KR100556964B1 - Stator structure for motor - Google Patents

Abstract

The present invention relates to a stator structure of a motor, wherein a slot insulating paper is mounted in a slot of a stator core formed by stacking core steel plates, and a stator coil is wound thereon to rotate a rotor inserted into a center of the stator core. When winding the stator coil, a bent portion bent at a predetermined angle is formed at at least one of both ends of the slot insulating paper to disperse the force acting on the coil, and the amount of the stator core so that the bent portion can be supported. The stepped portion is formed to increase the size of the slot of the core steel sheet laminated at the end to be stepped with the adjacent slot, and the varnish is applied between the bent portion of the slot insulating paper and the stepped portion of the stator core, thereby improving the insulation performance of the slot insulating paper. At the same time, the number of products can be reduced and manufacturing costs can be reduced.

Description

Stator structure of the motor {STATOR STRUCTURE FOR MOTOR}

1 is a half sectional view showing a stator structure of a conventional motor;

2 is an enlarged cross-sectional view of the main part of FIG. 1;

3 is a cross-sectional view showing a stator structure of a motor according to an embodiment of the present invention;

** Description of the symbols for the main parts of the drawings **

111: stator core 112, 112a: core steel sheet

112b: step 116, 116a: slot

131: slot insulation paper 132: slot insulation paper body

133: bend

The present invention relates to a stator structure of a motor, and more particularly, to improve the structure of the core constituting the stator, to prevent damage to the insulating paper by the coil wound, and to reduce the number of parts at the same time In providing.

1 is a half sectional view showing a stator structure of a conventional motor, and FIG. 2 is an enlarged main sectional view of FIG.

As shown, the stator of the motor, a plurality of rotor receiving hole 14 is formed in the center and the center of the rotor receiving hole 14 is open to the center so that the rotation axis of the rotor (not shown) can be disposed along the vertical direction A stator core 11 having a slot 16 formed therein, and a stator coil 21 wound and inserted into the slot 16 of the stator core 11. A lead wire 24 extends / draws above the stator coil 21, and a connector 26 for connecting to an external power source is provided at the end of the lead wire 24. The end coil portions 22 formed on the upper and lower sides of the stator core 11 are bound by the binding band 28.

The stator core 11 is formed by insulation laminating a plurality of core steel plates 12 having a plurality of slots 16 formed around the rotor receiving hole 14 and the rotor receiving hole 14 penetrated at the center thereof. A wedge 19 is inserted into the opening 17 of the slot 16 to prevent the stator coil 21 from escaping through the opening 17. The stator coil 21 is inserted into each slot 16. ) And a slot insulating paper 31 for insulating the stator core 11 are inserted.

Each slot insulating paper 31 is inserted into the slot 16 of the stator core 11 so that the outer surface is in contact with each other, and both ends of the slot insulating paper main body 32 protrude from the upper and lower ends of the stator core 11. And folding portions 33a and 33b which are bent in the thickness direction from the upper end and the lower end of the slot insulating sheet main body 32 and disposed outside the slot 16.

On the other hand, between the folding part 33a and the slot insulating paper main body 32 arranged above the stator core 11 in response to the external force acting on the upper end coil part 22 in manufacturing, the stator coil 21 and the stator core The reinforcement insulating paper 35 is inserted so that the withstand voltage failure between 11 is not generated.

However, in the motor stator having the conventional structure as described above, when the stator coil 21 is wound, a force acts in a direction perpendicular to the slot insulating paper 31 by the stator coil 21 so that the folded portions 33b at both ends thereof. ) May be damaged to reduce the insulation, inserting the reinforcement insulating paper 35 in order to prevent this, but there is a problem that the material cost is increased, the labor time is long, productivity is lowered.

The object of the present invention devised in view of the above point is to improve the structure of the stator in which the stator core is laminated and the stator coil is wound, thereby preventing damage to the slot insulating paper by the stator coil and at the same time reducing the material cost. It is to provide a stator structure of the motor.

The stator structure of the motor for achieving the object of the present invention as described above is equipped with a slot insulating paper in the slot of the stator core formed by stacking the core steel plate, the stator coil is wound thereon is inserted into the center of the stator core In the rotating motor, a bent portion bent at a predetermined angle is formed at at least one of both ends of the slot insulating paper to disperse the force acting on the coil when winding the stator coil, so that the bent portion can be supported The stepped portion is formed to increase the size of the slot of the core steel sheet laminated at both ends of the stator core so as to step with the neighboring slots, and the varnish is applied between the bent portion of the slot insulating paper and the stepped portion of the stator core.

In addition, the bent portion of the slot insulating paper is preferably configured to be bent to have an acute angle with respect to the longitudinal direction.

Hereinafter, a stator structure of a motor, which is an embodiment of the present invention, will be described in detail with reference to the accompanying drawings. Hereinafter, the same parts as in the conventional structure will be described with the same reference numerals.

Figure 3 is a cross-sectional view showing a stator structure of the motor of an embodiment of the present invention, as shown in the stator structure of the motor of the embodiment of the present invention so that the rotation axis of the rotor (not shown) can be disposed along the vertical direction In the stator core 111 and the slot 116 of the stator core 111, the rotor receiving hole 114 is formed in the center, and the plurality of slots 116 open to the center side around the rotor receiving hole 114 are formed. A stator coil 121 is wound around the stator coil 121. The lead wire 24 extends / draws on the upper side of the stator coil 121, and a connector 26 for connecting to an external power source is provided at the end of the lead wire 24. The end coil portions 22 formed on the upper and lower sides of the stator core 111 are bound by the binding band 28.

The stator core 111 is formed by insulation laminating a plurality of core steel plates 112 having a plurality of slots 116 formed around the rotor receiving hole 114 and the rotor receiving hole 114 penetrated at the center thereof. A stepped portion 112b is formed to increase the size of the slot 116a of the core steel plate 112a stacked on both ends of the stator core 111 to be stepped with the neighboring slot 116.

A wedge 19 is inserted into the opening 17 of the slot 116 to prevent the stator coil 121 from escaping through the opening 17, and the stator coil 121 is inserted into each slot 116. ) And a plurality of slot insulating papers 131 are inserted to insulate the stator core 111.

The slot insulating paper 131 is a slot insulating paper main body 132 is inserted so that the outer surface is in contact with the inside of the slot 116 of the stator core 111, and the upper and lower ends of the slot insulating paper main body 132 (top and bottom) 116 has a bent portion 133 bent at an acute angle toward the inside, and at the end of the bent portion 133 is bent to overlap in the thickness direction and folded portion 133a disposed outside the slot 116 is Is formed.

In addition, in order to maintain the stator core 111 in a stacked state, the varnish is formed between the slots 116a and the bent portion 133 of the core steel plate 112a stacked at both ends of the stator core 111. The varnish is filled in the stepped part 112b.

Referring to the manufacturing process of the stator core 111 configured as described above in more detail as follows.

In the manufacture of the stator core 111 of the motor, as shown in FIG. 3, a plurality of core steel plates 112 are stacked in a direction perpendicular to the longitudinal direction, and the slots of the core steel plates 112a stacked at both ends. Since the 116a is formed to be stepped with the slot 116 of the neighboring core steel plate 112, a stepped portion 112b is formed, and a varnish is applied to fix the stacked core steel plates 112, and at this time, the stepped portion 112b ) Is filled with varnish.

Each slot 116 has a plurality of slot insulating paper 131 is inserted to insulate the stator coil 121 and the stator core 111, the bent portion bent at both ends of the slot insulating paper (131) ( 133 is in contact with the slot 116a formed in the core steel plate 112a at the end and is supported by the varnish filled in the step portion 112b, in which the stator coil 121 is wound.

At this time, the bent portion 133 of the slot insulating paper 131 is formed in a structure bent at an acute angle so as to contact the slot 116a formed in the core steel plate (112a) laminated on both ends of the stator core 111, the stator coil ( The force applied by the stator coil 121 to the slot insulating paper 131 at the time of winding 121 is divided into a direction perpendicular to the longitudinal direction of the slot insulating paper 131 at the slot insulating paper bent portion 133 and a horizontal direction. Therefore, the force acting in the vertical direction that damages the insulating state of the slot insulating paper 131 is reduced.

As described above, the stator structure of the motor according to the present invention is formed such that the slots 116a of the core steel plates 112a stacked on both ends of the stator core 111 are stepped with the slots 116 of the neighboring core steel plates 112. The stepped portion 112b is formed, and the bent portion 133 is bent to contact the slot 116a at both ends of the slot insulating paper 131, and the varnish is filled in the stepped portion 112b to form the bent portion ( 133 is formed so as to reduce the force acting in a direction perpendicular to the longitudinal direction of the slot insulating paper 131 applied to the bent portion 133 by the stator coil 121 when winding the stator coil 121. Thus, the insulating performance of the slot insulating paper 131 is maintained.

As described above, the stator structure of the motor according to the present invention is formed so that the slots of the core steel sheets stacked on both ends of the stator core are stepped with the slots of the neighboring core steel sheets to form stepped portions, and at both ends of the slot insulating paper. By forming a bent portion bent to contact the slot formed in the core steel plate of both ends and filling the varnish in the stepped portion to support the bent portion, the stator coil is applied to the bent portion when winding the stator coil as compared to the conventional structure Since the force acting in the direction perpendicular to the longitudinal direction of the slot insulated paper is reduced and the reinforcing paper is not used, the manufacturing cost can be reduced.

Claims (2)

In a motor for rotating a rotor inserted into the slot of the stator core is formed in the slot of the stator core formed by stacking the core steel plate, the stator coil is wound thereon, When winding the stator coil, a bent portion bent at a predetermined angle is formed at at least one of both ends of the slot insulating paper to disperse the force acting on the coil, The stepped portion is formed to increase the slot size of the core steel sheets stacked on both ends of the stator core so as to support the bent portion, and to step with the neighboring slots. The stator structure of the motor, characterized in that the varnish is applied between the bent portion of the slot insulating paper and the stepped portion of the stator core. The stator structure of claim 1, wherein the bent portion of the slot insulating paper is bent to have an acute angle with respect to the longitudinal direction.

Images