JPH02261030A - Structure of stator for motor - Google Patents

Abstract

PURPOSE:To obtain a motor high in the reliability thereof by a method wherein coil ends are arranged at the upper part and the lower part of a tubular laminated iron core, equipped with a plurality of slots on the inner peripheral surface thereof, and the coil ends are bound by semi-cure type binding threads coated with varnish while varnish coated semi-cure type insulating paper is used between respective coils. CONSTITUTION:A plurality of axially extending slots 2 are formed on the inner periphery of a laminated iron core 1 and coil ends 3, constituted of a self fusion welding wires, are provided at the upper and lower part of the axial direction of said iron core 1. The coil ends 3 are constituted of a main coil part 3a and an auxiliary coil part 3b while these parts are insulated by semi-cure type interphase insulating paper 4 coated with varnish. Further, the coil end parts are bound by semi-cure type binding threads 5 coated with varnish. Slot insulating paper, made by polyester film, is extended on the inner surface of the slots 2 and varnish coated semi-cure type insulating paper is arranged between the main coil part 3a and the auxiliary coil part 3b whereby a motor, resistible against liquid refrigerant and oil and high in the reliability thereof, may be obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Field of Application) The present invention relates to a stator structure for an electric motor, and particularly to a binding thread and insulating paper used in the stator.

(Prior Art) In general, the stator of an electric motor used in a rotary compressor has coil end portions each made of self-bonding electric wire provided above and below in the axial direction of a cylindrical laminated iron core. There is. Further, a plurality of slots extending in the axial direction are formed in the inner peripheral portion of the laminated iron core. The upper coil end portion and the lower coil end portion are connected by a coil housed in the slot. In addition, in the case of a single-phase induction motor, the coil end section consists of a main coil section and an auxiliary coil section, and the main coil section and auxiliary coil section are made of polyester film disposed inside the coil end section. Insulated by interphase insulation paper. Furthermore, the main coil part and the auxiliary coil part are tied together with a polyester squeeze thread in order to obtain an insulating effect.

On the other hand, a slot insulating paper made of polyester film is stretched over the inner peripheral surface of the slot.

A main coil section is disposed on the back side of this slot. An auxiliary coil section is disposed inside the main coil section with an interlayer insulating paper made of polyester film interposed therebetween. This interlayer insulating paper insulates the main coil section and the auxiliary coil section within the slot. Furthermore, the opening of the slot is covered by a wedge formed of insulating paper made of polyester film.

(Problem to be Solved by the Invention) However, when a large amount of liquid refrigerant returns to the compressor, the coil end becomes immersed in the liquid refrigerant, beef oil. Further, as the rotor disposed inside the laminated iron core rotates, the liquid refrigerant+oil is rubbed against the insulating paper and the tie string. As a result, there are problems in that the insulating paper may crack or the tie strings may break, reducing the reliability of the motor.

The purpose of the present invention is to solve the above-mentioned problems while
An object of the present invention is to provide a stator structure that can improve the reliability of an electric motor.

[Structure of the invention]

(Means for solving the problem) Coil end parts are arranged at the upper and lower parts of a cylindrical laminated iron core with a plurality of slots on the inner peripheral surface, and the coil end parts are varnished semi-cured type squeezers. The stator structure of the electric motor is characterized in that interphase insulating paper bound by threads and providing interphase insulation between each coil is formed of varnished semi-cured type insulating paper.

(Function) When heating is performed after assembling the stator to fix the electric wires of the self-fusing wires forming the coil section, varnish-coated semi-cure type insulating paper, etc. It will stick to and harden. Further, during the above-mentioned heating, the varnish-coated semi-cured insulating paper or the like becomes fixed by itself as the varnish hardens. Therefore, even if the liquid refrigerant beef oil rubs against insulating paper, etc.,
The insulating paper does not crack or the binding threads break, and the insulating paper sticks to itself, improving its own strength, which in turn improves the reliability of the stator as a whole. do.

(Example) Hereinafter, an example of the present invention will be described with reference to the accompanying drawings.

FIG. 1 shows a perspective view of a commonly used electric motor. Reference numeral 1 in the figure is a cylindrical laminated iron core. A plurality of slots 2 extending in the axial direction are formed in the inner peripheral portion of the laminated iron core 1. Furthermore, coil end portions 3 each made of a self-welding wire are provided on the upper and lower sides of the laminated iron core 1 in the axial direction. The upper coil end portion and the lower coil end portion are connected by a coil housed in the slot 2. Further, the coil end portion 3 includes a main coil portion 3a and an auxiliary coil portion 3b.
The main coil section 3a and the auxiliary coil section 3b are insulated by a varnish coated semi-cured type interphase insulating paper 4 disposed within the coil end section 3. Further, the main coil portion 3a and the auxiliary coil portion 3b are bound together by a varnished semi-cured type squeeze thread 5 in order to obtain an insulating effect.

On the other hand, FIG. 2 is an enlarged top view of the slot 2 portion.

A slot insulating paper 6 made of polyester film is stretched on the inner surface of the slot 2.

A main coil portion 3a is disposed on the back side of this slot 2. An auxiliary coil section 3b is disposed inside the main coil section 3a with a varnish coated semi-cured type interlayer insulating paper 7 interposed therebetween.

This interlayer insulating paper 7 insulates the main coil section 3a and the auxiliary coil section 3b within the slot 2.

Furthermore, the peak opening of the slot 2 is covered with a wedge 8 formed of varnish-coated semi-cured insulating paper.

Further, in order to fix the electric wires of the self-welding wires forming the coil portion 3, heating is performed after the stator is assembled.

As described above, in the stator structure of the present invention, the varnish-coated semi-cured insulating paper, etc. is made of varnish-coated semi-cured type insulating paper, so that when heating after assembling the stator, the varnish-coated semi-cured insulating paper, etc. is not applied to the coil ends. 3, the self-fusing wire will be fixed to the electric wire with J-. Therefore, even if the liquid refrigerant Tsuchiura hits the interphase insulating paper and rubs, the insulating paper will not crack or the tie strings will break, improving the reliability of the stator.

In addition, during the above heating, varnish-coated semi-cured insulating paper, etc. will solidify itself as the varnish hardens, so the insulating paper will not crack or the binding threads will break, and the stator reliability is improved.

Note that the present invention can also be applied to a three-phase induction motor.

〔Effect of the invention〕

As described above, the present invention uses varnish-coated semi-cured type insulating paper for inter-phase insulation between the binding threads and each coil at the coil end. Coated semi-cure type insulating paper etc. will stick to the electric wire of the self-fusing wire that forms the coil part and harden, so even if the liquid refrigerant + oil hits the insulating paper and rubs, the insulating paper will not break or break. This prevents the tie threads from breaking, improving the reliability of the stator. Also, during the above heating, varnish-coated semi-cured insulating paper, etc. may harden due to the varnish hardening.
Since the strength of the stator itself is also improved, the reliability of the stator as a whole is further improved.

[Brief explanation of drawings]

FIG. 1 is a perspective view of a commonly used electric motor, and FIG. 2 is an enlarged top view of a slot portion. DESCRIPTION OF SYMBOLS 1... Laminated iron core, 2... Slot, 3... Coil part, 3a... Main coil part, 3b... Auxiliary coil part,
4... Interlayer insulating paper, 5... Tie thread, 6... Slot insulating paper, 7... Interlayer insulating paper, 8... Wedge. Applicant's agent Mr. Sato

Claims (1)

[Claims] Coil end portions are arranged at the top and bottom of a cylindrical laminated iron core with multiple slots on the inner circumferential surface, and the coil end portions are tied with varnished semi-cured type squeeze thread, and there are A stator structure for an electric motor, characterized in that interphase insulating paper for performing interphase insulation is formed of varnish-coated semi-cured type insulating paper.