China manufacturer High Quality Machinery Parts Transmission Drive Roller Chain Coupling Sprocket Gear Kc Series Shaft Couplings

Product Description

Product Description

 

Hot Selling GL Type Spline Rigid Shaft Couplings Roller Chain Coupling For Industry Machine

FEATURES
Manufactured according to relevant industrial standards 
Available in many sizes, ratings, and product types, including flexible shaft couplings and OK couplings 
Fabricated from a variety of high-grade steel 

BENEFITS
Several surface treatment processes protect against corrosion  
Customized products are available 
Large couplings withstand very high torque 
Flexible shaft couplings compensate for shaft misalignment

The chain coupling consists of two-strand roller chains, 2 sprockets and AL-Alloy cover, features simple and compact structure, and high flexibility, power transmission capability and durability.

What’s more ,the chain coupling allows simple connection/disconnection, and the use of the housing enhances safety and durability.

Advantages:

1. Material:  C45 steel, Aluminum, Rubber and plastic etc.

2. High efficiency in transmission

3. Finishing: blacken, phosphate-coat, and oxidation.

4. Different models suitable for your different demands

5. Application in wide range of environment.

6. Quick and easy mounting and disassembly.

7. Resistant to oil and electrical insulation.

8. Identical clockwise and anticlockwise rotational characteristics.

9. Small dimension, low weight, high transmitted torque.

10. It has good performance.
 

Partnerships Reliable Supply-Chain:

Based on our experienced team and strict, effective supply chain management, Granville products deliver premium quality, and performance our customers have relied on for years. From a full range of bearings, mounted bearing units, power transmission products, and related markets around the world, we provide the industry’s most comprehensive range of qualified products available today.

Advantage Manufacturing Processesand Quality Control:

01 Heat Treatment

02 Centerless Grinding Machine 11200 (most advanced)

03 Automatic Production Lines for Raceway

04 Automatic Production Lines for Raceway

05 Ultrasonic Cleaning of Rings

06 Automatic Assembly

07 Ultrasonic Cleaning of Bearings

08 Automatic Greasing, Seals Pressing

09 Measurement of Bearing Vibration (Acceleration)

10 Measurement of Bearing Vibration (Speed)

11 Laser Marking

12 Automatic Packing

1 Prevent from damage.
2. As customers’ requirements, in perfect condition.
3. Delivery : As per contract delivery on time
4. Shipping : As per client request. We can accept CIF, Door to Door etc. or client authorized agent we supply all the necessary assistant.

FAQ

Q 1: Are you a trading company or a manufacturer?
A: We are a professional manufacturer specializing in manufacturing various series of couplings.

Q 2:Can you do OEM?
Yes, we can. We can do OEM & ODM for all the customers with customized artworks in PDF or AI format.

Q 3:How long is your delivery time?
Generally, it is 20-30 days if the goods are not in stock. It is according to quantity.

Q 4: How long is your warranty?
A: Our Warranty is 12 months under normal circumstances.

Q 5: Do you have inspection procedures for coupling?
A:100% self-inspection before packing.

Q 6: Can I have a visit to your factory before the order?
A: Sure, welcome to visit our factory.

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Can Drive Couplings Handle Reversing Loads and Shock Loads Effectively?

Yes, drive couplings are designed to handle reversing loads and shock loads effectively in various industrial applications. Their ability to accommodate these dynamic loads makes them suitable for many power transmission scenarios. Here’s how drive couplings handle reversing loads and shock loads:

• Reversing Loads: Drive couplings, especially flexible couplings like elastomeric, grid, and gear couplings, can handle reversing loads without difficulty. These couplings have torsional flexibility, which allows them to compensate for angular misalignments and absorb shocks during load reversals. As the direction of the load changes, the coupling flexes and adjusts accordingly, minimizing stress on the connected equipment. This flexibility also reduces the wear and tear on both the coupling and the connected machinery, leading to improved durability and extended service life.
• Shock Loads: Drive couplings are engineered to handle shock loads efficiently. Shock loads are sudden, high-intensity forces that can occur during equipment start-ups, stops, or unexpected changes in operating conditions. Elastomeric couplings are particularly effective in damping these shock loads due to the flexibility of their elastomeric elements. Grid couplings with a spring-like grid structure and gear couplings with rigid teeth also excel at distributing and absorbing shock loads. Even chain couplings, designed with roller chains, can effectively handle shock loads by absorbing the impact through the rollers and chain links.

When selecting a drive coupling for an application that involves reversing loads or shock loads, it’s essential to consider factors such as the magnitude and frequency of the loads, the operating environment, and the specific coupling’s design capabilities. Manufacturers often provide load capacity charts and guidelines to help users select the appropriate coupling for their requirements.

Proper maintenance and regular inspections are also essential to ensure that the coupling remains in good working condition. Monitoring the coupling’s performance and addressing any signs of wear or damage promptly can prevent unexpected failures and enhance the overall reliability of the power transmission system.

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.

Can a Damaged Drive Coupling Lead to Transmission Issues in Vehicles?

Yes, a damaged drive coupling can lead to transmission issues in vehicles. Drive couplings are critical components that connect the engine to the transmission and other drivetrain components, allowing the transfer of power and torque. When a drive coupling is damaged or worn, it can negatively affect the performance and reliability of the entire transmission system. Here are some ways in which a damaged drive coupling can lead to transmission issues:

• Power Loss: A damaged drive coupling may not efficiently transfer power from the engine to the transmission. This can result in a loss of power, leading to reduced acceleration and overall vehicle performance.
• Transmission Slippage: When a drive coupling is damaged, it may not provide a secure connection between the engine and the transmission. This can lead to transmission slippage, where the transmission fails to engage properly, causing the vehicle to hesitate or slip out of gear while driving.
• Increased Transmission Wear: A damaged drive coupling can cause vibrations and misalignments in the drivetrain, leading to increased wear on the transmission components. Excessive wear can result in premature failure of transmission gears, bearings, and other critical parts.
• Difficulty in Shifting Gears: A faulty drive coupling may result in difficulty shifting gears, making it hard for the driver to smoothly transition between different gears. This can lead to jerky gear shifts and impact the vehicle’s overall drivability.
• Strange Noises: A damaged drive coupling may produce unusual noises, such as clunking, rattling, or grinding sounds, indicating a problem in the drivetrain. These noises can be a warning sign of potential transmission issues.
• Overheating Transmission: If a drive coupling is not functioning correctly, it may cause the transmission to work harder to compensate for the power loss. This increased workload can lead to overheating of the transmission fluid, potentially causing damage to internal components.
• Transmission Fluid Leaks: In some cases, a damaged drive coupling can cause leaks in the transmission system. Transmission fluid leaks can result in a loss of fluid, leading to decreased lubrication and potential damage to the transmission.
• Poor Fuel Efficiency: A malfunctioning drive coupling can contribute to poor fuel efficiency since the engine may not efficiently transfer power to the transmission and wheels, leading to increased fuel consumption.

It is essential to regularly inspect and maintain the drive coupling and other transmission components to prevent potential issues. If any signs of damage or wear are noticed, it is crucial to address the problem promptly and replace the damaged drive coupling to avoid further transmission problems and ensure the vehicle’s safe and smooth operation.

editor by CX 2024-05-02