Shaft coupling is a machine element that connect shafts. Tsubaki offers an extensive line-up of couplings to meet diversified needs -- from general applications to high precision servo motor applications.
Chain Couplings
Flexible couplings, two strands of robust chains specially designed for couplings wrapped around two sprockets used for general power transmission operations. Also available are economical couplings with polyacetal or other resin chain provided with sprockets.
Disk Couplings
A lube-free coupling with high torsional stiffness, no backlash, and the best features of servo motors. The disc, optimally shaped through finite element analysis, reliably transmits torque while smoothly absorbing misalignment.
Beam/Bellows Couplings
A beam coupling is a small precision coupling that can absorb large axial misalignment from both shafts by means of helical slits. A bellows coupling can easily transmit torque very precisely with no backlash thanks to its bellows construction.
Elastomer Couplings
Tsubaki's line-up includes Jaw-Flex Couplings (in two types: L Series, perfect for direct connection to standard motors, and LN Series, ideal for absorbing shock with no backlash during servo motor starts and stops), Neo-Flex Couplings that use uniquely formed neoprene compressed and press fitted into the flange, and Oldham Couplings with a large allowable parallel eccentricity and excellent durability.
Power Rigid Coupling
A rigid coupling for machine tools that employs a taper-lock structure to ensure a more reliable connection. Please note that while it has the highest torsional rigidity, it cannot absorb any misalignment.
MIKI PULLEY-COUPLINGS
It can be very difficult to fully center two shafts when connecting them together. Shaft deflection caused in operation of the machinery, thermal expansion of the shafts, warping of support plates over long periods of use, and wear of shaft bearings can also make it difficult to keep the shafts centered. The role of the coupling is to resolve these types of problems through the selection of the right coupling for the job. Miki Pulley provides a wide range of coupling products not just for general purpose motors, but for everything from servo motors, which demand ultra-precise control, to engines, which generate high vibration and large shocks.
COUPLINGS
These metal disc-spring couplings with ultra-high torsional stiffness were developed for servo motor applications. The disc-spring method provides excellent properties: firmness in the torsional direction but flexibility in the bending, step-difference, and axial directions. The disc spring that serves as the element has an unbeatable theoretically derived shape that is the result of rigorous analysis with the latest finite element method.
STEPFLEX couplings for servo stepping motors that boast high damping performance. Our newly developed laminated rubber element (HNBR) achieves high damping and low reaction force. These couplings absorb vibration faster than flexible couplings that use metal in their elastic components. This suppresses the resonance phenomenon that can occur with stepping motors.
These are rigid couplings with ultra-high torsional stiffness that were developed for servo motor applications. Unlike flexible couplings, they have no element to absorb differences between the centers of the two shafts, so they have very high torsional stiffness.
These couplings connect a hub that mounts on the shaft to another hub, separated by a metal coil. They achieve excellent flexibility, compact size, and high torque. Different models may connect either a shaft to another shaft or a shaft to a flange.
These are pin-bushing type couplings whose bodies are made of aluminum alloy. Backlash is kept extremely low by making the torsional stiffness of all components very high and combining high-precision pins with dry metal. A universal system is used for all hub coupling, which makes shaft reaction force due to mounting misalignment extremely small. There is also a damping effect from sliding at the friction surface between the pin and dry metal.
When transmitting power between shafts with different centers, which have traditionally been constituted of a spline shaft and a universal joint, Schmidt couplings can be used to efficiently transmit power in a compact form factor. Schmidt couplings are couplings with different shaft centers that use the crank motion of a link. They not only allow power transmission when shaft centers are different, they also enable translation of shaft centers while rotating.
The simple construction of these couplings sandwiches a buffer piece called an element (made of polyurethane elastomer) between two hubs. Elements of two different hardnesses are available so you can select the appropriate one for your torque transmission responsiveness and amount of misalignment. Since the design pre-compresses the element, it can also be used without backlash.
These couplings have a simpler design that sandwiches a rubber buffer (nitrile rubber) between two hubs. The hub is lightweight, being made of aluminum alloy. Mounting on a shaft is easy. Simply hold a straight-edge to the hub periphery to center it. One source of appeal is that its simple construction means lower cost.
These couplings absorb vibration and have extremely low counter force caused by mounting misalignment, thanks to the use of a plastic boot made of resin with excellent elastic properties (polyester resins). They are compact and lightweight, since the aluminum alloy hub and boot are designed with a unitized construction. Thanks to the unitized construction, they are easy to mount and remove, and there is no backlash. They come in three sizes, and all are highly flexible couplings that allow eccentricity of 0.5 mm and an angle of deflection of 10°.
Rubber couplings dampen and absorb shock and vibrations using the elasticity of rubber, while plastic couplings do the same with plastics. Their advantages include high flexibility, low noise, easy maintenance (because they do not require lubrication), simple construction, and long service life.
NBK - Couplings
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Name | High Gain Type | Disk Type | Jaw Type | Slit Type | Oldham Type |
Feature | For High Gain,High Vibration Absorption, Zero Backlash | High Torsional Stiffness, High Torque, Zero Backlash |
High Torque, Vibration Absorp- tion, Press Fitted Sleeve |
Single-Piece Construction, Zero Backlash, High Torsional Stiffness |
High Allowable Misalignment, Small Eccentric Reaction Force |
Diameter | φ15 ~ φ56 | φ15 ~ φ104 | φ14 ~ φ95 | φ8 ~ φ63 | φ6 ~ φ70 |
Torque | 0.5N・m ~ 35N・m | 0.5N・m ~ 200N・m | 0.7N・m ~ 560N・m | 0.1N・m ~ 35N・m | 0.08N・m ~ 176N・m |
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Name | Cross Joint Type | Rigid Type | Bellows Type | Serration Type | Flexus |
Feature | Small Eccentric Reaction Force, High Torsional Stiffness, Vibration Absorption |
Single-Piece Construction, Standardization of Two Different End Bores | Constant Velocity, Zero Backlash, Simple |
Low Cost, High Allowable Misalignment, Vibration Absorption |
Multifunctional spring action parts made from a variety of materials. |
Diameter | φ15 ~ φ40 | φ16 ~ φ65 | φ12 ~ φ32 | φ16 ~ φ32 | - |
Torque | 0.3N・m ~ 6N・m | 0.3N・m ~ 35N・m | 0.07N・m ~ 3N・m | 0.5N・m ~ 3N・m | - |
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