KR102341185B1 - Insulation paper-attached mold device for motor core - Google Patents

Abstract

According to the present invention, disclosed is an insulating paper-attached mold device for a motor core. The disclosed insulating paper-attached mold device for a motor core comprises: a lower mold part having a core seating part into which an iron core is inserted and seated and formed with an insulating paper input space part for inserting an insulating paper for insulation on both sides of the iron core; an upper mold part selectively joined to the lower mold part to cover the iron core; and an insulating paper fixing and adhesion unit movably installed in the lower mold part, moving by the upper mold part before the upper mold part is combined with the lower mold part to bring the insulating paper to be in contact with the iron core, and supporting the insulating paper by bringing the insulating paper in close contact with the iron core while being in contact with the insulating paper as the upper mold part is completely combined with the lower mold part. Therefore, in the present invention, the insulating paper for insulating a motor core is directly inserted into a mold, and injection molding of an insulating layer is possible, so the motor core can be manufactured without a separate insulating paper bonding process.

Description

Insulation paper-attached mold device for motor core

The present invention relates to an insulating paper-attached mold apparatus for a motor core, which inserts insulating paper for insulation of a motor core directly into a mold and enables injection molding of the insulating layer to manufacture a motor core without a separate insulating paper bonding process It relates to an insulating paper-attached mold device for a motor core.

In general, an electric vehicle drives a motor using a pure electric vehicle that drives a motor using only electric energy stored in a rechargeable battery, a solar cell vehicle that drives a motor using a photovoltaic cell, and a fuel cell that uses hydrogen fuel It is classified into a fuel cell vehicle that uses fossil fuels to drive an engine and a hybrid vehicle that uses an engine and a motor together by driving a motor using electricity.

As such, as electric vehicles are gradually being commercialized, the use of electric motors is increasing.

In general, an electric motor consists of a stator and a rotor, and the stator consisting of a core and a coil is insulated for safety reasons. For example, an insulating layer is formed on the surface of the coil bundle wound around the core. In addition, the insulation layer of the coil is formed through a separate device and process.

In addition, the core is formed by assembling a unit core formed by laminating thin iron pieces in a circular shape, and an insulator for winding the coil is injection-molded on the unit core. Then, the thin iron pieces are stacked up and down by an adhesive or the like and joined to form a unit core. In addition, individual unit cores are put into a mold device and an insulator is injection-molded on the outer surface.

In particular, the insulator is injected after the insulating paper for insulation is bonded to both sides by an adhesive to increase the number of turns of the coil by reducing the thickness of the insulator to be injection-formed for each unit core. In this case, since the thickness of the insulating paper is thinner than the thickness of the insulator, a larger number of coils can be wound.

In addition, the individual unit cores are put into the mold with the insulating paper bonded to both sides, and the insulating paper is fixed by injection molding on the part except the insulating paper.

However, in the prior art unit core insulating layer forming process as described above, it is necessary to use a separate facility or to perform the insulating layer forming process in the mold after an operator adheres the insulating paper to the unit core, so the insulating paper bonding process and the insulating layer The molding process is carried out individually. As a result, there are problems in that the number of work hours increases, which increases the production cost, and complicates the production process.

Therefore, there is a need to improve it.

On the other hand, domestic Patent Publication No. 10-2020-0002715 (published date: January 8, 2020) discloses "a method for manufacturing a core for a motor or generator, a core manufacturing system and a split core therefor", and registered patent no. 10-1734213 No. (registration date: 2017.05.02) discloses "a device for manufacturing a stator core for a vehicle motor".

The present invention was created by the above necessity, and when the upper mold part is combined with the lower mold part while the insulating paper for insulating the motor core is put into the mold, the insulating paper fixing adhesion unit closely fixes the insulating paper to the motor core, so the insulating paper An object of the present invention is to provide an insulating paper-attached mold device for a motor core that can injection-mould an insulating layer in a state in which it is put into a mold, so that a separate insulating paper bonding process of adhering the insulating paper to the motor core can be omitted.

In order to achieve the above object, an insulating paper-attached mold apparatus for a motor core according to an aspect of the present invention includes a core seating part into which a steel core is inserted and seated, and inserting insulating paper for insulation on both sides of the iron core. A lower mold portion formed with an insulating paper input space for An insulating paper fixing adhesion unit that moves by the upper mold part to bring the insulating paper into contact with the iron core, and as the upper mold part is completely combined with the lower mold part, comes into contact with the insulating paper and adheres and fixes the insulating paper to the iron core characterized in that

In addition, in the present invention, the insulating paper fixed adhesion unit is slidably provided in the lower mold part, and as the lower mold part is joined to the upper mold part, it moves through the contact of the lower mold part while selectively contacting the insulating paper to selectively contact the insulating paper Prevents flow, and as the upper mold part is separated from the lower mold part, an insulating paper flow prevention part that is spaced apart from the insulating paper, is provided in the insulating paper flow prevention part to selectively move together with the insulating paper flow prevention part, and prevent the insulating paper from flowing It is characterized in that it comprises a temporary insulating paper portion in close contact with the iron core in accordance with the movement of the insulating paper.

In addition, in the present invention, the insulating paper flow prevention part is provided movably in the upper mold part to selectively adhere to the insulating paper, and a slider block in which the temporary insulating paper temporary part is installed to be movable by compression, and is coupled to the slider block. It is characterized in that it includes a slider movable block to prevent the separation of the insulating paper temporary part, and to move from the lower mold part by the contact of the upper mold part.

In addition, in the present invention, in the slider block, an installation space for installing the temporary insulating paper part is formed, and an operation hole communicating with the installation space is formed to expose the temporary insulating paper part installed in the installation space. characterized by being

In addition, in the present invention, the insulating paper temporary part is installed movably inside the insulating paper flow prevention part to expose the outside of the insulating paper flow prevention part, and an insulating paper fixing member selectively in contact with the insulating paper, and the insulating paper fixing member It characterized in that it comprises an elastic member installed in the inside of the insulating paper flow prevention part to elastically support, and an elastic control support member coupled to the insulating paper flow prevention part to prevent separation of the elastic member, and adjusting the elastic force of the elastic member. do it with

As described above, in the mold device with insulating paper for a motor core according to an aspect of the present invention, unlike the prior art, when the upper mold part is combined with the lower mold part in a state in which the insulating paper for insulating the motor core is put into the mold, the insulating paper is fixed Since the adhesion unit closely fixes the insulation paper to the motor core, the insulation layer can be injection molded while the insulation paper is put into the mold. It has the effect of being able to proceed with the molding.

In addition, since the insulating paper-attached mold apparatus for a motor core according to the present invention can omit a separate insulating paper bonding process for adhering the insulating paper to the motor core, it is possible to improve productivity and reduce production costs. have

1 is a perspective view for explaining a motor core according to an embodiment of the present invention.
2 is a perspective view for explaining an insulating paper-attached mold apparatus for a motor core according to an embodiment of the present invention.
3 is an exploded perspective view illustrating a lower mold part of a mold apparatus with an insulating paper attached to a motor core according to an embodiment of the present invention.
4 is a perspective view for explaining a lower mold portion and an insulating paper fixed adhesion unit according to an embodiment of the present invention.
5 is a cross-sectional view for explaining an insulating paper-attached mold apparatus for a motor core according to an embodiment of the present invention.
6 is an exploded perspective view illustrating an insulating paper fixed adhesion unit according to an embodiment of the present invention.
7 to 9 are cross-sectional views for the operation of an insulating paper-attached mold apparatus for a motor core according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of an insulating paper-attached mold apparatus for a motor core according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a perspective view for explaining a motor core according to an embodiment of the present invention, FIG. 2 is a perspective view for explaining an insulating paper-attached mold apparatus for a motor core according to an embodiment of the present invention, and FIG. 3 is this view It is an exploded perspective view for explaining a lower mold part of an insulating paper-attached mold apparatus for a motor core according to an embodiment of the present invention.

4 is a partially cut-away perspective view for explaining the lower mold part and the insulating paper adhesion fixing unit according to an embodiment of the present invention. 6 is an exploded perspective view for explaining an insulating paper fixed adhesion unit according to an embodiment of the present invention, and FIGS. 7 to 9 are an insulating paper attachable mold device for a motor core according to an embodiment of the present invention It is a cross section for operation.

Referring to FIG. 1 , in the core 10 according to the present embodiment, insulating paper 13 for insulation is provided on both sides of an iron core 10a formed by stacking iron pieces 11 , and an insulating layer 15 . Through injection molding of the insulating paper 13 is fixed to the iron core 10a, the insulating layer 15 and the insulating paper 13 are integrally coupled to the iron core (10a). Through this, an insulating portion for coil winding may be formed in the core 10 .

At this time, the iron core 10a is put into the mold device, the insulating paper 13 is put into the mold device, and then the insulating material is injected into the mold device to injection-mould the insulating layer 15 . That is, as the insulating paper 13 and the insulating layer 15 forming process proceed together in the mold apparatus, the core 10 is formed as the iron core 10a is insulated.

To this end, as shown in FIGS. 2 to 9 , the mold apparatus 100 with insulating paper attached to the motor core according to the present embodiment has a lower mold part 110 and an upper mold part that is joined to the lower mold part 110 ( 120) and an insulating paper fixing adhesion unit 130 for fixing the insulating paper 13 inserted into the lower mold part 110 in close contact with the iron core 10a.

In the mold apparatus 100 with an insulating paper attached to the motor core according to this embodiment, the iron core 10a and the insulating paper 13 are attached to the lower mold part without a separate bonding process of bonding the insulating paper 13 to the iron core 10a. Since the insulating layer 15 is injection-molded after being inserted into the 110 , the insulating paper 13 can be attached to the iron core 10a and the insulating layer 15 can be injected at the same time. Through this, it is possible to increase productivity and reduce production costs while simplifying the production process of the motor core.

The lower mold part 110 according to this embodiment has a core seating part 111 for injection molding the insulating layer of the iron core 10a therein, and an insulating paper fixing adhesion unit ( 130) is installed correspondingly to form a slidably pair. The lower mold part 110 is formed with an insulating paper input space 113 into which the insulating paper 13 can be inserted on both sides of the core seating part 111, and as the upper mold part 120 is combined, the insulating paper fixing adhesion unit ( As 130) slides toward the iron core 10a, the insulation paper 13 injected into the insulation paper input space 113 is closely fixed to the iron core 10a.

The upper mold part 120 according to this embodiment is selectively combined with the lower mold part 110, and as it is joined to the lower mold part 110 or separated from the lower mold part 110, the insulating paper fixed adhesion unit 130 is slidably operated. do. The upper mold part 120 is combined with the lower mold part 110 to form an injection space while supporting the iron core 10a for molding the insulating layer 15 .

In addition, the upper mold part 120 is provided with an operation piece (not shown) for sliding the insulating paper fixed adhesion unit 130 , and as this operation piece is inserted into or separated from the insulating paper fixed adhesion unit 130 , the insulating paper fixed adhesion unit 130 . (130) is activated.

The insulating paper fixed adhesion unit 130 according to this embodiment is slidably installed on the lower mold part 110 , and the insulating paper is put in while sliding in the lower mold part 110 by the upper mold part 120 that is joined to the lower mold part 110 . The insulating paper 13 of the space 113 is fixed in contact with and in close contact with the iron core 10a.

For example, the insulating paper fixed adhesion unit 130 slides by the upper mold part 120 before the upper mold part 120 is molded into the lower mold part 110 and applies the insulating paper 13 to both sides of the iron core 10a, respectively. As the upper mold part 120 is completely joined to the lower mold part 110, it slides further toward the iron core 10a and comes into contact with the insulating paper 13 to bring the insulating paper 13 into close contact with the iron core 10a. The insulating paper 13 is covered and supported. In this way, it is possible to prevent the insulating paper 13 from moving in the process of injection molding the insulating layer 15, thereby remarkably reducing the defect rate.

Specifically, the insulating paper fixing adhesion unit 130 is provided slidably on the lower mold part 110 to selectively support and fix the insulating paper 13, the insulating paper flow prevention part 131, and the insulating paper flow prevention part 131 It is provided movably in the interior of the insulating paper 13 includes a temporary insulating paper portion 132 in close contact with the iron core (10a).

The insulating paper fixed adhesion unit 130 is in close contact with the insulating paper 13 to the iron core 10a while the insulating paper temporary part 132 is moved together by the insulating paper flow prevention part 131 sliding by the upper mold part 120 and , the temporary insulating paper part 132 does not move any more, and only the insulating paper flow prevention part 131 is in contact with the insulating paper 13 while sliding toward the iron core 10a.

The insulating paper flow prevention part 131 is movably provided on the lower mold part 110 to be located on both sides of the iron core 10a, and slides toward the iron core 10a as the working piece of the upper mold part 120 is inserted, As the operation piece is separated, it slides in a direction away from the iron core 10a. At this time, the insulating paper flow prevention part 131 is installed in a compressible insulating paper temporary part 132 therein, and slides together or individually with the insulating paper temporary part 132 .

For example, the insulating paper flow prevention part 131 moves together with the insulating paper temporary part 132, and when the insulating paper 13 comes into contact with the iron core 10a by the insulating paper temporary part 132, it moves individually while the insulating paper 13) is in contact with the entire outer surface of Through this, the entire insulating paper 13 can be stably and firmly fixed.

That is, the insulating paper flow prevention part 131 moves together until the temporary insulating paper part 132 is supported by the iron core 10a, and when the insulating paper temporary part 132 is supported by the iron core 10a, the insulating paper temporary part ( 132) is compressed and moved individually.

To this end, the insulating paper flow prevention part 131 is movably provided on the lower mold part 110 to selectively adhere to the insulating paper 13, and a slider block 133 in which the insulating paper temporary part 132 is installed movably in compression. ) and the slider block 133 to prevent separation of the temporary insulating paper part 132, and includes a slider movable block 135 that is moved from the lower mold part 110 by the contact of the working piece of the upper mold part 120. do.

The slider block 133 has an installation space portion 133a for installing the temporary insulating paper part 132 therein, and an installation space part for exposing the insulating paper temporary part 132 installed in the installation space part 133a. An operation hole portion (133b) communicating with the (133a) is formed. At this time, one surface of the slider block 133 on which the operation hole 133b is formed may selectively contact the insulating paper 13 to completely prevent the separation and flow of the insulating paper 13 in contact with the iron core 10a.

In addition, in the slider block 133, the installation space 133a may be formed in a circular shape, the operation hole portion 133b is formed through one side, and the installation space portion 133a is opened on the other side, so that the insulating paper goes. Government 132 is inserted.

The slider movable block 135 is coupled to the other side of the slider block 133 to prevent the insulating paper temporary portion 132 from being separated, and the operation piece insertion groove portion 135a into which the operation piece of the upper mold part 120 is inserted is inclined. do. The slider movable block 135 slides toward the iron core 10a as the actuating piece is inserted into the actuating piece insertion groove 135a, and slides in a direction away from the iron core 10a as the actuating piece is separated.

The insulating paper temporary part 132 according to this embodiment is inserted into the installation space part 133a of the slider block 133 and exposed to one side of the slider block 133 through the operation hole part 133b, and the insulating paper flow prevention part By selectively moving together with (131), the insulating paper (13) is brought into contact with the iron core (10a). The insulating paper temporary part 132 is compressed in the slider block 133 so that when the insulating paper 13 comes into contact with the iron core 10a, its movement is stopped and only the slider block 133 slides.

To this end, the insulating paper temporary part 132 includes an insulating paper fixing member 134 inserted into the installation space 133a so as to be exposed to the outside of the slider block 133 through the operation hole 133b, and the insulating paper fixing member 134 . It includes an elastic member 136 inserted into the installation space portion 133a for compression, and an elastic adjustment support member 138 coupled to the installation space portion 133a to prevent separation of the elastic member 136 .

The insulating paper fixing member 134 is movably installed in the installation space 133a to expose the outside of the insulating paper flow prevention part 131 , and selectively contacts the insulating paper 13 according to the slider movement of the slider block 133 . do. The insulating paper fixing member 134 includes a movable rod 134a positioned in the installation space 133a, and a fixing pin 134b extending from one side of the movable rod 134a and inserted into the operation hole portion 133b. do. At this time, a round surface 134c is formed at the end of the fixing pin 134b to prevent damage to the insulating paper 13 .

The elastic member 136 is configured by a coil spring to elastically support the other side of the movable rod 134a.

The elastic control support member 138 is coupled to the inner surface of the installation space portion 133a to prevent the elastic member 136 from being separated, and the elastic force of the elastic member 136 is changed while the position coupled to the installation space portion 133a is changed. adjust the At this time, a female screw is formed on the inner surface of the installation space portion 133a, and a male screw is formed on the outer surface of the elastic adjustment support member 138 to adjust the position thereof.

An operation of the insulating paper-attached mold apparatus for a motor core according to an embodiment of the present invention configured as described above will be described.

First, the iron core 10a is inserted into the core seating part 111 of the lower mold part 110, and the insulating paper 13 is put into the insulating paper input space 113 on both sides of the iron core 10a, respectively, and the upper mold part (120) is molded into the lower mold part (110).

Then, before the upper mold part 120 is combined with the lower mold part 110, the insulating paper fixed adhesion unit 130 is first contacted, and the insulating paper fixed adhesion unit 130 is slid toward the insulating paper 13 side, and the insulating paper 13 is attached to the iron core ( 10a), and as the upper mold part 120 is completely combined with the lower mold part 110, the insulating paper fixed adhesion unit 130 is completely adhered and supported on the side surface of the iron core 10a.

Thereafter, when the insulating layer 15 is formed on the iron core 10a by injecting synthetic resin, the insulating paper 13 is closely fixed to the insulating layer 15 .

As described above, in the mold apparatus 100 with an insulating paper attached to the motor core according to this embodiment, the insulating paper 13 for insulating the iron core 10a is put into the mold and the insulating layer 15 is molded through fixing. Since bonding to the iron core 10a, a separate insulating paper bonding process of bonding the insulating paper 13 to the iron core 10a can be omitted. Through this, since the insulating paper 13 can be bonded without a separate insulating paper bonding process of bonding the insulating paper 13 to the iron core 10a, the production process of the core 10 can be simplified and productivity can be improved. Not only that, but the production cost can be significantly reduced.

In addition, in the insulating paper-attached mold apparatus 100 for a motor core according to the present invention, the insulating paper temporary part 132 and the slider block 133 are formed by the insulating paper 13 in the process in which the upper mold part 120 is molded to the lower mold part 110 . ) while in contact with the insulating paper 13 is closely fixed to the iron core (10a). Through this, it is possible to prevent the insulating paper 13 from moving in the process of injecting the synthetic resin.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely an example, and those skilled in the art to which various modifications and equivalent other embodiments are possible. will understand

Accordingly, the true technical protection scope of the present invention should be defined by the claims.

100: mold device for manufacturing motor core 10: core
11: iron piece 13: insulating paper
15: insulating layer 10a: iron core
110: lower mold part 111: core seating part
113: insulating paper input space part 120: upper mold part
130: insulating paper fixed adhesion unit 131: insulating paper flow prevention part
133: slider block 135: slider movable block
132: insulating paper temporary part 134: insulating paper fixing member
136: elastic member 138: elastic control support member

Claims (5)

a lower mold part having a core seating part into which the iron core is inserted and seated, and in which an insulating paper input space part for inserting insulating paper for insulation is formed on both sides of the iron core;
an upper mold part selectively joined to the lower mold part to cover the iron core; and
It is movably installed in the lower mold part, and before the upper mold part is joined to the lower mold part, it is moved by the upper mold part to bring the insulating paper into contact with the iron core, and as the upper mold part is completely joined to the lower mold part, the an insulating paper fixing adhesion unit for fixing the insulating paper in close contact with the iron core while being in contact with the insulating paper;
Insulation paper-attached mold device for the motor core, characterized in that it comprises a.
The method of claim 1,
The insulating paper fixed adhesion unit is slidably provided in the lower mold part, and as the lower mold part is joined to the upper mold part, it moves through the contact of the lower mold part and selectively comes into contact with the insulating paper to prevent the flow of the insulating paper, an insulating paper flow prevention part spaced apart from the insulating paper as the upper mold part is separated from the lower mold part; and
an insulating paper temporary part provided in the insulating paper flow prevention part to selectively move together with the insulating paper flow preventing part, and for adhering the insulating paper to the iron core according to the movement of the insulating paper flow preventing part;
Insulation paper-attached mold device for the motor core, characterized in that it comprises a.
3. The method of claim 2,
The insulating paper flow prevention unit may include: a slider block movably provided in the lower mold portion to selectively adhere to the insulating paper, and the temporary insulating paper portion being installed to be movable by compression; and
a slider movable block coupled to the slider block to prevent separation of the temporary insulating paper part, and moving from the lower mold part by contact of the upper mold part;
Insulation paper-attached mold device for the motor core, characterized in that it comprises a.
4. The method of claim 3,
In the slider block, an installation space for installing the temporary insulating paper part is formed, and an operation hole communicating with the installation space is formed for exposing the temporary insulating paper part installed in the installation space. Insulation paper-attached mold device for motor core.
5. The method according to any one of claims 2 to 4,
The insulating paper temporary part is movably installed inside the insulating paper flow preventing part so as to expose the outside of the insulating paper flow preventing part, and an insulating paper fixing member selectively in contact with the insulating paper;
an elastic member installed inside the insulating paper flow preventing part to elastically support the insulating paper fixing member; and
an elastic control support member coupled to the insulating paper flow prevention part to prevent separation of the elastic member and adjusting the elastic force of the elastic member;
Insulation paper-attached mold device for the motor core, characterized in that it comprises a.

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