Guarantee: 1 year
Relevant Industries: Garment Outlets, Manufacturing Plant, Machinery Fix Outlets, Retail, Printing Outlets, Other, Promoting Firm, cnc machine, 3d printer, energy transmission, automation, robotics
Personalized assistance: OEM, KWVE45-B-G3-V1 Slide Units Linear Bearing CZPT Brand name KWVE45-B-N Linear Carriage Ball Bearing KWVE45 ODM, OBM
Framework: Oldham
Adaptable or Rigid: Versatile
Standard or Nonstandard: Regular
Material: Aluminium
Color: sliver white and black
content: alumimium and nylon
the rated torque: 19.0N.m
the best merits: electrical insulation
Merchandise title: Factory direct-sale Jh2-micro Motor Couplings/torque Limiter
Certification: ISO9001:2008
MOQ: 10 items
Packaging Information: transport package:picket situations revenue package:carton
Port: ZheJiang ,HangZhou
Manufacturing facility immediate-sale Jh2-micro Motor Couplings/torque Limiter
Setscrew oldham adaptable coupling characteristic:
For servomotor,stepmotor ,minmotor,encode couplings,
Oldham kind flexible coupling
Makes it possible for substantial parallel and angular misalignments
Zero backblash
Large torsional stiffness and response
Straightforward configuration allow simplicity of assembly
Setscrew kind.
Manufacturing unit
Associated Items
Our Summary :
| Jaw coupling Aluminum:7075 tough aluminum Spider:Bayer from Germany Screw:twelve.9 course screw Advantage: 1.Jaw coupling is the most well-liked coupling variety 2.It has the largest rated torque among these sort couplings for the same OD three.It is with high expense functionality four.Can change the deviation extremely nicely. 5.Zero backlash Disadvantage: The spider will be worn out if utilized for a lengthy time.Then the couplings will be not zero backlash | |
| Bellows coupling Aluminum:7075 tough aluminum hub Bellows:304 stainless Screw:12.9 class screw Advantage: one.Can alter the deviation very nicely. two.Do not need also large set up accuracy 3.Zero backlash 4.Bear higher temperature 5.Prolonged support time Drawback: 1.Cost is highest since of the stainless steel | |
| Disc coupling
Aluminum:7075 hard aluminum hub | |
| Oldham coupling one.Hub:7075 aluminum 2.Insert:polyformaldehyde three.Screw:12.9 course Advantage: one.Can adjust the radial tolerance really properly. two.Do not require high set up precision three.Lower expense Downside: 1.Can’t modify the Axial deviation extremely effectively 2.Insert will be worn out when making use of for a long time | |
| Rigid coupling one.7075 Aluminum two.Screw:twelve.9 course Gain: 1.Least expensive cost 2.Ask for substantial set up accuracy Disadvantage: one.Are not able to adjust deviation two.Very easily to break for low installation accuracy | |
| Beam coupling 1.7075 Aluminum two.Screw:twelve.9 class Advantage: 1.AIO, Chainless Shaft Travel Entrance Correct Auto Axle Driving Shafts for VW 1K0407272RK High transmission precision two.Lower price Disadvantage: one.Are not able to change large deviation |
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FAQQ: How extended can I get reply following send inquiry?
A: All inquiries will be replied in 12 several hours, also you may possibly phone us at any time.
Q: How shortly can I get sample ?
A: Generally common sample can be ship out in 7days, and for the personalize areas, it will depond on the depth requirment.
Q:What data should I give to you for inquiry?
A:Pls ship the element of the specification and QTY, also specail requires and many others, and it is far better you can send out us the detail drawings or catalogue.
Q: If I don’t have drawing or catalogue, how can I get sample ?
A:If you really don’t have the drawing or catalogue, you can deliver us your sample, so we can make the drawing and sample accordingly.
Q:What is the Guarantee for your merchandise?
A:Usually our guarantee is 1 year.
The Benefits of Using a Torque Limiter
Using a torque limiter can be very beneficial, as it can save a lot of energy in the long run. It can also be used to protect a piece of equipment from damage, as it will protect the item from being overloaded. This is an important factor in many industries, and can save a lot of money.
Placement of a torque limiter
Typically, a torque limiter is located at the output of an electric motor, a gearbox, or other rotating mechanism. It is used to limit torque to a preset level. The torque limiter protects the motor or gearbox from overload and jamming. Torque limiters are used in industrial robots, conveyors, and sheet metal processing equipment. Using a torque limiter can save you money and protect your machinery from damage.
Torque limiters are available in various sizes and can be used in practically any application. The most important criterion for choosing a torque limiter is drive torque. It is important to place the torque limiter near the drive train to ensure maximum protection. The torque limiter must be larger than the output shaft of the motor.
Ball detent torque limiters are a popular type of limiter. These limiters use balls or rollers in sockets to decouple the drive and driven elements. When the torque exceeds a preset level, the balls slide out of the sockets.
Torque limiters come in various forms, including mechanical, pneumatic, and magnetic. These limiters can be used in any environment and provide advantages in certain niche applications. These limiters are easy to install and replace. They can also be adjusted to provide the desired slipping torque.
Friction torque limiters are a simple, low-cost method of protecting the higher cost components of a machine. They operate similarly to automotive brakes, using hardened balls or rollers in sockets to decouple drive and driven elements.
Ball detent limiters are usually adjustable through a rotating collar. The balls or rollers try to engage the next set of detents when the torque exceeds the preset level. A ball detent limiter can also have a snap acting spring.
Torque limiters can also be packaged as shaft couplings. This allows for the limiter to be placed between a gearbox and the motor, preventing overload and jamming.
Electronic torque limiters are also available. These limiters can be adjusted to the torque required for a particular machine cycle. This feature is especially useful in applications where linear load increases at a slow rate. A torque limiter may also have a trip indicator.
Magnetic torque limiters
Using magnetic torque limiters can improve the performance of your equipment. It can prevent the risk of catastrophic failure, which can lead to extensive repairs. It can also be a cost-effective way to prevent damage.
There are two different types of magnetic torque limiters. One is the synchronous magnetic torque limiter, which uses permanent magnets mounted on each shaft. The other is the aeronautical magnetic torque limiter, which is designed to operate in line with a mechanical gearbox.
Torque limiters are typically used in sheet metal processing, printing and converting equipment, and robotics. They can also be used on conveyors and in other automated applications. These devices are commonly made of heat treated steel.
Magnetic torque limiters can be used in a wide range of temperatures. Compared to friction torque limiters, they don’t wear out as quickly and are less prone to fatigue. They also have quick response times. They don’t require lubrication. They are also easy to maintain. The parts are sealed with thread locking adhesive. They also require less clearance, which prevents wear.
Torque limiters are also known as overload safety devices. These devices prevent unnecessary downtime by disconnecting a motor from a driven system when a torque load reaches a specified limit. They can also prevent workplace accidents. They are typically used in conveyors, woodworking machines, and industrial robots.
Magnetic torque limiters are typically more expensive than friction torque limiters. They are also not as easy to integrate into a system as friction limiters. They are also not suited for applications with high torque demands. The magnetic torque limiter has a greater backlash than the friction type. However, they can be used in a variety of applications, and they don’t require continuous maintenance. They also offer a degree of torsional elasticity.
The aeronautical magnetic torque limiter is designed to withstand up to 200 overload events. Its design has been tested to operate at a temperature range from -50 degC to +90 degC. It has been shown to work correctly throughout the range.
It is important to place torque limiters in the right location. They should be placed between expensive mechanisms. They also should be positioned to prevent tripping.
Friction torque limiters
Often considered an old technology, friction torque limiters have a lot to offer. They are low cost, simple mechanical devices that can prevent damage from overloads. A proper understanding of these devices can help you select the one that is right for your needs.
Friction torque limiters work by removing rotational energy from the drive train. They are typically used in industrial and agricultural machinery, as well as in textile processing and assembly lines. The units are available in several different sizes and formats.
Torque limiters are available as ball detent units, shaft-to-shaft couplings, and even friction units. They operate similarly to automotive brakes. However, they are much more predictable than their cousins. The amount of torque transmitted by the unit can be adjusted with a hand-operated knob. They can also be combined with other drive components to provide additional flexibility.
These units are typically made of black phosphated steel. They feature a flanged or threaded hub and two friction rings. They are available in various sizes and come in simplex, duplex, and triplex versions. The hub can be mounted on a pulley or sheave.
Depending on the application, friction torque limiters may be used in both directions of torque transmission. They can be paired with flexible coupling to accommodate small angular misalignments. Some systems are available in a single position, while others offer a random reset device.
When a torque overload occurs, the torque limiter slips until the overload is overcome. The unit also acts as a clutch, allowing the output side to stop rotating until the overload is resolved.
The design of friction torque limiters allows for a wide range of torques. Depending on the application, the units can operate at high speeds. However, they are not recommended for applications that use high speeds because they can heat up, overheat, and produce unwanted wear.
For applications that require higher torques, it is a good idea to use a torque sensing device. This allows the operator to adjust the settings to prevent overloads. It is also useful in applications where torques are varying due to temperature or humidity.
Over-torque limiters
Various mechanical overload devices are used to prevent damage from accumulated rotational energy. Some are also called slip clutches. They disconnect a drive from a driven component when the load exceeds a pre-determined torque threshold.
Mechanical overload devices are often used in applications that require high torque levels. For example, windmill test stands and industrial crushers require operation at torque levels greater than 10 KNm. They are also used in gas turbines. Some are designed for industrial gearboxes and stepper motors. They are also used in marine applications.
Mechanical overload devices are available in various designs, including pawl-detent, ball-detent, and friction. These devices are adapted for various applications, including high-speed operation, light weight, and high accuracy.
Ball-detent torque limiters work by transmitting force through hardened balls. These limiters have been used for hundreds of years, but are more sophisticated now. They can be configured with multiple detent positions, and may also include a compression adjustment. They may require a manual reset after an overload.
Other mechanical overload devices include friction and hydraulic torque limiters. The friction type works by generating torque between contact surfaces. These devices may also employ friction plates. The hydraulic type applies hydraulic pressure between free spinning surfaces. They may also employ shear ring or shear tube designs.
Mechanical overload devices can disengage a drive line from a driven component within a few milliseconds after an overload occurs. These devices can also adjust the torque limit by using a single screw. These devices may also include proximity sensors to detect the source of a jam.
A torque limiter may also be implicated in no-start conditions. These systems may emit a noise on start up, but should not be accompanied by squealing or rattling. If a torque limiter is malfunctioning, it may be damaged or incorrectly installed. This will lead to unplanned downtime and increased maintenance costs.
Torque limiters may also be used to prevent collisions between production machines. These devices can disengage a drive from a driven component when it encounters a collision. Some designs may also incorporate safety couplings. This will reduce the risk of damage to the drive or the workpieces.
editor by czh 2023-06-27