Method of manufacturing straight-winding thin-wall hollow rotor cup

A hollow rotor and manufacturing method technology, applied in the field of permanent magnet DC servo motors, can solve the problems of low strength and uniformity of the cup wall with pores, etc., improve the molding rate, overcome the lack of material concentricity and the poor uniformity of the cup wall , the effect of long-term use

Active Publication Date: 2016-11-09
XIAN MICROMOTOR RES INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

It solves the problems of low strength, pores and poor uniformity of the cup wall in the straight winding thin-walled hollow rotor cu

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] A method for manufacturing a thin-walled hollow rotor cup with straight windings, the specific process is:

[0040] Step 1, using the wire of self-adhesive and self-welding polyurethane enameled wire to carry out the coil winding process;

[0041] Step 2: Arrange the wires according to the requirements of the winding expansion diagram of the thin-walled hollow rotor cup with straight windings. Any positioning pin on the mandrel and any fixed wire pin on the rotor bracket are on a horizontal line for hanging wires. , determine the virtual slot, and there must be no intersection in the slot; and the rotor bracket for manufacturing the straight-winding thin-walled hollow rotor cup of the present invention is made of engineering plastics, and the number of fixing pins is the same as the number of motor slots;

[0042] In step 3, the outer circle of the winding coil obtained in step 2 is evenly wound with an alkali-free glass fiber ribbon for 5 turns, wherein the root of the...

Embodiment 2

[0048] A method for manufacturing a thin-walled hollow rotor cup with straight windings, the specific process is:

[0049] Step 1, using the wire of self-adhesive and self-welding polyurethane enameled wire to carry out the coil winding process;

[0050] Step 2: Arrange the wires according to the requirements of the winding expansion diagram of the thin-walled hollow rotor cup with straight windings. Any positioning pin on the mandrel and any fixed wire pin on the rotor bracket are on a horizontal line for hanging wires. , determine the virtual slot, and there must be no intersection in the slot; and the rotor bracket for manufacturing the straight-winding thin-walled hollow rotor cup of the present invention is made of engineering plastics, and the number of fixing pins is the same as the number of motor slots;

[0051] In step 3, the outer circle of the winding coil obtained in step 2 is evenly wound with an alkali-free glass fiber ribbon for 10 turns, wherein the root of the ...

Embodiment 3

[0057] A method for manufacturing a thin-walled hollow rotor cup with straight windings, the specific process is:

[0058] Step 1, using the wire of self-adhesive and self-welding polyurethane enameled wire to carry out the coil winding process;

[0059] Step 2: Arrange the wires according to the requirements of the winding expansion diagram of the thin-walled hollow rotor cup with straight windings. Any positioning pin on the mandrel and any fixed wire pin on the rotor bracket are on a horizontal line for hanging wires. , determine the virtual slot, and there must be no intersection in the slot; and the rotor bracket for manufacturing the straight-winding thin-walled hollow rotor cup of the present invention is made of engineering plastics, and the number of fixing pins is the same as the number of motor slots;

[0060] In step 3, the outer circle of the winding coil obtained in step 2 is evenly wound with an alkali-free glass fiber ribbon for 8 turns, wherein the root of the...

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PUM

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Abstract

The invention discloses a method of manufacturing a straight-winding thin-wall hollow rotor cup, which comprises steps of coil winding, wire arrangement, primary reinforcement, welding, heating and setting, secondary reinforcement and the like. The secondary reinforcement step comprises sub steps of insulated potting, vacuum gas escape processing and stepwise solidification processing sequentially on the winding coil, and after cooling and demolding, the straight-winding thin-wall hollow rotor cup is obtained. The problems that the straight-winding thin-wall hollow rotor cup in the prior art is not high in strength, gas holes exist, and the cup wall uniformity is poor can be solved, and the molding rate of the straight-winding thin-wall hollow rotor cup and the qualified rate of products can be improved.

Description

technical field [0001] The invention belongs to the technical field of permanent magnet DC servo motors, and relates to a thin-walled hollow rotor cup device for the motor, in particular to a method for manufacturing a straight-winding thin-walled hollow rotor cup. Background technique [0002] As a smooth armature DC motor, the coreless armature permanent magnet DC servo motor has the advantages of general permanent magnet DC motors such as linear mechanical characteristics, speed adjustment characteristics, torque-current characteristics, etc.; It has the characteristics of small moment of inertia, excellent dynamic characteristics, and small torque fluctuation (can be controlled within 2%). Therefore, this kind of motor is used in systems that require fast action, frequent starting, and forward and reverse rotation, such as car transmission. However, the rotor of this motor has no iron core, which means that the winding has no skeleton support on the rotor. It is a rotat...

Claims

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Application Information

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IPC IPC(8): H02K15/02H02K15/04H02K15/10
CPCH02K15/02H02K15/0435H02K15/105
Inventor 张侠王会玲李巧石维涛
Owner XIAN MICROMOTOR RES INST
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