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Ability to implement rotary drives in higher temperature environments

A temperature environment, rotary drive technology, applied in the direction of electromechanical devices, electrical components, synchronous machines, etc., can solve the problems of large driving torque, complex structure, large radial shaft size, etc., to achieve increased rotational output torque, simplified manufacturing and equipment , the effect of reducing the radial size of the shaft

Active Publication Date: 2018-04-13
杨斌堂
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The existing rotary drive device is mainly a rotary motor. This kind of mechanism itself has a relatively complicated structure, and often needs to be combined with other transmission components to control the motion. The efficiency is low and the response speed is slow.
In particular, in the case of limited volume, it is often unable to provide a large driving torque, and cannot meet the needs of modern industry for micro precision drive control and positioning
[0003] In the existing rotating shaft, the stator of the rotating shaft and the mover of the rotating shaft can only be arranged non-coaxially, resulting in a large radial dimension of the shaft, and the permanent magnet will demagnetize at high temperature, causing the driving effect to decrease due to high temperature and cannot work
[0004] At present, there is no description or report of the similar technology of the present invention, and no similar data at home and abroad have been collected yet.

Method used

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  • Ability to implement rotary drives in higher temperature environments
  • Ability to implement rotary drives in higher temperature environments
  • Ability to implement rotary drives in higher temperature environments

Examples

Experimental program
Comparison scheme
Effect test

no. 1 example

[0087] figure 1 It is a structural schematic diagram of the rotary driving device that can be implemented in a relatively high temperature environment in the first embodiment of the present invention. The first embodiment is a preferred example of the above-mentioned basic embodiment. In this embodiment, one side of the rotating shaft stator is provided with a rotating shaft mover; the number of the rotating shaft stator is one. The reset mechanism drives the opposite end surfaces of the mover magnet and the stator magnet to rotate to a dislocation position. The reset mechanism can be a hinge spring or a torsion spring. Such as figure 1 as shown, figure 1 The dotted line in the mark indicates the fixed position link of the rotating shaft stator, which can be fixed by interference fit or fastened connection by fasteners such as screws.

[0088] The shape of the opposite end faces of the mover magnet and the stator magnet can be adopted in various ways, such as Figure 2 t...

no. 2 example

[0091] Figure 6 It is a schematic structural diagram of a rotary drive device capable of implementing a rotation drive in a relatively high temperature environment in the second embodiment of the present invention. The second embodiment is a preferred example of the above-mentioned basic embodiment. In this embodiment, both sides of the rotating shaft stator are provided with rotating shaft movers; both ends of the rotating shaft stator are respectively provided with stator magnets; and the stator magnets respectively located at both ends of the rotating shaft stator are coaxially arranged. The stator magnet set at one end of the stator of the rotating shaft is denoted as stator magnet A1, and the mover magnet which interacts with stator magnet A1 to form a magnetic circuit structure is denoted as mover magnet B1; the stator magnet set at the other end of the stator of the rotating shaft is denoted as stator magnet A2, the mover magnet that interacts with the stator magnet A...

no. 3 example

[0094] Figure 7 It is a structural schematic diagram of a rotary drive device capable of implementing a rotation drive in a relatively high temperature environment in the third embodiment of the present invention. The third embodiment is a preferred example of the above-mentioned basic embodiment. In this embodiment, multiple rotating shaft stators are connected in series on the rotating shaft, and multiple sets of rotating shaft movers are correspondingly arranged, thereby increasing the output torque of the rotating shaft and providing greater driving force.

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Abstract

The present invention provides a rotary drive device capable of implementing rotation in a relatively high temperature environment, wherein the stator of the rotating shaft and the mover of the rotating shaft are coaxially or non-coaxially arranged; Relative rotation between non-displaced positions. In the present invention: the stator and the mover can be arranged in the same axial direction, which realizes the reduction of the radial dimension of the shaft; the coil yoke and the rotor magnetic attraction body can be magnetically conductive materials, which are different from permanent magnets and can be used at a higher The rotor yoke can be used at high temperature; the rotor yoke can be embedded in the groove of the rotor structure with multiple small units, so that the size adjustment of the yoke in the direction of rotation can be easily realized according to a single column and its combination; multiple stators The rotor pair is combined in series, which can double the rotational output torque; when the coil in the stator is composed of two coils, the reciprocating rotation can be realized by alternately energizing the two coils and acting on the adjacent mover .

Description

technical field [0001] The present invention relates to drive technology, in particular, to a rotary drive device that can be implemented in a relatively high temperature environment. Background technique [0002] The precision controllable rotation drive device is mainly used in the adjustment of the spatial position of the mechanism, the tracking of the target object, and the active control of the vibration of the flexible structure. By controlling the rotation of the sub-components, the adjustment of the spatial position of the mechanism is realized, and then the tracking of the target object and the active control of the vibration of the flexible structure are realized. The existing rotary driving device is mainly a rotary motor, which has a relatively complex structure and often needs to be combined with other transmission components to control the motion, with low efficiency and slow response speed. In particular, in the case of limited volume, it is often unable to p...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02K21/00H02K16/00
Inventor 杨斌堂
Owner 杨斌堂
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