Product Description

Product Description

 

The magnetic wheel is a non-contact power transmission device that uses the principle of interaction between the attraction and the repulsion force of the magnet.
The magnetic wheel is a non-contact driven product in the production line of LCD, PDP, PCB, TFT, OLED, SOLAR CELL, etc. in a clean environment that does not allow fine impurities. It can replace mechanical gears driven by friction.
 

Detailed Photos

 

Features

 

Dust-free environment	Using magnetic force, in the non-contact state, it can be used to transfer products in a vacuum where a dust-free environment is required.
Low gas discharge	Large machines into the vacuum machine, in order to reduce gas, according to special surface treatment, can be used in 10-5PA environment
Low sound	It has a subwoofer effect unimaginable in previous transmission machines such as gears and conveyor belts. Can provide a clean and tidy production environment.
Torque limit function	If the abnormal load is generated, the 2 magnetic gears will rotate separately to achieve the torque limit function. In addition, because of the non-contact environment, no mechanical wear, because the service life is longer than the previous transmission tools such as gears.
Reduce cost	Reduce operating costs without replacing parts due to wear and tear. Because even if the vacuum standby is repeated, it will not have any impact on the performance, so there is no need for complex and expensive design in the past

 

Product Parameters

 

Using

 

Other Products

 

Packaging & Shipping

 

FAQ

 

Q: Are you trading company or manufacturer ?
A: We are manufacturer.
Q: How to order ?
A: Normally you can order our products by using Made-in China platform or contacting representatives by Email. 
After we receive your messages, we will help you to choose the right specifications and other inquiries. 
Then we will send an proforma invoice to you via mail, it includes details of your order and our bank information. 
After we received your payment by TT, we will ship your goods and we will send the invoice, packing list, and the express tracking number via mail.
Q: What is our term of trade ?
A: Usually we use EX WORKS. If you need other term of trade, please let us know.
Q: How to pay ?
A: We accept the payment by T/T (bank transfer) or pay through Made-in China platform. 
Please inquire us about the details in advance.
Q: How are you going to deliver our goods ?
A: We can ship your goods either by air express (FedEx, DHL, UPS, TNT etc) or by sea. 

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Maintenance Requirements for Magnetic Couplings to Ensure Long-Term Performance

Magnetic couplings are designed to be low-maintenance compared to traditional mechanical couplings. However, some maintenance practices can help ensure their long-term performance and reliability. Here are the key maintenance requirements for magnetic couplings:

1. Regular Inspection:

   Perform regular visual inspections of the magnetic coupling to check for signs of wear, damage, or misalignment. Look for any unusual noises or vibrations during operation, which may indicate a potential issue that requires attention.

2. Cleanliness:

   Keep the magnetic coupling and surrounding area clean and free from dirt, debris, or contaminants. Foreign particles on the coupling’s surface can affect its magnetic performance and lead to energy losses.

3. Lubrication:

   Magnetic couplings do not require traditional lubrication since they operate without physical contact. However, some couplings may have bearings or other components that require lubrication. Refer to the manufacturer’s guidelines for specific lubrication requirements.

4. Environmental Considerations:

   Ensure that the operating environment of the magnetic coupling is within the specified limits provided by the manufacturer. Extreme temperatures, aggressive chemicals, or other harsh conditions can affect the performance and longevity of the coupling.

5. Alignment Check:

   Periodically check the alignment of the driving and driven shafts. Although magnetic couplings can tolerate some misalignment, ensuring proper alignment will optimize efficiency and reduce stress on the coupling components.

6. Torque and Speed Limits:

   Adhere to the specified torque and speed limits for the magnetic coupling based on the application requirements. Operating the coupling beyond its rated capacity can lead to premature failure.

7. Overload Protection:

   If the application involves occasional overloads, consider incorporating overload protection features, such as torque limiters or slip mechanisms, to prevent damage to the coupling and connected equipment.

8. Regular Maintenance Schedule:

   Establish a regular maintenance schedule based on the manufacturer’s recommendations. Periodic inspections, cleaning, and other maintenance tasks can help identify and address potential issues before they escalate.

9. Expert Support:

   When in doubt or if encountering any significant issues, seek assistance from the magnetic coupling manufacturer or a qualified engineer. They can provide guidance on maintenance best practices and address any specific concerns related to the coupling’s performance.

By following these maintenance requirements, you can ensure the long-term performance, reliability, and efficiency of the magnetic coupling in your application.

What are Some Real-World Examples of Successful Magnetic Coupling Implementations in Different Industries?

Magnetic couplings have found successful implementations in various industries, offering reliable and efficient solutions for a wide range of applications. Here are some real-world examples of their successful use:

1. Chemical and Petrochemical Industry:

   In chemical and petrochemical processes, magnetic couplings are employed in pumps and agitators to prevent fluid leakage and ensure a hermetically sealed system. This eliminates the risk of hazardous chemicals escaping into the environment and protects the integrity of the process.

2. Pharmaceutical Industry:

   In pharmaceutical manufacturing, magnetic couplings are used in mixers and reactors. The hermetically sealed design prevents contamination and allows for sterile operation, ensuring the highest level of product purity and quality.

3. Food and Beverage Industry:

   Magnetic couplings are used in pumps and mixers for food and beverage processing. The hermetic sealing feature ensures that there is no product contamination, meeting stringent food safety standards and maintaining the integrity of the processed food and beverages.

4. Automotive Industry:

   In automotive applications, magnetic couplings find use in cooling systems and turbochargers. Their high efficiency and reliability improve engine performance, and their non-contact design eliminates the need for lubrication, reducing maintenance requirements.

5. Renewable Energy:

   In wind turbines, magnetic couplings are used to transmit power from the turbine rotor to the generator. The maintenance-free operation and reliable power transmission make magnetic couplings a valuable component in wind turbine systems.

6. Aerospace Industry:

   Magnetic couplings are used in aerospace applications, such as aircraft fuel systems. Their leak-free design and tolerance to misalignment make them suitable for critical aerospace applications where safety and reliability are paramount.

7. Marine Industry:

   In marine applications, magnetic couplings are utilized in pumps and propulsion systems. Their ability to handle high torque and maintain efficiency at various speeds makes them suitable for different marine vessels and offshore platforms.

8. Mining and Minerals:

   Magnetic couplings are employed in mining equipment, such as slurry pumps. Their robust construction and tolerance to abrasive materials enhance the reliability and longevity of the mining equipment in harsh operating conditions.

These real-world examples demonstrate the versatility and effectiveness of magnetic couplings across multiple industries. Their ability to provide hermetic sealing, prevent fluid leakage, and offer reliable power transmission without mechanical wear makes them a valuable solution in critical systems where efficiency, safety, and reduced maintenance are essential considerations.

How to Select the Right Magnetic Coupling for Specific Fluid Handling Systems

Selecting the right magnetic coupling for fluid handling systems requires careful consideration of various factors to ensure optimal performance and reliability. Here are the key steps to help you make the right choice:

1. Fluid Properties:

   Understand the properties of the fluid being handled, including its viscosity, temperature, and corrosiveness. High-viscosity fluids may require magnetic couplings with stronger torque capabilities, while corrosive fluids may necessitate materials with excellent chemical resistance, such as stainless steel or specialized coatings.

2. Flow Rate and Pressure:

   Assess the required flow rate and system pressure. Magnetic couplings must be capable of transmitting the necessary torque to handle the fluid flow at the desired pressure levels. High-pressure systems may require magnetic couplings with enhanced strength and reliability.

3. Misalignment Compensation:

   Consider the potential misalignment between the motor and pump shafts. Magnetic couplings are known for their ability to accommodate misalignment to some extent. Assess the expected misalignment in your fluid handling system and choose a coupling with appropriate flexibility to compensate for it.

4. Sealing Requirements:

   Examine the sealing requirements of the fluid handling system. Magnetic couplings can provide hermetic sealing, preventing fluid leakage or contamination in critical applications. Ensure that the chosen coupling offers the necessary level of sealing to suit your system’s needs.

5. Torque and Speed Ratings:

   Check the torque and speed ratings of the magnetic coupling. Ensure that the selected coupling can handle the required torque and speed for your fluid handling application. High-speed pumps may require magnetic couplings specifically designed to minimize eddy current losses.

6. Environmental Conditions:

   Consider the environmental conditions in which the magnetic coupling will operate. Factors such as temperature extremes, humidity, and exposure to harsh chemicals can impact the coupling’s performance and lifespan. Choose a coupling that is designed to withstand the specific environmental challenges.

7. System Integration:

   Ensure that the magnetic coupling can be easily integrated into your fluid handling system. Consider factors such as coupling dimensions, mounting options, and alignment procedures. A well-integrated coupling will simplify installation and maintenance processes.

8. Manufacturer Reputation:

   Work with reputable manufacturers with a proven track record in producing high-quality magnetic couplings for fluid handling systems. Check for certifications and industry compliance to ensure the coupling meets required standards.

By carefully evaluating these factors and selecting a magnetic coupling that aligns with the specific fluid handling system requirements, you can ensure reliable and efficient operation while minimizing the risk of downtime and maintenance issues.

editor by CX 2024-04-13