | .seven | 19.1 | 1.nine | 8000 | 3000 | <=20 | 10000 |
100 | four.1 | .four | 8.9 | .9 | seven.two | .seven | 20 | two | |||||
14 | fifty | seven | .7 | 23 | 2.3 | 9 | .9 | 46 | 4.seven | 10000 | 6500 | <=20 | 15000 |
eighty | ten | one | thirty | 3.1 | fourteen | 1.four | sixty one | six.two | |||||
100 | 10 | 1 | 36 | 3.7 | fourteen | 1.4 | 70 | 7.two | |||||
17 | 50 | 21 | 2.1 | forty four | four.five | 34 | three.four | 91 | 9 | 7500 | 5600 | <=20 | 20000 |
80 | 29 | two.9 | fifty six | 5.7 | 35 | 3.six | 113 | 12 | |||||
a hundred | 31 | three.two | 70 | seven.two | fifty one | five.2 | 143 | fifteen | |||||
20 | 50 | 33 | three.three | seventy three | seven.four | 44 | four.five | 127 | 13 | 7000 | 4800 | <=20 | 20000 |
80 | 44 | four.five | 96 | 9.8 | 61 | six.2 | a hundred sixty five | 17 | |||||
100 | fifty two | five.three | 107 | 10.9 | sixty four | six.5 | 191 | twenty | |||||
one hundred twenty | 52 | five.3 | 113 | eleven.five | sixty four | 6.5 | 191 | 20 | |||||
a hundred and sixty | fifty two | five.three | one hundred twenty | twelve.two | sixty four | 6.5 | 191 | 20 | |||||
25 | 50 | fifty one | five.two | 127 | thirteen | 72 | 7.three | 242 | twenty five | 5600 | 4000 | <=20 | 20000 |
80 | eighty two | eight.4 | 178 | eighteen | 113 | 12 | 332 | 34 | |||||
one hundred | 87 | eight.9 | 204 | 21 | one hundred forty | 14 | 369 | 38 | |||||
a hundred and twenty | 87 | eight.nine | 217 | 22 | a hundred and forty | fourteen | 395 | 40 | |||||
32 | 50 | 99 | ten | 281 | 29 | a hundred and forty | fourteen | 497 | fifty one | 5600 | 3000 | <=20 | 20000 |
eighty | 153 | 16 | 395 | 40 | 217 | 22 | 738 | seventy five | |||||
100 | 178 | 18 | 433 | 44 | 281 | 29 | 841 | 86 | |||||
one hundred twenty | 178 | 18 | 459 | 47 | 281 | 29 | 892 | 91 |
Lubrication is an essential issue to enhance the effectiveness of worm equipment transmission. The worm gear motion generates a lot of warmth, which lowers performance. The electrical power delivered at a provided temperature will increase with the transmission efficiency. Appropriate lubrication minimizes friction and warmth, which boosts efficiency.