Product Description

HangZhou Yuantuo Auto Parts Manufacturing Co., Ltd  was founded in 1990,which is a company specialized in production and sales of rubber parts such as center support bearing,wiper blade and torque rod bush in China.It is located in the beautiful and rich city HangZhou with a very convenient transportation near ZheJiang Kowloon Railway at the east and near National Road 106 and 308.And it covers an area of 30,000 square meters.

It continually introduces new advanced equipment and production process to enhance core competence and reduce production cost. Our products cover more than 100 models, We all along stick to the belief of quality first and customer orientation. Now our products have been exported to many countries, such as USA, Russia, Mexico, Italy, Germany, Iran, Egypt, Dubai, Malaysia, Brazil, Peru, Nigeria, Pakistan, India etc. Strict quality control and perfect after-sales service make our products widely welcomed in domestic and overseas markets.

YTK as a global manufacture specialized in auto wiper blade,our company has been ahead of the industry advanced level in rubber srtip technology after more tan 10 years of continuous development and technolgical inovation.And we are always pursing “cost-effective product ” and provide the cutstomers with safe and high quality wiper as the core idea of our company.We laid a CHINAMFG foundation for cooperation by continuous innowation of patend products.Our products cover a compleat range of models and non-standard products could be cus-tomized.Our company always sticks to the service  objective of keeping the customers satisfied .Hope that YTK could have common development and share succession to create a beautiful future together with you .

YOU COULD GET (Cooperation with us):

1 More than 360 types of models,e xpand your product catalog.
2 More better price than the trading company.
3 Support mould development  help you CHINAMFG the market opportunity.
4 Stock a lot of product mold, save the cost of developing mold for you.
5 Fast delivery!
6. Production capacity: 60,000-80,000 PCS/ month.

FAQ

Q1. What is your terms of packing?

      Generally, we pack our goods in neutral  boxes and brown cartons or as your demand.
       If you have legally registered patent,we can pack the goods in your branded boxes after getting your authorization letters.

Q2. What is your terms of delivery?

       EXW, FOB, CIF, CFR

Q3. How about your delivery time?

      Generally, it will take 10 to 30 days after receiving your advance payment.
      The specific delivery time depends on the items and the quantity of your order.

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Do Drive Couplings Require Periodic Lubrication, and If So, How Often?

Yes, drive couplings often require periodic lubrication to ensure smooth and efficient operation. The frequency of lubrication depends on the type of coupling and the specific application. Here are some general guidelines for lubricating drive couplings:

• Flexible Couplings: Most flexible drive couplings, such as elastomeric and grid couplings, do not require frequent lubrication. These couplings typically utilize elastomeric materials or grid elements that do not need lubrication. However, it is essential to inspect the coupling regularly for signs of wear or damage and lubricate any movable components if necessary. Consult the manufacturer’s guidelines for specific lubrication recommendations.
• Gear Couplings: Gear couplings, which use gear teeth to transmit torque, require periodic lubrication. The lubrication interval depends on factors like the coupling size, operating conditions, and the type of lubricant used. In many cases, gear couplings require lubrication every 3 to 6 months or after a certain number of operating hours. Regular inspections should be carried out to check the lubricant’s condition and replenish it as needed.
• Chain Couplings: Chain couplings, which employ roller chains, necessitate regular lubrication to reduce friction and wear. The frequency of lubrication can vary based on the chain type, speed, and operating conditions. Some chains require lubrication every 1 to 3 months, while others may need more frequent attention. Proper lubrication helps extend the chain’s life and maintain the coupling’s efficiency.

When applying lubrication to drive couplings, it is essential to use the recommended lubricant specified by the manufacturer. The lubricant’s properties, such as viscosity and temperature range, should align with the coupling’s requirements and the application’s operating conditions. Over-lubrication can be as detrimental as under-lubrication, so it’s crucial to adhere to the recommended lubrication amounts.

In summary, drive couplings may require periodic lubrication depending on their type and design. Following the manufacturer’s recommendations for lubrication intervals and using the appropriate lubricant helps ensure the drive coupling operates smoothly and efficiently throughout its service life.

Can Drive Couplings Compensate for Misalignments in Shafts?

Yes, drive couplings are designed to compensate for certain degrees of misalignment between shafts in mechanical power transmission systems. The ability of a coupling to accommodate misalignments depends on its type and design. Here are the common types of misalignments and the corresponding coupling types that can handle them:

• Parallel Misalignment: This type of misalignment occurs when the axes of the two shafts are parallel but not perfectly aligned. Elastomeric couplings, such as jaw couplings and tire couplings, are commonly used to handle parallel misalignment. These couplings have flexible elements that can offset slight parallel offsets between the shafts.
• Angular Misalignment: Angular misalignment refers to the situation where the axes of the two shafts are not collinear and form an angle. Flexible couplings like beam couplings and Oldham couplings are effective in accommodating angular misalignment. They have a design that allows for relative movement between the shafts while transmitting torque.
• Radial Misalignment: Radial misalignment occurs when there is a gap between the axes of the two shafts. Flexible couplings with multiple elements, such as disc couplings and grid couplings, can handle radial misalignment to some extent. These couplings use flexible components to allow relative movement between the shafts.
• Combination Misalignment: Some couplings, like universal joint couplings and double loop couplings, are designed to compensate for multiple types of misalignments simultaneously. These couplings are suitable for applications where complex misalignments exist.

It’s important to note that while drive couplings can compensate for certain degrees of misalignment, they have their limitations. Excessive misalignment or misalignments beyond their design capabilities can lead to premature wear, reduced coupling life, and decreased efficiency in power transmission. Proper alignment during installation is still essential to ensure the longevity and optimal performance of the coupling and the entire power transmission system.

When selecting a drive coupling for an application with misalignment concerns, it is crucial to consider the type and magnitude of misalignment expected and choose a coupling that can handle it effectively while still meeting other performance requirements.

How does a Flexible Drive Coupling differ from a Rigid Drive Coupling?

A drive coupling is a mechanical device used to connect two shafts in a power transmission system. Drive couplings can be broadly classified into two main categories: flexible drive couplings and rigid drive couplings. Each type offers distinct advantages and is suitable for different application requirements. Here’s how a flexible drive coupling differs from a rigid drive coupling:

Flexible Drive Coupling:

A flexible drive coupling is designed with an element that allows some degree of movement and flexibility between the connected shafts. This element can be made of various materials, such as elastomers, metal discs, or grids. The flexibility of the coupling element enables it to accommodate misalignments, shocks, and vibrations, making it ideal for applications where these factors are present.

Main Characteristics:

• Misalignment Absorption: Flexible couplings can compensate for angular, parallel, and axial misalignments between the shafts, reducing stress on connected machinery and extending component life.
• Shock and Vibration Damping: The flexible element of the coupling dampens shocks and vibrations, protecting the connected equipment from sudden impact loads and reducing noise and wear.
• Torsional Flexibility: Flexible couplings can twist and bend, providing torsional flexibility to accommodate fluctuations in torque and prevent damage from torque spikes.
• Energy Absorption: In high-torque applications, the flexible element absorbs energy and reduces peak loads, which can be beneficial for protecting the drivetrain.

Rigid Drive Coupling:

A rigid drive coupling, on the other hand, is designed to provide a direct and rigid connection between the shafts. It has little to no flexibility or movement in the coupling itself. Rigid couplings are typically used when precise shaft alignment is essential, and there is minimal misalignment or vibration in the system.

Main Characteristics:

• Precision Alignment: Rigid couplings ensure precise alignment between the connected shafts, which is critical in applications requiring accurate positioning and minimal shaft deflection.
• No Misalignment Compensation: Unlike flexible couplings, rigid couplings do not compensate for misalignments, so proper alignment during installation is crucial to prevent premature wear or damage to the equipment.
• Torsional Stiffness: Rigid couplings have high torsional stiffness, meaning they efficiently transmit torque with minimal torsional deflection.
• High Torque Capacity: Due to their solid construction, rigid couplings can handle higher torque loads compared to some flexible coupling types.

In summary, the choice between a flexible drive coupling and a rigid drive coupling depends on the specific application’s requirements, including the degree of misalignment, shock and vibration levels, torque capacity, and precision alignment needs. Flexible couplings are suitable for applications with misalignments and dynamic loads, while rigid couplings are preferred for precise positioning and high-torque applications with minimal misalignment.

editor by CX 2024-03-08