China wholesaler Spiral Slit Encoder Flexible Coupling Set Screw Bellow Coupling Manufacture Aluminum Couplings for Motor Electric Machinery

Product Description

Product Description

SFC/SFCS  series coupling set screw, flexible coupling

Technical Parameters

value

 

   Model   SFC SFCS

NO.

SFC16~SFC63

SFCS16~SFCS63

Rated torque (N.M)

0.3~20

0.5~35

Max. torque (N.M)

  0.6~40 1~70

Max. rotational (rpm)

6100~24000

6100~24000

Moment of inertia (kg.m2)

3.3*10-7~3.2*10-4

8.4*10-7~8.4*10-4

Staic torional (N.M/ rad)

47~850

85~1800

Allowable eccentricity error(mm)

0.1~0.2

0.1~0.2
   Allowable angular error(0)   2 2
   Allowable shaft end-play ( mm )   ±0.4~±0.5 ±0.3~±0.5
   Material   auminum staniness

Company Profile

 

      HangZhou liHangZhou Machinery Co., Ltd. is a ZheJiang funded enterprise integrating design, R & D, professional production and sales of automatic machinery products and providing technical consultation and after-sales service. Since its establishment for more than 10 years, the company has been committed to the R & D and production of automatic machinery, and provides OEM production for major brands in the industry. It has a professional R & D team, strong technical force and perfect sales scheme, has accumulated a lot of technology and experience, and has developed a series of products that are more suitable for domestic users in China. Its overall technology is higher than that of similar products in the industry. Xihu (West Lake) Dis.d by the production of high-precision products and the business philosophy of “professionalism, integrity and service”, the company is committed to building a brand in China’s automation machinery industry.

FAQ

1) Customize prodcuts are available ? 

     Yes, Customize products are available. We could design and produce products according to your requirements or darwings. You just need to tell us your detailed requirements and our technicists will design and provide materials for your confimation. If all is ok, the production will be arranged. 

2)  What’s your payment terms? 
    For small order, considering the value is not large, the payment terms are 100% T/T in advance. 
    For large order, we could negotiate. 

3) how about the packaging and shipment? 
    Packaging : in box (wooden case). 
    Shipment : according to customer’s instruction. 

4) How about the lead time ? 
   For common model, the lead time is about 15 workdays; 
   For customize model, the lead time is longer, about 30 workdays.

5) How about the quarantee period ? 
    In generall, the quarantee period – 1 year for assembly unit from the date of sale .  /* 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

shaft coupling

Diagnosing Potential Issues in Encoder Couplings

Identifying potential issues in encoder couplings is crucial for maintaining optimal performance. Some signs to watch for and diagnostic steps include:

1. Signal Inaccuracies: Inaccurate position or velocity feedback signals may indicate coupling misalignment. Use diagnostic tools to compare expected and actual readings.

2. Increased Noise: Unusual vibrations or noise during operation can indicate misalignment or wear. Perform vibration analysis or inspect the coupling for visual damage.

3. Signal Dropouts: Intermittent signal loss or dropouts can be due to poor coupling engagement or damaged wiring. Check wiring connections and the coupling’s mechanical integrity.

4. Drifting Position: If the controlled system’s position drifts over time, it could suggest issues in the encoder coupling’s precision. Monitor position deviations and inspect the coupling for wear.

5. Excessive Heating: Overheating of the coupling may point to misalignment or excessive friction. Monitor the temperature and ensure proper coupling lubrication.

6. Irregular Movement: Unexpected jerks or irregular motion can indicate binding or sticking in the coupling. Inspect the coupling’s components for damage or obstruction.

7. Reduced Accuracy: Decreased accuracy in positioning or velocity control might be due to backlash or wear. Measure and compare desired and achieved positions for accuracy assessment.

8. Excessive Wear: Visual inspection of the coupling’s components for signs of wear, such as cracked or deformed elements, can help detect potential issues early.

9. Misalignment: Misalignment between the encoder and the shaft can lead to signal discrepancies. Use precision measurement tools to assess alignment and adjust if necessary.

10. Visual Inspection: Regularly inspect the coupling for signs of corrosion, rust, or physical damage. Address any issues promptly to prevent further deterioration.

Performing routine maintenance, using diagnostic tools, and monitoring the system’s performance can help identify and address potential issues in encoder couplings, ensuring consistent and accurate motion control.

shaft coupling

Impact of Encoder Resolution on Choice of Coupling

The encoder resolution plays a crucial role in selecting an appropriate coupling for your system. Encoder resolution refers to the number of distinct positions a rotary encoder can detect in one full rotation. Here’s how encoder resolution impacts the choice of coupling:

1. Precision Requirements:

Higher encoder resolutions provide finer position accuracy. If your application demands high precision and accuracy, such as in robotics or CNC machines, a coupling that minimizes backlash and offers precise torque transmission is essential.

2. Backlash Sensitivity:

As encoder resolution increases, the system becomes more sensitive to backlash (play between coupling components). To mitigate this, a coupling with minimal backlash, such as a zero-backlash or low-backlash coupling, is recommended to ensure accurate position feedback.

3. Dynamic Response:

Higher encoder resolutions allow systems to detect even small movements, improving dynamic response. For applications requiring rapid and accurate positioning changes, a coupling that provides high torsional stiffness and low wind-up is beneficial.

4. Mechanical Compliance:

Low-resolution encoders may tolerate some misalignment due to their coarser feedback intervals. However, high-resolution encoders are more sensitive to misalignment, making it important to choose a coupling that accommodates misalignment while maintaining signal accuracy.

5. Coupling Selection:

For high-resolution encoders, consider couplings that provide precision, low backlash, and accurate torque transmission, such as beam couplings, bellows couplings, or Oldham couplings. These couplings help maintain the integrity of position feedback and optimize system performance.

6. Environmental Factors:

The operating environment can affect the choice of coupling. For applications with extreme conditions, such as temperature fluctuations or aggressive chemicals, select a coupling material that can withstand these conditions without compromising the encoder’s accuracy.

Ultimately, the encoder resolution influences the coupling choice by demanding a coupling that complements the precision, accuracy, and dynamic performance required by the application.

shaft coupling

Facilitating Precise Signal Transmission with Encoder Couplings

An encoder coupling plays a crucial role in facilitating precise signal transmission between the encoder and the shaft in motion control and automation systems. Here’s how it works:

1. Minimizing Misalignment: Encoder couplings are designed to accommodate various types of misalignment, including angular, axial, and radial misalignment. By allowing controlled flexibility, the coupling minimizes the stress on both the encoder and the shaft, ensuring accurate signal transmission.

2. Reducing Backlash: Backlash is the amount of movement a system can experience before the motion is effectively transferred. High-quality encoder couplings have minimal backlash, ensuring that the encoder’s output accurately corresponds to the shaft’s movement.

3. Increasing Torque Transmission: Encoder couplings provide efficient torque transmission between the encoder and the shaft, allowing the encoder to accurately detect changes in position or speed.

4. Enhancing Response Time: The mechanical properties of the encoder coupling ensure that any changes in the shaft’s position or movement are promptly transmitted to the encoder. This results in a faster response time and more accurate signal feedback.

5. Reducing Signal Disturbances: Vibrations, shocks, and other disturbances in machinery can negatively impact signal accuracy. A well-designed encoder coupling dampens vibrations and disturbances, ensuring that the encoder receives a clean and accurate signal.

6. Compensating for Thermal Expansion: In some applications, temperature changes can cause the shaft and encoder to expand or contract at different rates. Encoder couplings accommodate these thermal variations, preventing signal discrepancies caused by thermal expansion.

Overall, the encoder coupling acts as a reliable intermediary between the encoder and the shaft, ensuring that the signal accurately reflects the shaft’s position, speed, and movement. This precise signal transmission is essential for the accurate control and performance of motion control and automation systems.

China wholesaler Spiral Slit Encoder Flexible Coupling Set Screw Bellow Coupling Manufacture Aluminum Couplings for Motor Electric Machinery  China wholesaler Spiral Slit Encoder Flexible Coupling Set Screw Bellow Coupling Manufacture Aluminum Couplings for Motor Electric Machinery
editor by CX 2024-04-16