KR102664473B1 - A device for inserting a coil into the slot of the motor core - Google Patents

Abstract

The present invention relates to an apparatus and method for inserting a coil into a slot of an electric motor core, and more specifically, to insert an insulating material so that the coil can be easily inserted into the slot when the upper tool is raised while pushing the coil to insert the coil. It relates to a device for inserting a coil into a slot of an electric motor core that can greatly reduce the product defect rate by maintaining the dielectric strength of the electric motor by fixing it and preventing the cross-section from bending on the wall of the slot when the insulating paper is pushed by the coil.
In a device for inserting a coil (C) into a slot (S) of an electric motor core (11) into which insulating paper (1) is inserted, the core (11) is seated and fixed on the inner peripheral surface and moves up and down along rails installed on both sides. a cuff portion (10); Located below the cuff portion 10, a wedge guide 21 is provided in an annular shape on the upper surface, so that the end of the insulating paper 1 is seated, and the coil C is inserted into the slot S. Upper tool (20); A cuff finger part 30 installed on one side of the cuff part 10, formed radially toward the center of the core 11, and moved forward and backward by a driving part; And a control unit that controls the lifting operation of the moving cylinder, the operation of the driving unit, and the raising operation of the upper tool 20. Including, the cuff finger portion 30 supports the insulating paper 1, so that the insulating paper 1 The end surface of the slot (S) is supported so as not to be bent.

Description

{A device for inserting a coil into the slot of the motor core}

The present invention relates to an apparatus and method for inserting a coil into a slot of an electric motor core. More specifically, after the core is seated on the upper part of the upper tool, the end of the insulating paper into which the coil is inserted is fixed to one side of the upper tool so that the coil is It is inserted so that it does not go between the slot and the insulating paper, and the end of the insulating paper is pushed by the inserted coil to prevent the cross section from bending on the wall of the slot, thereby maintaining the dielectric strength of the motor and greatly reducing the product defect rate inside the slot of the motor core. It relates to a device for inserting a coil into a device.

An electric motor is a device that converts electrical energy into mechanical energy by using the force received by a current-carrying conductor in a magnetic field, and generally includes a motor.

Here, electric motors are classified into direct current motors and alternating current motors depending on the type of power supplied, and alternating current motors are further divided into three-phase alternating current and single-phase alternating current motors. Today, three-phase alternating current motors are mainly used.

In addition, the method of winding the coil around the stator inside the electric motor includes a method of winding the coil directly on the stator, or a method of first winding the coil in a certain shape and inserting it into a slot formed between teeth formed on the inner wall of the stator, and a high-performance coil is used. It is common for motors to have multiple coils wound.

This is a method of inserting a coil into the slot of a motor core, especially a laminated motor core. A plurality of blades arranged in a circle are raised simultaneously, and when adjacent to the core, only the blade adjacent to the core is raised and the coil is inserted. The space between the slots is In the case of a narrow core, there was a problem in that the film peeled off when the coil was inserted by simply raising the blade, or the blade was damaged by frictional pressure.

Accordingly, in Republic of Korea Patent No. 10-1357676, “Method and device for inserting a coil into a slot of a motor core,” the auxiliary blade of the guide means is lowered before inserting the coil and placed on the upper surface of the first blade of the first coil insertion means. A technology has been announced to minimize the load and friction that occurs when inserting a coil by guiding the coil, but the problem is that the coil is not completely seated when the coil insertion means is raised, so the coil sticks out during the rise. This remained.

In addition, Republic of Korea Patent No. 10-2066398, “Coil Inserting Frame for Motor Cores,” discloses a technology for stably inserting coils by forming a locking step on the wedge guide to hang the first inserted coil to prevent the coil from being pushed out. However, a problem was identified where the coil rises and is inserted between the insulating paper and the core due to the absence of a structure to support the insulating paper inserted into the slot.

In addition, Republic of Korea Patent No. 10-1503486, “Motor Core Restoration for Coil Inserting,” discloses a technology to support the insulating paper so that it does not bend outward, but if the insulating material is supported before the coil is inserted, it is inserted from below. There was a problem with the coil entering between the insulator and the slot.

Therefore, there is a need for a device for inserting the coil into the slot of the motor core so that the coil does not stick out when inserted and is not inserted between the insulating paper and the slot.

Republic of Korea Patent No. 10-1357676 (2014.01.24.) Republic of Korea Patent No. 10-2066398 (2020.01.09.) Republic of Korea Patent No. 10-1503486 (2013.11.11.)

The present invention was created to solve the above problems, and the purpose of the present invention is to prevent the coil from being inserted between the insulating paper and the slot when inserting the coil into the slot of the core when manufacturing the coil of an electric motor.

In addition, the insulating paper is fixed so that it is not pushed in the insertion direction by the inserted coil, so that it does not protrude to the outside.

In addition, the insulation strength of the electric motor is maintained by preventing the cross section from being bent on the wall of the slot due to being pushed by the coil into which the insulating paper is inserted.

The objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned can be clearly understood by those skilled in the art from the description below.

In a device for inserting a coil (C) into a slot (S) of an electric motor core (11) into which insulating paper (1) is inserted, the core (11) is seated and fixed on the inner peripheral surface and moves up and down along rails installed on both sides. a cuff portion (10); Located below the cuff portion 10, a wedge guide 21 is provided in an annular shape on the upper surface so that the end of the insulating paper 1 is seated, and the coil C is inserted into the slot S. Upper Tool (20); A cuff finger portion 30 installed on one side of the cuff portion 10, formed radially toward the center of the core 11, and operated forward and backward by a driving unit; And a control unit that controls the lifting operation of the moving cylinder, the operation of the driving unit, and the raising operation of the upper tool 20. Including, the cuff finger portion 30 supports the insulating paper 1, so that the insulating paper 1 is The end surface of the slot (S) is supported so as not to be bent.

And, the control unit controls the driving unit after the cuff unit 10 is seated on the upper tool 20, so that the cuff finger unit 30 moves the insulating paper 1 to the wedge guide 21. It is characterized in that it is tightly fixed so that the coil (C) does not enter between the insulating paper and the slot (S).

In addition, the wedge guide 21 is characterized in that it is provided with a guide groove 22 so that the end of the cuff finger portion 30 is closely fixed to the end of the insulating paper 1.

In addition, the upper cuff finger portion 30 is characterized in that it is provided in a length and number corresponding to the teeth 13 formed inside the core 11.

The present invention has the effect of preventing the coil from being inserted between the insulating paper and the slot when inserting the coil into the slot of the core when manufacturing the coil of an electric motor.

In addition, there is an effect of preventing the insulating paper from sticking out by fixing it so that it is not pushed in the insertion direction by the inserted coil.

In addition, there is an effect of maintaining the dielectric strength of the electric motor by preventing the cross section from being bent on the wall of the slot due to being pushed by the coil into which the insulating paper is inserted.

1 is a schematic diagram of a coil insertion device according to the present invention.
Figure 2 is a schematic diagram of a coil insertion device according to an embodiment of the present invention.
Figure 3 is a plan view of the cuff portion of the present invention.
Figure 4 is a schematic diagram of insulating paper inserted inside a slot of an electric motor core.
Figure 5 is a front view of the cuff portion of the present invention.
Figure 6 is an enlarged view of Figure 5.
Figure 7 is an enlarged view of the cuff finger portion according to the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms. The present embodiments only serve to ensure that the disclosure of the present invention is complete and that common knowledge in the technical field to which the present invention pertains is not limited. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

Specific details for implementing the present invention will be described in detail with reference to the drawings attached below. Regardless of the drawings, the same reference numerals refer to the same elements, and “and/or” includes each and all combinations of one or more of the mentioned items.

The terminology used herein is for describing embodiments and is not intended to limit the invention. As used herein, singular forms also include plural forms, unless specifically stated otherwise in the context. As used in the specification, “comprises” and/or “comprising” does not exclude the presence or addition of one or more other elements in addition to the mentioned elements.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains. Additionally, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless clearly specifically defined.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.

1 is a schematic diagram of a coil insertion device according to the present invention.

As shown, the device for inserting the coil (C) into the slot (S) of the electric motor core (11) into which the insulating paper (1) according to the present invention is inserted includes a cuff portion (10), an upper tool (20), and , includes a cuff finger unit 30 and a control unit.

First, the center is hollow so that the core 11 is seated and fixed on the inner peripheral surface of the body of the cuff portion 10, and moves along rails installed parallel to both sides so that the cuff portion 10 moves up and down in a horizontal state. The operation is controlled through a moving cylinder (not shown).

In other words, the cuff unit 10 moves up and down at predetermined intervals while being maintained horizontally by the moving cylinder.

Next, the upper tool 20 is located below the cuff portion 10, and is provided with a wedge guide 21 and a blade 23 in an annular shape on the upper surface, so that the end of the insulating paper 1 is seated, and the coil Insert (C) into the slot (S).

Here, the wedge guide 21 and the blade 23 are sufficiently mentioned in the prior art, so a separate detailed description thereof will be omitted herein. Unlike the prior art, the wedge guide 21 of the present invention partially includes a guide groove. (22) is formed, which will be described later.

Figure 2 is a schematic diagram of a coil insertion device according to an embodiment of the present invention, and Figure 3 is a plan view of the cuff portion of the present invention.

As shown, the cuff finger portion 30 is installed on one side of the cuff portion 10, is formed radially toward the center of the core 11, and can be moved forward or backward by moving forward or backward at predetermined intervals by the driving portion. It is provided.

Here, a plurality of cuff fingers 30 are installed in close contact with the upper and lower end surfaces of the core 11, and have a width corresponding to the width of the teeth 13 of the core 11.

In addition, the plurality of cuff finger parts 30 are moved forward and backward toward the center of the core 11 by a driving part (not shown). In the case where they move forward and advance to the end of the teeth 13, A closed state may be expressed as an open state if the end of the cuff finger portion 30 does not pass the upper and lower surfaces of the core 11 by moving backward.

Next, the coil insertion device of the present invention includes a control unit (not shown) that controls the entire operation of the device, including the lifting operation of the moving cylinder, the operation of the driving unit, and the raising operation of the upper tool 20.

In a correct embodiment of the present invention, the control unit is provided on one side of the cuff unit 10 after the cuff unit 10 with the core C inserted therein is seated on the upper tool 20 to perform each cuffing operation. A driving unit (not shown) that advances the rejection 30 toward the center of the core is controlled to operate so that the insulating paper 1 is tightly fixed to the wedge guide 21 to prevent the coil C from going outside of the insulating paper 1. .

At this time, when the cuff portion 10 is seated on the upper part of the upper tool 20, the passage formed by the plurality of wedge guides 21 and the slot S of the core 11 are connected, and then the pusher rises and the coil (C) is inserted into the slot (S).

Figure 4 is a schematic view of the insulating paper inserted inside the slot of the motor core, Figure 5 is a front view of the cuff portion of the present invention, and Figure 6 is an enlarged view of Figure 5.

As shown, an insulating paper (1) is inserted into the slot (S), and the length of the insulating paper (1) is formed to be longer than the length of the slot (S), and the insulating paper (1) exiting the slot (S) is formed at the end. By folding to form a jaw, the insulating paper (1) can be prevented from moving due to the friction force generated when the coil (C) is inserted.

However, due to the nature of the electric motor, the greater the number of turns of the coil (C) inserted into the slot (S), the higher the output, so there is a tendency for coils (C) composed of multiple wires to be inserted into the slot (S).

Therefore, a high friction force is generated inside the slot (S) due to the expansion force of the coil (C) passing through the slot (S), and the coil (C) passing inside the slot (S) made of metal is the slot (S). Although the gap is maintained by being compressed, the coil (C) that exits the slot (S) on the upper surface of the core (11) opens because the wire cannot be compressed, and the end surface of the slot (S) is compressed by the unfolding coil (C). The insulating paper (1) is bent, causing a defect in which the insulation is destroyed.

Therefore, the cuff finger portion 30 is advanced and closed to support the insulating paper 1 by positioning it between the slots S so that the insulating paper 1 is not bent by the jaw formed on the end surface of the slot S. It is to prevent this.

Here, the operation of the cuff finger unit 30 has been sufficiently explained in the prior document, Republic of Korea Patent No. 10-1503486, so the operating principle will be omitted, and the explanation will be focused on solving the problems of the prior document with the configurations of the present invention. do.

Here, before the cuff part 10 is seated on the upper tool 20, the cuff finger part 30 is advanced to position it between the slots S and the coil C is inserted. The end of (1) is pushed toward the center of the slot (S) by the cuff finger portion (30), thereby narrowing the space where the insulating paper (1) is open, so that the coil (C) is moved between the insulating paper (1) and the slot (S). Defects may occur.

Therefore, in a correct embodiment of the present invention, the cuff portion 10 is seated on the upper tool 20, one end of the insulating paper 1 is seated inside the guide groove 22, and then the cuff finger portion 30 is advanced. Thus, the cuff finger portion 30 pushes and secures the insulating paper (1) into the inside of the guide groove (22), raises the upper tool (20) and inserts the coil, so that the coil enters between the insulating paper (1) and the slot (S). Avoid going.

Therefore, the control unit of the present invention controls the cuff finger part 30 to be closed after the cuff part 10 in the open state is seated on the upper tool 20, thereby controlling the lower part of the core 11. It is possible to prevent the rising coil (C) from entering between the insulating paper (1) and the slot (S), and by pressing the insulating paper (1) in contact with the wedge guide (21) with the end of the cuff finger portion (30). By doing so, it is possible to prevent the insulating paper (1) from being pushed away during the inserting process of inserting the coil (C).

That is, the control unit retracts and opens the cuff finger part 30 before the cuff part 10 is seated on the upper tool 20, and after the cuff part 10 is seated on the upper tool 20, the cuff finger part 30 ) is advanced and closed.

Figure 7 is an enlarged view of the cuff finger portion according to the present invention.

As shown, the wedge guide 21 of the present invention is such that the end of the cuff finger portion 30 is inserted horizontally on one side of the outer peripheral surface so that one side of each of the insulating papers 1 located on both sides of the slot S is seated. It is provided with a guide groove (22) and the end of the insulating paper (1) located in the guide groove (22) is pressed by the cuff finger portion (30) to prevent the insulating paper (1) from moving.

Here, the guide groove 22 is located in the longitudinal direction of the tooth 13 so that the cuff finger part 30 can enter, and it is preferable that the guide groove 22 is coupled to the outer peripheral surface of the cuff finger part 30 from the inside.

Accordingly, one side of the insulating paper (1) inserted into the slot (S) located on both sides of the tooth (13) is tightly fixed by the guide groove (22) and the cuff finger portion (30).

In addition, the cuff finger portion 30 is provided with respect to the load received by the core 11 seated inside the cuff portion 10 and the friction force generated upward when the upper tool 20 interpolates the coil C. ) can be guided to prevent the phenomenon of moving up and down.

Although embodiments of the present invention have been described with reference to the above and the attached drawings, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical idea or essential features. You will understand that it exists. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

10: cuff 11: core
13: Tees
20: Upper tool 21: Wedge guide
22: Guide groove 23: Blade
30: Cuff finger part
C: Coil S: Slot

Claims (3)

In a device for inserting a coil (C) into the slot (S) of the motor core (11) into which the insulating paper (1) is inserted,
A cuff portion 10 on which the core 11 is seated and fixed on the inner peripheral surface and moves up and down along rails installed on both sides;
Located below the cuff portion 10, a wedge guide 21 is provided in an annular shape on the upper surface so that the end of the insulating paper 1 is seated, and the coil C is inserted into the slot S. Upper Tool (20);
A cuff finger portion (30) installed on one side of the cuff portion (10), formed radially toward the center of the core (11), and moving forward or backward at predetermined intervals by a driving unit; and
Controls the lifting operation of the cuff unit 10, the operation of the driving unit, and the raising and lowering operation of the upper tool 20, but before the cuff unit 10 is seated on the upper tool 20, the cuff finger unit A control unit that moves the (30) backward and controls the cuff finger portion (30) to advance after being seated on the upper tool (20),
The wedge guide 21 is provided with a guide groove 22 on one side of the outer peripheral surface into which the end of the cuff finger portion 30 is inserted horizontally,
The guide groove 22 is seated on one side of each of the insulating papers 1 located on both sides of the slot S, and the end of the cuff finger part 30 is inserted in the horizontal direction and tightly fixed to the insulating paper 1. By tightly fixing the end of (1), the insulating paper (1) is prevented from being bent by the coil (C) at the end surface of the slot (S), and the coil (C) is connected to the insulating paper (1) and the slot ( S) A coil insertion device characterized in that it does not enter between. delete According to paragraph 1,
A coil insertion device, characterized in that the cuff finger portions (30) are provided in a length and number corresponding to the teeth (13) formed inside the core (11).