KR200209506Y1 - Insulation structure of a motor - Google Patents

Abstract

In the insulation structure of the disclosed motor, a plurality of slots are formed in the stator, a coil is wound between the slot and the slot, and the end coil is formed on the upper end of the stator. The insulating member formed on both sides is fitted, and the insulating member fitted to the end coil is bundled and fixed together with a endless yarn together with the end coil. According to this, the insulating member formed on both sides of the bent portion bent downward is fitted and fixed to both sides of the end coil, the end coil is fixed to the threading yarn together with the insulating member, so that when the end coil is fixed to the threading yarn, the insulating member flows This can be prevented.

Description

Insulation structure of a motor

The present invention relates to an insulation structure of a motor, and more particularly, to an insulation structure of a motor that can facilitate the fixing operation of the insulation to prevent the loop wire of the upper end of the motor from contacting the upper end of the coil wound on the stator. It is about.

In general, a motor is a machine that converts mechanical energy, especially power, into a medium such as electricity, oil, air, and water, and is converted into mechanical energy, in particular, power. An electric motor, a hydraulic motor, a pneumatic motor, and a hydraulic motor according to the type of medium used. In recent years, brushless DC motors are widely used, taking advantage of the mechanical contact between brush and commutator, compared to brushed DC motors.

A portion of the motor used for the compressor among these electric motors is shown in FIG. 1.

As shown, the conventional motor has a structure in which the stator 12 is fixed inside the housing 10, and a rotator (not shown) is rotated in the center of the stator 12.

A plurality of slots 12a are formed in the stator 12, and insulating paper 14 is inserted in the plurality of slots 12a, and a coil (between the slot 12a and the slot 12a in which the insulating paper 14 is inserted). 16) is wound.

In addition, the coil 16 is wound between the slot 12a and the slot 12a. The coil 16 is wound between the slot 12a and the slot 12a, and a part of the coil 16 is exposed to the upper end of the stator 12. . As such, the coils that are exposed to the top of the stator 12 among the coils wound between the slot 12a and the slot 12a are referred to as end coils 18.

In this way, the end coil 18 exposed to the top of the stator 12, as shown in FIG. The operation of tying the end coil 18 to the bundle member as described above is referred to as a lacing operation, and the bundle member is referred to as a lacing yarn 20.

As described above, the end coil 18 bound by the lacing yarn 20 has a problem that the coil 11 is damaged or a short circuit accident occurs when the loop 11 provided on the upper end of the motor contacts the end coil 18 as shown in FIG. 1. There was this.

As such, in order to prevent the loop 11 from contacting the end coil 18, the end coil 18 is insulated by a separate insulating member 22. The operation of insulating the insulating member 22 is as follows. To perform.

After the coil 16 is wound between the slot 12a and the slot 12a, the portion of the loop 11 touching the end coil 18 exposed on the top of the stator 12 is wrapped with the insulating member 22. As shown in FIG. 3, the insulating member 22 is temporarily fixed using the cable tie 24. Then, the end coil 18 is fixed to the lacing yarn 20. At this time, the insulating member 22 is also secured together with the lacing yarn (20). When the insulating member 22 is fixed with the lacing yarn 20 in this manner, the cable tie 24 which temporarily fixes the insulating member 22 is cut and removed.

Since the insulating member 22 for preventing the loop 11 from contacting the end coil 18 and short-circuiting in the conventional motor is made of a polyester film, the end coil 18 is bundled and secured by the lacing yarn 20. In this case, since the insulating member 22 flows, the insulating member 22 is temporarily fixed using a separate cable tie 24 as described above, and then the insulating member 22 is latched to the end coil 18. After fixing with the thread 20, the cable tie 24 is removed.

That is, in order to fix the insulating member 22, the work of temporarily fixing the insulating member 22 with the cable tie 24 and the work of removing the cable tie 24 are required. There is a problem that the unnecessary process number is added, the productivity is lowered, and the manufacturing cost is increased.

Therefore, the present invention has been devised to solve the above problems, by forming an insulating member that insulates the end coil exposed on the top of the stator to be fitted to the end coil, to fix the end coil with a lacing yarn In this case, an object of the present invention is to provide an insulating structure of a motor that facilitates fixing of the insulating member.

1 is a perspective view showing a part of a general motor,

2 is a view showing a state in which an insulation member is bundled with a cable tie to an end coil wound on a stator of a conventional motor;

3 is a view showing an insulated state of the end coil wound on the stator of the conventional motor,

4 is a view showing the insulating structure of the motor according to the present invention,

5 is a perspective view showing an insulating member according to the present invention,

6 is a view showing a state before fixing the insulating member of the motor according to the present invention, the Lessing yarn,

Explanation of symbols on the main parts of the drawings

100; Stator 101; slot

110; Coil 112; End coil

120; Insulation member 120a; Bend

122; Lessing

Insulation structure of the motor according to the present invention for achieving the object as described above, a plurality of slots are formed in the stator, the coil is wound between the slot and the slot, the end coil is formed on the top of the stator motor In the end coil, the insulating member formed on both sides of the bent portion bent downwardly is fitted, the insulating member fitted to the end coil is tied together with the end coil and secured by a binding yarn do.

The insulating member is injection molded, and has an arc shape, and the bent portion is elastically formed.

Hereinafter, with reference to the accompanying drawings will be described in more detail the configuration and operation of the insulating structure of the motor according to the present invention.

Figure 4 is a view showing the insulating structure of the motor according to the present invention, Figure 5 is a perspective view showing an insulating member according to the present invention, Figure 6 shows a state before fixing the insulating member of the motor according to the present invention with a Lessing yarn. Drawing.

As shown, the insulation structure of the motor according to the present invention, a plurality of slots 101 are formed in the stator 100, the coil 110 is wound between the slot 101 and the slot 101, the stator The insulating member 120 is fitted to the end coil 112 formed at the upper end of the upper part, and the end coil 112 and the insulating member 120 are fixed to the lacing yarn 122.

As shown in FIG. 5, the insulating member 120 has an arc shape, and bent parts 120a are bent downward on both sides. The bent portion 120a is formed to be fitted to both sides of the end coil 112. In addition, the insulating member 120 is injection molded, and the bent portion 120a is elastically formed. The insulating member 120 is preferably made of a material that is easy to manufacture as a non-conductive non-conductive material, and is formed of a material that can be injection molded.

Therefore, when the insulating member 120 is fixed to the end coil 112, the bent portion (120a) is opened to both sides and then fixed to both sides of the end coil (112).

In the motor according to the present invention configured as described above, the coil 110 is wound between the slot 101 and the slot 101 of the stator 100, the insulating member on the end coil 112 formed on the top of the stator 100 The bent part 120a of 120 is inserted after opening both sides. Then, the end coil 112 in which the insulating member 120 is inserted is fixed together with the sealing member 122 together with the insulating member 120.

As such, since the bent portion 120a of the insulating member 120 is temporarily fixed in the state in which the end coil 112 is tightly fixed and does not flow, the work of fixing the end coil 112 to the lacing yarn 122 is very difficult. It has the advantage of convenience.

As described above, according to the present invention, the insulating member formed on both sides of the bent portion bent downward is fitted and fixed to both sides of the end coil, the end coil is fixed to the Lessing yarn together with the insulating member, thereby fixing the end coil to the Lessing yarn In this case, the insulating member can be prevented from flowing, and as a result, it is not necessary to temporarily fix the insulating member with a separate cable tie as in the related art, thereby facilitating the operation of tying the end coil to the lacing yarn. There are advantages to it.

Claims (2)

In a motor in which a plurality of slots are formed in the stator, a coil is wound between the slot and the slot, and an end coil is formed on the top of the stator. Insulation member formed on both sides of the bent bent portion is bent to the end coil, the insulation member fitted to the end coil is fixed to the end coil and tied together with the ending coil is fixed, characterized in that the motor. The insulation structure of a motor according to claim 1, wherein the insulation member is injection molded and has an arc shape, and the bent portion is formed elastically.