Tag Archives: rigid couplings

China supplier Couplings Fluid Flange Flexible HRC Chain Fenaflex Spacer Pin Mh Rigid Nm Jaw Gear Transmission Industrial Gearbox Manufacture Parts Pric F Flexible Coupling

Product Description

Couplings Fluid Flange Flexible HRC Chain Fenaflex Spacer PIN MH Rigid NM Jaw Gear   transmission industrial gearbox manufacture parts  pric F Flexible Coupling

YOXz is a coincidence machine with moving wheel which is in the output point of the coincidence machine and is connected with elastic axle connecting machine (plum CHINAMFG type elastic axle connecting machine or elastic pillar axle-connecting machine or even the axle-connecting machine designated by customers). Usually there are 3 connection types.

YOXz is inner wheel driver which has tight structure and the smallest axle size.The fittings of YOXz have a wide usage, simple structure and the size of it has basically be unified in the trade.The connection style of YOXz is that the axle size of it is longer but it is unnecessary to move the electromotive machine and decelerating machine. Only demolish the weak pillar and connected spiral bolt can unload the coincidence machine so it is extreme convenient. Customer must offer the size of electromotive machine axle (d1 L1) and decelerating machine axle (d2 L2). The wheel size (Dz Lz C) in the table is just for reference, the actual size is decided by customers.

 

Main Features

1. Applies to flexible drive shaft ,allowing a larger axial radial displacement and displacement.

2.Has a simple structure,easy maintenance .

3.Disassembly easy

4.low noise

5.Transmission efficiency loss,long useful working life.

 

Standard Or Nonstandard: Standard
Shaft Hole:
Torque:
Bore Diameter:
Speed:
Structure: Flexible
Samples:
US$ 9999/Piece
1 Piece(Min.Order)

|
Request Sample

China supplier Couplings Fluid Flange Flexible HRC Chain Fenaflex Spacer Pin Mh Rigid Nm Jaw Gear Transmission Industrial Gearbox Manufacture Parts Pric F Flexible Coupling
China supplier Couplings Fluid Flange Flexible HRC Chain Fenaflex Spacer Pin Mh Rigid Nm Jaw Gear Transmission Industrial Gearbox Manufacture Parts Pric F Flexible Coupling

spacer coupling

How Does a Spacer Coupling Protect Connected Equipment from Shock Loads and Vibrations?

Spacer couplings play a vital role in protecting connected equipment from shock loads and vibrations in mechanical systems. They act as a buffer between the driving and driven components, absorbing and mitigating the impact of sudden shocks and vibrations. Here’s how spacer couplings provide this protection:

1. Dampening Effect: Spacer couplings are designed with flexible elements or materials that possess inherent damping properties. When subjected to shock loads or vibrations, these flexible elements absorb and dissipate the kinetic energy, reducing the impact on the connected equipment. This dampening effect helps prevent damage to delicate components and extends the equipment’s lifespan.

2. Misalignment Compensation: In addition to damping, spacer couplings can also accommodate certain degrees of angular, parallel, and axial misalignment between the shafts. When misalignment occurs, the coupling’s flexibility allows it to adjust slightly, reducing the transmitted forces to the connected equipment. By minimizing the effects of misalignment, spacer couplings help avoid excessive forces that could lead to shock loads and vibrations.

3. Vibration Isolation: Vibrations can be generated by various sources, including unbalanced loads, motor vibrations, and external factors. Spacer couplings, with their flexible elements, act as vibration isolators, preventing the propagation of vibrations from one shaft to the other. This isolation protects the connected equipment from experiencing detrimental vibrations that may lead to wear, fatigue, or failure.

4. Torsional Stiffness: While spacer couplings offer flexibility to absorb shock loads and vibrations, they also possess adequate torsional stiffness. This property helps maintain shaft alignment and synchronization during normal operation, reducing the risk of additional vibrations caused by misalignment or torsional forces.

5. Material Selection: Spacer couplings are often manufactured from materials with excellent fatigue and shock resistance properties, such as steel or aluminum alloys. The choice of materials ensures that the coupling can withstand repeated shock loads without experiencing premature fatigue or failure.

6. Redundancy and Reliability: In critical applications where shock loads and vibrations are common, some designs incorporate multiple flexible elements or redundancies to enhance the coupling’s reliability and capacity to handle extreme conditions.

Overall, spacer couplings are essential components in mechanical systems that require protection against shock loads and vibrations. Their ability to dampen, isolate, and compensate for misalignment helps maintain the health and longevity of connected equipment, ensuring smooth and reliable operation in various industrial settings.

spacer coupling

How Does a Spacer Coupling Handle Angular, Parallel, and Axial Misalignment?

A spacer coupling is a type of flexible coupling that is designed to accommodate different types of misalignment between shafts. Here’s how it handles angular, parallel, and axial misalignment:

1. Angular Misalignment: Angular misalignment occurs when the axes of the two shafts are not parallel but intersect at a certain angle. A spacer coupling can handle angular misalignment by allowing the flexible element (such as an elastomeric or metallic component) to flex and bend when the shafts are not perfectly aligned. This bending action allows the coupling to compensate for the angular displacement between the shafts and transmit torque smoothly.

2. Parallel Misalignment: Parallel misalignment occurs when the axes of the two shafts are parallel but are offset laterally. A spacer coupling can handle parallel misalignment by virtue of its design. The spacer element (a cylindrical piece that connects the two coupling halves) provides the required lateral space between the shafts. This space allows the shafts to have a slight offset without inducing excessive stress on the machinery, thereby minimizing the risk of premature wear or failure.

3. Axial Misalignment: Axial misalignment occurs when the two shafts move closer together or farther apart along their axis. Some spacer couplings may have limited axial movement capabilities, which can help accommodate slight axial misalignment. However, it’s essential to ensure that the axial displacement is within the coupling’s specified limits to avoid overloading the coupling or the connected equipment.

Overall, spacer couplings are designed to be flexible and provide some degree of misalignment accommodation, but their ability to handle misalignment depends on their specific design and material properties. It’s essential to select the appropriate type and size of spacer coupling based on the expected misalignment and operational requirements of the machinery to ensure optimal performance and longevity of the coupling and the connected components.

China supplier Couplings Fluid Flange Flexible HRC Chain Fenaflex Spacer Pin Mh Rigid Nm Jaw Gear Transmission Industrial Gearbox Manufacture Parts Pric F Flexible Coupling  China supplier Couplings Fluid Flange Flexible HRC Chain Fenaflex Spacer Pin Mh Rigid Nm Jaw Gear Transmission Industrial Gearbox Manufacture Parts Pric F Flexible Coupling
editor by CX 2023-11-21

China Hot selling Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings

Product Description

Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings

Application of Industrial Couplings

Industrial couplings are mechanical devices that are used to transmit torque and power from 1 shaft to another. They are used in a wide variety of industries, including:

  • Material handling: Industrial couplings are used in material handling equipment, such as conveyor belts, elevators, and cranes.
  • Power generation: Industrial couplings are used in power generation equipment, such as turbines and generators.
  • Process industries: Industrial couplings are used in process industries, such as chemical plants and refineries.
  • Machine tools: Industrial couplings are used in machine tools, such as lathes and milling machines.
  • Transportation: Industrial couplings are used in transportation equipment, such as ships, trains, and airplanes.

There are many different types of industrial couplings, each with its own advantages and disadvantages. The type of coupling that is best suited for a particular application will depend on a number of factors, including the amount of torque that needs to be transmitted, the misalignment between the shafts, and the environmental conditions.

Some of the most common types of industrial couplings include:

  • Jaw couplings: Jaw couplings are simple and rugged couplings that are easy to install and maintain. They are well suited for applications where there is a risk of misalignment.
  • Gear couplings: Gear couplings are more expensive than jaw couplings, but they can transmit more torque and are less susceptible to misalignment.
  • Hirth couplings: Hirth couplings are the most expensive type of industrial coupling, but they can transmit the most torque and are the least susceptible to misalignment.

Industrial couplings are an essential part of many industrial machines and systems. They play a vital role in the transmission of torque and power, and they help to ensure the safe and efficient operation of these machines and systems.

Here are some additional benefits of using industrial couplings:

  • Increased efficiency: Industrial couplings can help to improve the efficiency of machines and systems by reducing friction and vibration.
  • Reduced downtime: Industrial couplings can help to reduce downtime by preventing damage to machines and systems.
  • Improved safety: Industrial couplings can help to improve safety by preventing machines and systems from becoming overloaded.

Overall, industrial couplings offer a number of benefits that can help to improve the efficiency, safety, and reliability of machines and systems.

Standard Or Nonstandard: Standard
Shaft Hole: 19-32
Torque: >80N.M
Bore Diameter: 19mm
Speed: 4000r/M
Structure: Flexible
Samples:
US$ 9999/Piece
1 Piece(Min.Order)

|
Request Sample

China Hot selling Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings
China Hot selling Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings

spacer coupling

How Do Spacer Couplings Compare to Other Types of Couplings in Terms of Performance?

Spacer couplings offer distinct advantages and disadvantages compared to other types of couplings, making them suitable for specific applications:

1. Misalignment Tolerance: Spacer couplings have limited flexibility and can handle only minor misalignment between shafts. In contrast, flexible couplings like elastomeric and gear couplings can accommodate higher levels of misalignment due to their elastic properties.

2. Torque Transmission: Spacer couplings provide excellent torque transmission capabilities, making them suitable for heavy-duty applications. They can efficiently transfer torque between shafts without backlash.

3. Maintenance Requirements: Spacer couplings are relatively simple in design and do not require frequent maintenance. They do not have moving parts or wearing elements, reducing the need for regular inspection and replacement.

4. Torsional Stiffness: Spacer couplings offer high torsional stiffness, ensuring precise and reliable torque transmission between the connected equipment.

5. Installation and Alignment: Installing a spacer coupling requires careful alignment between shafts. While it may be more involved compared to some flexible couplings, proper alignment is essential for optimal performance.

6. Cost: Spacer couplings are generally more cost-effective than some high-performance flexible couplings, making them an attractive choice for various industrial applications.

7. Application Suitability: Spacer couplings are commonly used in applications where rigid and reliable torque transmission is required, such as pumps, compressors, and other heavy machinery.

8. Operating Conditions: Spacer couplings can handle high temperatures, making them suitable for applications in challenging environments.

When selecting a coupling for a specific application, it is essential to consider the specific needs of the system, including the required misalignment compensation, torque transmission capacity, maintenance requirements, and operating conditions. Each coupling type has its strengths and limitations, and the choice will depend on the unique demands of the application.

spacer coupling

Use of Spacer Couplings for Motor-to-Shaft and Shaft-to-Shaft Connections

Yes, spacer couplings can be used for both motor-to-shaft and shaft-to-shaft connections in various mechanical systems and power transmission applications. The versatility of spacer couplings allows them to accommodate different types of connections between rotating machinery and shafts.

1. Motor-to-Shaft Connections:

In motor-to-shaft connections, a motor is connected to a driven shaft or component. Spacer couplings can be utilized to bridge the gap between the motor and the driven shaft while maintaining the required alignment. These couplings help transmit torque from the motor to the driven shaft efficiently, ensuring smooth power transmission. They also compensate for any misalignment between the motor and the driven shaft, reducing the risk of mechanical stress and vibration-related issues.

2. Shaft-to-Shaft Connections:

For shaft-to-shaft connections, where two shafts need to be connected together, spacer couplings provide a flexible and reliable solution. Spacer couplings can handle angular, parallel, and axial misalignment between the shafts, allowing them to operate smoothly even when there are slight deviations in alignment. This capability helps prevent excessive wear and premature failure of equipment components.

Whether in motor-to-shaft or shaft-to-shaft connections, spacer couplings play a vital role in enhancing the reliability and efficiency of power transmission systems. They help protect connected equipment from shock loads, vibrations, and misalignment, ultimately contributing to extended service life and reduced maintenance requirements.

It is essential to select the appropriate type and size of spacer coupling based on the specific application requirements, including torque capacity, operating speed, shaft size, and environmental conditions. Proper installation and alignment of the spacer coupling are crucial to ensure optimal performance and reliability of the connected equipment.

China Hot selling Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings  China Hot selling Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings
editor by CX 2023-08-29

China Good quality Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings

Product Description

Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings

Application of Industrial Couplings

Industrial couplings are mechanical devices that are used to transmit torque and power from 1 shaft to another. They are used in a wide variety of industries, including:

  • Material handling: Industrial couplings are used in material handling equipment, such as conveyor belts, elevators, and cranes.
  • Power generation: Industrial couplings are used in power generation equipment, such as turbines and generators.
  • Process industries: Industrial couplings are used in process industries, such as chemical plants and refineries.
  • Machine tools: Industrial couplings are used in machine tools, such as lathes and milling machines.
  • Transportation: Industrial couplings are used in transportation equipment, such as ships, trains, and airplanes.

There are many different types of industrial couplings, each with its own advantages and disadvantages. The type of coupling that is best suited for a particular application will depend on a number of factors, including the amount of torque that needs to be transmitted, the misalignment between the shafts, and the environmental conditions.

Some of the most common types of industrial couplings include:

  • Jaw couplings: Jaw couplings are simple and rugged couplings that are easy to install and maintain. They are well suited for applications where there is a risk of misalignment.
  • Gear couplings: Gear couplings are more expensive than jaw couplings, but they can transmit more torque and are less susceptible to misalignment.
  • Hirth couplings: Hirth couplings are the most expensive type of industrial coupling, but they can transmit the most torque and are the least susceptible to misalignment.

Industrial couplings are an essential part of many industrial machines and systems. They play a vital role in the transmission of torque and power, and they help to ensure the safe and efficient operation of these machines and systems.

Here are some additional benefits of using industrial couplings:

  • Increased efficiency: Industrial couplings can help to improve the efficiency of machines and systems by reducing friction and vibration.
  • Reduced downtime: Industrial couplings can help to reduce downtime by preventing damage to machines and systems.
  • Improved safety: Industrial couplings can help to improve safety by preventing machines and systems from becoming overloaded.

Overall, industrial couplings offer a number of benefits that can help to improve the efficiency, safety, and reliability of machines and systems.

Standard Or Nonstandard: Standard
Shaft Hole: 19-32
Torque: >80N.M
Bore Diameter: 19mm
Speed: 4000r/M
Structure: Flexible
Samples:
US$ 9999/Piece
1 Piece(Min.Order)

|
Request Sample

China Good quality Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings
China Good quality Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings

spacer coupling

Can Spacer Couplings Accommodate High Torque and High-Speed Applications?

Yes, spacer couplings are designed to accommodate both high torque and high-speed applications. These couplings are known for their ability to transmit torque efficiently between shafts and handle various operating conditions. The design and material selection of spacer couplings allow them to excel in demanding industrial settings. Here’s how they handle high torque and high-speed applications:

1. Torque Capacity: Spacer couplings are often constructed with robust materials such as steel or stainless steel, which provide high torque capacity. The coupling’s design and material properties allow it to transmit substantial amounts of torque without failure. In heavy-duty applications, where high torque is prevalent, spacer couplings are a preferred choice.

2. High-Speed Operation: Spacer couplings are also well-suited for high-speed applications. The design of the coupling ensures a secure connection between the shafts while maintaining balance during rotation. The coupling’s precise machining and balance prevent vibration and misalignment, allowing for smooth operation at high rotational speeds.

3. Torsional Stiffness: Spacer couplings have good torsional stiffness, meaning they resist twisting under torque. This characteristic is essential for high-speed applications, as it helps maintain accurate shaft synchronization and minimizes torsional vibrations.

4. Customization: Manufacturers offer various spacer coupling designs and sizes to cater to specific torque and speed requirements. Depending on the application’s demands, users can select spacer couplings with the appropriate torque and speed ratings.

5. Maintenance: Proper maintenance is essential for ensuring that spacer couplings continue to handle high torque and high-speed applications effectively. Regular inspections, lubrication, and alignment checks can help identify and address potential issues before they escalate into problems.

When choosing a spacer coupling for high torque and high-speed applications, it is crucial to consider factors like the application’s torque and speed requirements, environmental conditions, and the coupling’s material and design specifications. Proper selection and installation of the spacer coupling contribute to the reliable and efficient performance of the machinery.

spacer coupling

How Does a Spacer Coupling Handle Angular, Parallel, and Axial Misalignment?

A spacer coupling is a type of flexible coupling that is designed to accommodate different types of misalignment between shafts. Here’s how it handles angular, parallel, and axial misalignment:

1. Angular Misalignment: Angular misalignment occurs when the axes of the two shafts are not parallel but intersect at a certain angle. A spacer coupling can handle angular misalignment by allowing the flexible element (such as an elastomeric or metallic component) to flex and bend when the shafts are not perfectly aligned. This bending action allows the coupling to compensate for the angular displacement between the shafts and transmit torque smoothly.

2. Parallel Misalignment: Parallel misalignment occurs when the axes of the two shafts are parallel but are offset laterally. A spacer coupling can handle parallel misalignment by virtue of its design. The spacer element (a cylindrical piece that connects the two coupling halves) provides the required lateral space between the shafts. This space allows the shafts to have a slight offset without inducing excessive stress on the machinery, thereby minimizing the risk of premature wear or failure.

3. Axial Misalignment: Axial misalignment occurs when the two shafts move closer together or farther apart along their axis. Some spacer couplings may have limited axial movement capabilities, which can help accommodate slight axial misalignment. However, it’s essential to ensure that the axial displacement is within the coupling’s specified limits to avoid overloading the coupling or the connected equipment.

Overall, spacer couplings are designed to be flexible and provide some degree of misalignment accommodation, but their ability to handle misalignment depends on their specific design and material properties. It’s essential to select the appropriate type and size of spacer coupling based on the expected misalignment and operational requirements of the machinery to ensure optimal performance and longevity of the coupling and the connected components.

China Good quality Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings  China Good quality Industrial Couplings Transmission Parts Flange Rigid Pin Spacer HRC Mh Nm Fenaflex Spacer Motor Shaft Universal Half Oldham Tyre Drive Industrial Couplings
editor by CX 2023-08-08

China best Elastomer Plum Type Flexible Jaw Shaft Rigid Couplings for Sale dry break coupling

Product Description

For cylindrical shaft, please provide:
Shaft end gap length B(mm): Center height H(mm):
High speed shaft:
Driving end: shaft diameter d1(mm) , shaft length L1(mm) , key groove width b(mm) , key groove depth t(mm) ;
Driven end: shaft diameter d2(mm) , shaft length L2(mm) , key groove width b(mm) , key groove depth t(mm) ;
Low speed shaft:
Driving end: shaft diameter d1(mm) , shaft length L1(mm) , key groove width b(mm) , key groove depth t(mm) ;
Driven end: shaft diameter d2(mm) , shaft length L2(mm) , key groove width b(mm) , key groove depth t(mm) ;
Notice:
1. If you do not provide B or H, it is defaulted to enough space for installation based on parameters in catalog.
2. If your requirement is different from this drawing, please provide your technical drawing.

♦FAQ
Q 1: Are you trading company or 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 of 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: Do you provide samples ? Is it free or extra ?
Yes, we could offer the sample but not for free.Actually we have a very good price principle, when you make the bulk order then cost of sample will be deducted.

Q 5: How long is your warranty?
A: Our Warranty is 12 month under normal circumstance.

Q 6: What is the MOQ?
A:Usually our MOQ is 1pcs.

Q 7: Do you have inspection procedures for coupling ?
A:100% self-inspection before packing.

Q 8: Can I have a visit to your factory before the order?
A: Sure,welcome to visit our factory.

Q 9: What’s your payment?
A:1) T/T. 2) L/C 

 

Standard Or Nonstandard: Standard
Shaft Hole: 19-32
Torque: 70-80N.M
Bore Diameter: 19mm
Speed: 4000r/M
Structure: Flexible
Customization:
Available

|

Customized Request

gearbox

Programming With Couplings

A coupling is a mechanical device that connects two shafts together and transmits power. Its purpose is to join rotating equipment and allows some degree of end-movement or misalignment. There are many different types of couplings. It’s important to choose the right one for your application.

Mechanical connection between two shafts

There are many ways to achieve mechanical connection between two shafts, including the use of a coupling. One common type is the beam coupling, which is also known as a helical coupling. It is used for transmission of torque between two shafts. This type of connection accommodates axial, parallel and angular misalignments.
The hubs and shafts of a worm gear are connected together by a coupling. This mechanical connection allows one shaft to turn another without causing a mechanical failure. This type of coupling is made from sliding or rubbing parts to transfer torque. However, the coupling is not designed to withstand jerks, so it isn’t suitable for high-speed applications.
The use of a coupling is common in machinery and equipment. It helps transmit power from one drive shaft to the other, while adding mechanical flexibility. It is also useful for reducing the impact and vibration caused by misalignment. It also protects the drive shaft components from wear and tear.
A double-hook coupling can be used to provide a uniform angular velocity at the driven shaft. Another example is a double-jointed coupling. A double-jointed coupling can be used to connect shafts that are not directly intersecting. The double-jointed yoke can be used for the same purpose.
A shaft coupling is a device that maintains a strong mechanical connection between two shafts. It transfers motion from one shaft to another, at all loads and misalignments. Unlike a conventional linkage, a shaft coupling isn’t designed to allow relative motion between the two shafts. Couplings often serve several purposes in a machine, but their primary use is torque and power transmission.

Functions that control the flow of another function

One of the simplest programming constructs is a function that controls the flow of another function. A function can take an argument and return a different value, but it must be ready to return before it can pass that value to another function. To do this, you can use the goto statement and the if statement. Another way to control flow is to use a conditional statement.
gearbox

Criteria for selecting a coupling

There are several important factors to consider when choosing the right coupling. One of the most important factors is coupling stiffness, which depends on the material used and the shape. The stiffness of a coupling determines its ability to resist elastic deformation. A stiff coupling is desirable for certain types of applications, but it’s undesirable for others. Stiffness can reduce the performance of a system if there’s too much inertia. To avoid this, ensure that the coupling you choose is within the recommended limits.
The size of a coupling is also important. Different coupling types can accommodate different shaft sizes and shapes. Some couplings have special features, such as braking and shear pin protection. When choosing a coupling, you should also consider the type of driven equipment. If you need to connect a high-torque motor, for example, you’ll want to choose a gear coupling. Likewise, a high-speed machine may require a disc coupling.
Another factor to consider when selecting a coupling is the torque rating. Despite its importance, it’s often underestimated. The torque rating is defined as the torque of the coupling divided by its OD. In some cases, torque may fluctuate during a cycle, requiring a coupling with a higher torque rating.
Torsionally flexible couplings are also important to consider. Their design should be able to withstand the torque required during operation, as well as the required speed. The coupling should also have a high degree of torsional stiffness, as well as damping. Furthermore, a damping coupling can reduce the energy wasted through vibration.
The sizing of a coupling is also determined by the torque. Many engineers use torque to select the correct coupling size, but they also take into consideration torsional flexibility and torsional stiffness. For example, a shaft may be able to handle large torque without damaging the coupling, while a disk may be unable to handle large amounts of torque.
Besides torque, another important consideration in coupling selection is the cost. While a coupling may be cheaper, it may be less reliable or easier to maintain. Couplings that are difficult to service may not last as long. They may also require frequent maintenance. If that’s the case, consider purchasing a coupling with a low service factor.
There are many different types of couplings. Some require additional lubrication throughout their lifetime, while others are 100% lubrication-free. An example of a 100% lubrication-free coupling is the RBI flexible coupling from CZPT. This type of coupling can significantly reduce your total cost of ownership.
In addition to the above-mentioned benefits, elastomeric couplings are low-cost and need little maintenance. While they are often cheaper than metallic couplings, they also have excellent shock absorption and vibration dampening properties. However, they are susceptible to high temperatures. Also, they are difficult to balance as an assembly, and have limited overload torque capacity.
China best Elastomer Plum Type Flexible Jaw Shaft Rigid Couplings for Sale   dry break couplingChina best Elastomer Plum Type Flexible Jaw Shaft Rigid Couplings for Sale   dry break coupling
editor by CX 2023-04-26

China IMC/ Rigid Coupling Three Pieces Type Couplings Malleable Iron/Steel a coupling reaction

Merchandise Description


ELECMAN  IMC/ Rigid Coupling A few Pieces Variety Couplings Malleable Iron/Metal

Merchandise: IMC/ Rigid Coupling Three Parts Type Couplings Malleable Iron/Steel

Material: Steel / Malleable Iron

Type: A few piece type

Software: 

ELECMAN IMC/RIGID 3 piece couplings are utilized to few the 2 ends of IMC/RIGID when the conduit can not be turned.     

Functions: 

• All malleable construction insures mechanical protection of the raceway
• Supply concrete-restricted connection
• All components are zinc electro plated for corrosion security
• Offered dimensions from 1/2″ to 4″

Cat.# Trade Size
TPC050 one/2″
TPC075 3/4″
TPC100 1″
TPC125 one-1/4″
TPC150 one-1/2″
TPC200 two”
TPC250 two-1/2″
TPC300 3″
TPC350 3-1/2″
TPC400 four”
TPC350 five”
TPC400 6″

ELECMAN QC department shell out a lot consideration to managing the high quality.
 

PACKING Info

Packing is so crucial, good packing can support buyers to boost the brand graphic, good packing also can aid can assist consumers to inventory the products well for more time time. 

For internal packing, use small carton boxes or self sealing plastic bag, for external packing, use good quality corrugated carton. 
Inner PACKING: Small carton box or self sealing plastic bag 
External PACKING: Corrugated Carton

ELECMAN can comply with any packing requirements of clients. 

Other names: Unión Erikson, UNIONES ERICSON,  Union Erickson 3 Hembra,  Copla Erickson – Unión Americana

Shipping Cost:

Estimated freight per unit.



To be negotiated|


Freight Cost Calculator

Connection: Female
Structure: Universal
Flexible or Rigid: Rigid
Samples:
US$ 0.6/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

|

Customized Request