KR20230044062A - A device for inserting a coil inside the motor core slot with insert protection - Google Patents

Abstract

The present invention relates to an apparatus for inserting a coil into an electric motor core slot having an insert protection function. The apparatus comprises: a frame part (10); an insert part (20); an inserting tool (30); a load cell (40); and a control part. According to the present invention, damage to coils can be prevented.

Description

A device for inserting a coil inside the motor core slot with insert protection}

The present invention relates to an apparatus and method for inserting a coil into a slot of an electric motor core, and more particularly, to insert a coil, when a pusher pushes and lifts a coil, a load generated due to internal friction between the coil and the slot is measured by a load cell. A device for inserting a coil into a slot of a motor core capable of significantly reducing the defective rate of a coil due to excessive insertion and protecting the pusher from damage by preventing damage to the pusher from excessive frictional load during insertion by measuring with will be.

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, motors are classified into DC motors and AC motors according to the type of power supplied, and AC motors are further divided into three-phase AC and single-phase AC motors. Today, three-phase AC motors are mainly used.

In addition, as a method of winding the coil on the stator inside the motor, a method of winding the coil directly on the stator and 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 teeth are used, and high-performance It is common for motors to wind multiple coils.

Accordingly, Korean Patent Registration No. 10-0686041 “Method and apparatus for drawing-in a coil into a slot of a stator laminated core of an electric machine” shows a technique for inserting a coil into a slot of a core, As a method for inserting a coil into the slot of a laminated motor core, a plurality of displaced lamelli are simultaneously raised, and when adjacent to the core, the coil is inserted while raising only the short draw lamelli adjacent to the core. In the case of this narrow core, there is a problem that the film is peeled off when the coil is inserted due to a simple rise of the lamellae, or the lamelli itself is damaged by frictional pressure generated between the coil and the slot.

In order to solve the above problems, Korean Patent Registration No. 10-1357676 “Method for inserting a coil into a slot of a motor core and its device” lowers the auxiliary blade of the guide means before inserting the coil to insert the first coil into the first coil insertion means. A technique for minimizing the load and friction generated when inserting the coil by placing it on the upper surface of the blade to guide the coil has been known, but the coil is not properly arranged and excessive coil is inserted during the process, resulting in poor process conditions. Since it was not known, the pusher was damaged due to friction caused by the incorrectly inserted coil, the work was stopped, and the problem of cost for repairing the device remained.

Therefore, there is a need for an apparatus and method for inserting a motor core capable of preventing damage to equipment in advance by detecting a frictional load generated when a coil is inserted during an inserting process of inserting a coil into a motor core.

Republic of Korea Patent No. 10-0686041 (2007.02.15.) Republic of Korea Patent No. 10-1357676 (2014.01.24.)

The present invention was created to solve the above problems, and an object of the present invention is to prevent the pusher from being damaged in advance by the frictional force generated when the coil is inserted into the slot of the core in manufacturing the coil of the motor. to ensure the continuity of

In addition, excessive insertion of the coil into the slot is detected to prevent the coil from being damaged.

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

In the coil insertion device according to the present invention for achieving the above object. A frame portion 10 having a hollow upper surface and having a first bolt rod 11 vertically on both sides of the lower surface and a rail rod 13 installed in parallel with the first bolt rod 11; A rail ball and a nut part are provided to ascend and descend according to the rotation of the first bolt rod 11, and the first guide 21 is perpendicular to one side of the upper surface, and the outer surface of the first guide 21 is surrounded at predetermined intervals an insert portion 20 provided with a second guide 22; an inserting tool (30) seated on an upper surface of the frame part (10) and inserting a coil, which is hung between blades, into a core by a lifting operation of the insert part; a load cell 40 installed below the insert part 20 and measuring a load generated when the inserting tool 30 rises and inserts the coil C into the core; and a control unit for stopping the operation of the insert unit 20 when the load value measured through the load cell 40 exceeds a preset reference load value; prevent breakage.

In addition, the frame part 10 has a hollow rail ball and a nut part so as to move up and down along the rail rod 13 at the upper part of the insert part 20, and the first guide 21 and the second guide 22 ) It is characterized in that it prevents damage to the guide by including a guide support portion 15 having a support hole to support one side of the outer circumferential surface.

In addition, the frame part 10 is provided with a second bolt rod 12 parallel to the rail rod 13 of the guide support part 15, so that the insert part 20 and the guide support part 15 are respectively It is characterized by an ascending and descending operation.

In addition, a plurality of wedge guides 31 seated on the upper surface of the frame part 10 and installed in an annular shape along the inner circumferential surface of the hollow housing, located inside the wedge guide 31, and the insert part 20 Correspondingly, a moving blade unit 32 that moves up and down along the wedge guide, and a stripper unit 34 including a fixed blade unit 33 located below the moving blade unit 32 are provided to insert the insert part When (20) is raised and the coil (C) is inserted into the core, it is characterized in that the moving blade unit (32) rises and supports the pusher.

In addition, the control unit is characterized in that it is provided with an alarm that operates when the load value exceeds the reference load value to deliver the interrupted state of the insert portion 20 to the operator.

An object of the present invention is to prevent a pusher from being damaged by frictional force generated when the coil is inserted into a slot of a core in manufacturing a coil of an electric motor, thereby ensuring continuity of the process.

In addition, there is an effect of preventing the coil from being damaged by detecting excessive insertion of the coil into the slot.

1 is a front view of a coil inserting device according to the present invention;
Figure 2 is a plan view of the insert portion of the coil insertion device according to the present invention.
Figure 3 (a) to (g) is a schematic diagram of the coil insertion process sequence according to a preferred embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims.

With reference to the accompanying drawings below, specific details for the practice of the present invention will be described in detail. Like reference numbers refer to like elements, regardless of drawing, and "and/or" includes each and every combination of one or more of the recited items.

Although first, second, etc. are used to describe various components, these components are not limited by these terms, of course. These terms are only used to distinguish one component from another. Accordingly, it goes without saying that the first component mentioned below may also be the second component within the technical spirit of the present invention.

Terms used in this specification are for describing the embodiments and are not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of one or more other elements other than the recited elements.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used in a meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless explicitly specifically defined.

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

1 is a front view of a coil inserting device according to the present invention.

As shown, the coil insertion device according to the present invention includes a frame part 10, an insert part 20, an inserting tool 30, a load cell 40, and a control unit (not shown), and the coil C ) into the slot of the core and prevents damage to the pusher.

First, the upper surface of the frame unit 10 is hollow, and a first bolt rod 11 is vertically installed on both sides of the lower surface, and a rail rod 13 is installed parallel to the first bolt rod 11.

In addition, although the drawing number is not shown, a support frame is installed parallel to the rail bar 13 on the outer surface of the rail bar 13 so that the first bolt bar 11 and the rail bar 13 bear the load of the upper portion of the frame part. It is preferable not to do so.

Next, the insert part 20 is provided with a rail ball and a nut part so as to move up and down according to the rotation of the first bolt rod 11, and the first guide 21 perpendicular to one side of the upper surface, the first guide 21, and the like A second guide 22 is provided that surrounds the side at predetermined intervals.

Then, the inserting tool 30 is seated on the upper surface of the frame part 10, and inserts the coil hung between the blades into the core by the lifting operation of the insert part.

Here, the inserting tool 30 is seated on the upper surface of the frame part 10, and a plurality of wedge guides 31 installed in an annular shape along the inner circumferential surface of the hollow housing and located inside the wedge guide 31, A moving blade unit (32) that ascends and descends along the wedge guide, and a fixed blade unit (33) located below the moving blade unit (32) and ascended and descended along the wedge guide (31) by the elevation of the first guide. When the insert part 20 rises and inserts the coil C into the core, the moving blade unit 32 supports the pusher.

However, since the process of inserting the coil is sufficiently mentioned in the prior art, a detailed description will not be made in the present invention, but a configuration for solving problems occurring during coil insertion will be described later.

Next, in the frame part 10, the rail ball is hollow so as to move up and down along the rail rod 13 on the upper part of the insert part 20, and the support hole to support the first guide 21 and the second guide 22 It includes a guide support portion 15 having a.

That is, the coil insertion device of the present invention through the guide support portion 15 prevents the second guide 22, which raises the pusher passing between the blades from the bottom to the top, from being bent during the process, thereby preventing damage. .

In addition, the frame part 10 is provided with second bolt rods 12 parallel to the rail rod 13 on both sides of the guide support part 15, so that the insert part 20 and the guide support part 15 are Each of them can be raised and lowered.

In other words, the rail rod 13 vertically penetrates the insert portion 20 and the guide support portion 15, the first bolt rod 11 passes through the nut portion of the insert portion 20, and the second bolt rod Since (12) passes through the nut portion of the guide support portion 15, the first bolt bar 11 and the second bolt bar 12 each have a driving unit 14.

At this time, the moving blade unit 32 is moved up and down according to the up and down of the insert part 20 through the first ball part interpolated from the upper surface of the first guide 21 to the lower surface of the moving blade unit 32 and supported.

In addition, the guide support part 15 forms a concentric circle with the first guide 21 and has a predetermined length, and the guide support part 15 is interpolated from the top surface to the lower surface of the fixed blade unit 33 and supported through the second hole part. The fixed blade unit 33 is moved up and down according to the up and down movement.

That is, the stripper unit 34 moves up and down through the first ball part and the second hole part described above.

Figure 2 is a plan view of the insert portion of the coil insertion device according to the present invention.

As shown, the load cell 40 is installed below the insert part 20 and measures the load generated when the inserting tool rises and inserts the coil C into the core.

Here, the control unit stops the operation of the insert unit 20 when the load value measured through the load cell 40 exceeds a preset reference load value to prevent damage to the pusher caused by forcefully inserting the coil C. This can be done, and it is possible to prevent deterioration of the quality of the motor due to coating peeling or stamping of the coil (C).

In addition, the control unit has an alarm that operates when the load value exceeds the reference load value and informs the operator of the interrupted state of the insert unit 20 so that the user using the coil inserting device of the present invention may encounter occurrences during the process. You will be able to quickly respond to accidents.

Figure 3 (a) to (g) is a schematic diagram of the coil insertion process sequence according to a preferred embodiment of the present invention.

As shown, since the number of turns of the coil (C) varies according to the type of motor in the coil inserting device of the present invention, the position and rising speed of the insert part 20 and the guide support part 15 are controlled.

3 (a) to (g) in order, step (a) is a step in which the coil (C) is seated on the insert tool 30, and step (b) is a step in which the first guide 21 is inserted into the inserting tool ( 30), and steps (c) to (d) are steps of bringing the wedge guide 31 and the stripper unit 34 into close contact with the core.

Next, step (e) is a step in which the insert part 20 rises and the coil C is inserted into the motor core. When the insert part 20 rises, the first guide 21 and the second guide Since (22) receives a load downward by the insert tool 30, the load cell 40 is installed in the lower part of the insert.

However, since the pusher that rises along the second guide 22 pushes and inserts the coil, it is preferable to install the load cell 40 at the bottom of the second guide 22 to measure the load generated while inserting the coil. .

Next, in step (f), the guide support part 15 descends and the fixed blade unit 33 descends, and in step (g), the insert part 20 rises and the moving blade unit 32 rises. This step is to complete the insertion of the coil while supporting the pusher.

Therefore, the coil insertion device of the present invention measures the load generated while the coil is inserted through step (e), and stops the driving unit 14 when the pre-stored reference load value is exceeded to prevent breakage of the pusher and damage to the coil. will be able to do it

Although the embodiments of the present invention have been described with reference to the above and accompanying drawings, those skilled in the art to which the present invention pertains can implement the present invention in other specific forms without changing the technical spirit or essential features. You will understand that there is Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

10: frame part 11: first bolt rod
12: second bolt rod 13: rail rod
15: guide support
20: insert part 21: first guide
22: second guide
30: inserting tool 31: wedge guide
32: moving blade unit 33: fixed blade unit
34: stripper unit
40: load cell
C: Coil

Claims (5)

A frame portion 10 having a hollow upper surface and having a first bolt rod 11 vertically on both sides of the lower surface and a rail rod 13 installed in parallel with the first bolt rod 11;
A rail ball and a nut part are provided to ascend and descend according to the rotation of the first bolt rod 11, and the first guide 21 is perpendicular to one side of the upper surface, and the outer surface of the first guide 21 is surrounded at predetermined intervals an insert portion 20 provided with a second guide 22;
an inserting tool (30) seated on an upper surface of the frame part (10) and inserting a coil, which is hung between blades, into a core by a lifting operation of the insert part;
a load cell 40 installed below the insert part 20 and measuring a load generated when the inserting tool 30 rises and inserts the coil C into the core; and
When the load value measured through the load cell 40 exceeds a predetermined reference load value, a control unit to stop the operation of the insert unit 20; including, breakage of the pusher that occurs when the coil C is forcefully inserted. Coil insertion device to prevent According to claim 1,
The frame part 10 has a hollow rail hole and a nut part to move up and down along the rail bar 13 on the upper part of the insert part 20, and the outer circumferential surface of the first guide 21 and the second guide 22 A coil insertion device comprising a guide support portion 15 having a support hole to support one side thereof to prevent damage to the guide. According to claim 2,
The frame part 10 is provided with a second bolt rod 12 parallel to the rail rod 13 of the guide support part 15 so that the insert part 20 and the guide support part 15 move up and down, respectively. Coil insertion device, characterized in that the operation. According to claim 1,
The inserting tool 30,
A plurality of wedge guides 31 seated on the upper surface of the frame part 10 and installed in an annular shape along the inner circumferential surface of the hollow housing;
A moving blade unit 32 located inside the wedge guide 31 and moving up and down along the wedge guide corresponding to the insert part 20, and a fixed blade unit located below the moving blade unit 32 The stripper unit 34 including (33) is provided so that when the insert part 20 rises and the coil C is inserted into the core, the moving blade unit 32 rises and supports the pusher A characterized coil insertion device. According to claim 1,
The control unit is provided with an alarm that operates when the load value exceeds the reference load value, characterized in that for transmitting the interrupted state of the insert portion (20) to the operator.

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