KR20190051168A - Apparatus for Manufacturing Adhesive Lamination Core by Stamping - Google Patents

Abstract

According to the present invention, a stamp-type apparatus for manufacturing an adhesive laminated core (100) comprises an upper mold (10) and a lower mold (20), sequentially forms laminar members (200-1) through a plurality of piercing processes on strips (200) sequentially transferred on an upper portion of the lower mold (20) by using a punch mounted on the upper mold (10), and sequentially manufactures laminated cores (200A) made of a predetermined number of sheets of the laminar members (200-1) by a blanking process. The apparatus comprises: a plurality of piercing punching units provided in the upper mold (10) to mold the strips (200) into the laminar members (200-1); a plurality of piercing dies provided in the lower mold (20) corresponding to the plurality of piercing punching units; a stamp-type upper adhesive applicator (30A) provided on any one among the plurality of piercing punching units of the upper mold (10); a stamp-type lower adhesive applicator (30) provided on any one among the plurality of piercing dies of the lower mold (10); a blanking punching unit (16) of the upper mold (10) provided on one side of the plurality of piercing punching units; and a blanking die (24) of the lower mold (20) provided at a position corresponding to the blanking punching unit (16). Since an adhesive can be applied only to an area having a core shape without applying the adhesive to the entire strip, the cost of manufacturing a laminated core can be reduced by reducing the amount of the adhesive consumed, and productivity can be greatly improved at the same time.

Description

[0001] Apparatus for Manufacturing Adhesive Lamination Core by Stamping [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adhesive laminated core manufacturing apparatus manufactured by laminating laminated members. More particularly, the present invention relates to a stamp-type adhesive laminated core manufacturing apparatus capable of producing a laminated core by bonding a lamina member and a lamina member to a lamina member through application of an adhesive by a stamping method.

Generally, a laminated core is produced by laminating a plurality of lamina members obtained by stamping a strip. These laminated cores are used as stators or rotors of motors and generators, and various methods of manufacturing them are known.

As a typical method, a single lamina member obtained by successively performing piercing and blanking of a slot portion, a tooth, and the like is continuously manufactured on a strip of steel steel sheet fed to a progressive mold apparatus, There is a method of manufacturing a laminated core by laminating a laminated member sheet with a predetermined number of laminated members and bonding the laminated members together.

As disclosed in Japanese Laid-Open Patent Publication No. 2010-130824, embossing is performed on a single sheet of lamina member, and embossing and embossing are combined with each other at the time of lamination to form a so-called embossing A lamination method is typically known.

In this embossing laminated motor core, since the shape of male and female protrusions formed on the base material is fastened in a forced fit manner, the steel core acts like a speed restricting jaw installed on the road, resulting in loss of iron loss and magnetic flux density. In addition, there is a problem that the drop rate is lowered and vibration noise occurs due to the resonance phenomenon.

In order to solve this problem, a silicon steel plate core stacking apparatus for a reactor, which can bond and bond the core and the core to each other with a bonding agent, to be laminated by a desired block size, and to be separated by an automatic separation regulator as in the Japanese Patent No. 10-1164803 Is being introduced.

In the above patent, the injection of the high-strength adhesive is performed by using a constant-volume injector. The hose is inserted into the strong-bond cylinder, the input end is inserted into the lamination separator at the exit side through the quantitative ejector, The hose connected to the lamination separating jig is caused to inject a certain amount of the bond into the core punching material. However, according to this method, since the application thickness of the adhesive is not constant, the laminar member and the lamina member are adhered to each other by the adhesive, and then the predetermined number of lamina members and lamina members are different from each other in thickness, There is a problem that the arrangement of the adhesive supply hose is very difficult and the structure of the laminated core manufacturing apparatus is very complicated.

In addition, when the predetermined number of lamina members are separated, it is necessary to separate the predetermined number of lamina members stacked in the above-mentioned prior art, but the upper surface or the lower portion of the lamina member The laminated core may have a height different from that of the laminated core due to the strong adhesive. Therefore, when the laminated core is mounted on the lower surface of the lamina member, Resulting in poor assembly due to contact with parts or structures.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of forming a laminate member by piercing and blanching a strip of a punch mounted on an upper mold sequentially from a lower mold, The present invention provides a stamp-type adhesive laminated core manufacturing apparatus which enables a predetermined laminated core to be obtained by easily separating a predetermined laminated core from a predetermined laminated core so as to be discharged, .

The above and other objects of the present invention can be easily achieved by the present invention described below.

The stamp-type adhesive laminated core manufacturing apparatus according to the present invention comprises

The strip 200 which is composed of the upper mold 10 and the lower mold 20 and in which the punch mounted on the upper mold 10 is sequentially conveyed from the upper portion of the lower mold 20 is passed through a plurality of piercing processes A laminated core manufacturing apparatus (100) for sequentially forming a laminated member (200-1) and sequentially manufacturing a laminated core (200A) made up of a predetermined number of laminated members (200-1) by a blanking process :

A plurality of piercing punching portions provided on the upper mold 10 to mold the strip 200 into the lamina member 200-1;

A plurality of piercing dies provided on the lower mold (20) corresponding to the plurality of piercing punching portions;

A stamp type upper adhesive applicator (30A) provided on any one of the plurality of piercing punching portions of the upper mold (10);

A blanking punching portion (16) of an upper mold (10) provided at one side of the plurality of piercing punching portions; And

A blanking die 24 of a lower mold 20 provided at a position corresponding to the blanking punching section 16;

And a control unit.

In the present invention, the stamp-type upper adhesive applying device 30A includes a lever portion 31 which moves left and right by a cylinder; A stamp holder (32) having a recessed portion (32A) engaged with the recessed portion (31A) of the lever portion (31); And the pad portion 33 on the upper surface of the stamp holder 32 may be included.

In the present invention, the adhesive tank 32B is formed in the stamp holder 32, and one side of the adhesive supply passage 32C punched to one side of the stamp holder 32 is connected to the connection hose to the adhesive supply tank, And the other side of the supply passage 32C is preferably communicated with the adhesive agent storage tank 32B.

In the present invention, it is preferable that the pad portion 33 is formed with a plurality of fine holes 33 'or meshes 33' '.

The protrusion 33A-1 formed integrally with the adhesive agent receiving member 33A provided on the upper portion of the pad portion 33 is formed to protrude into the fine hole 33 'of the pad portion 33 .

According to the present invention, a laminated core is manufactured by laminating a predetermined number of lamina members by adhering a lamina member and a lamina member by an adhesive applied in the form of a core through a coating device by a stamping method, It is possible to manufacture laminar members by using strips which are not used, and the production costs of laminated cores can be greatly reduced through the use of inexpensive strip raw materials.

In addition, since the adhesive can be applied only to the shape of the core without applying the adhesive to the entire strip, the amount of adhesive consumed can be reduced to help the manufacturing cost of the laminated core, and at the same time, the productivity can be greatly improved.

Further, since the laminated core composed of a predetermined number of lamina members and the laminated core composed of a predetermined number of lamina members are separated and discharged, the present invention can easily separate the core product, The core productivity can be improved.

1 is a schematic side cross-sectional view of an adhesive laminated core manufacturing apparatus according to the present invention.
2 is a cross-sectional view of a stamp-type upper adhesive applicator according to the first embodiment of the present invention.
3 is a cross-sectional view of a stamp-type upper adhesive applying apparatus according to a second embodiment of the present invention.
4A and 4B are partial process flowcharts showing a laminated core forming process according to the present invention, wherein FIG. 4A shows a state in which an adhesive is applied to the upper surface of the lamina member, FIG. 4B shows a state in which a predetermined number of lamina members are adhered and laminated (C) is a view showing a separated laminated core. Fig.
FIG. 5 is a view showing a state where an adhesive is applied to the upper surface of a lamina member according to the present invention, wherein (a) is a perspective view of a lamina member and (b) is a sectional view.
6 is a cross-sectional view of a stamp-type lower adhesive applicator according to the first embodiment of the present invention.
7 is a cross-sectional view of a stamp-type lower adhesive applying apparatus according to a second embodiment of the present invention.
8A and 8B are partial process flowcharts showing the laminated core forming process according to the present invention, wherein FIG. 8A shows a state in which an adhesive is applied to the lower surface of the lamina member, FIG. 8B shows a state in which a predetermined number of lamina members are adhered and laminated (C) is a view showing a separated laminated core. Fig.
FIG. 9 shows a state in which an adhesive is applied to a lower surface of a lamina member according to the present invention, wherein (a) is a perspective view of a lamina member and (b) is a sectional view.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic side cross-sectional view of an adhesive laminated core manufacturing apparatus 100 according to the present invention.

The apparatus 100 for manufacturing a laminated core according to the present invention comprises an upper mold 10 and a lower mold 20. The upper mold 10 is provided with a first piercing punching section 11, a second piercing punching section 12, a third piercing punching section 13, a fourth piercing punching section 14, The piercing punching portions 15 are sequentially installed, and then the blanking punching portion 16 is provided.

The lower mold 20 corresponding to the upper mold 10 is composed of a die plate 21, a die backing plate 22 and a die holder 23. The die plate 21 is provided with a first piercing die 211, a second piercing die 212, a third piercing die 213, and a third piercing die at positions corresponding to the first through fifth piercing punching portions of the upper die 10, A fourth piercing die 214 and a fifth piercing die 215 are installed. A blanking die 24 is installed on one side of the fifth piercing die 215. The shape of the lamina member is sequentially formed from the strip through the first to fifth piercing punching portions and the first to fifth piercing dies through five successive piercing processes.

In the specification and drawings of the present invention, the five-step piercing process is illustrated and described, but it is not necessarily limited to the five-step piercing process. That is, according to the shape of the lamina member for the laminated core to be manufactured, it is possible to apply a plurality of steps, that is, 2, 3, 4, 6, or more steps instead of five. Therefore, it should be understood that the description of the piercing process of the five steps in the specification and drawings of the present invention is merely for convenience of explanation, and the present invention encompasses all cases of performing a plurality of piercing processes.

In the present invention, a blanking die 24 is provided on the lower mold 20 corresponding to the blanking punching section 16 to perform a blanking process. Lamina members 200-1 formed from the strip 200 are sequentially stacked on the squeeze ring 27 of the laminate unit 300 by providing the laminate unit 300 below the blanking die 24, (200A). The shape of the laminated core 200A can be referred to FIG.

In FIG. 1, reference numeral 17 in the upper mold 10 denotes a punch plate to which each punch is installed, 17-1 denotes a stripper plate for catching a strip to form a required shape, 18 denotes a punch backing plate, 19 denotes a punch plate Which is a punch holder. Such a configuration is a basic configuration of the press and can be easily understood by those skilled in the art to which the present invention belongs, and a detailed description thereof will be omitted.

The blanking die 24 may be configured to include a lamination unit 300 and the lamination unit 300 may include the blanking die 24 and the rotary die 26 and the squeeze ring 27 . When a predetermined number of lamina members 200-1 to be described later are sequentially and continuously stacked on the inner circumferential surface of the squeeze ring 27, a laminated core 200 composed of a predetermined number of lamina members 200-1 is squeezed As shown in FIG. The squeeze ring 27 may be provided on the rotary die 26 so that the laminar member 200-1 to be laminated can be stacked while being rotated at a predetermined pitch.

In the present invention, a stamp-type lower adhesive applicator 30 is installed on the fourth piercing die 214 of the lower mold 20 corresponding to the fourth piercing punch 14 of the upper mold 10, can do. A stamp type upper adhesive applicator 30A may be installed on the third piercing punch 14 of the upper mold 10 corresponding to the third piercing die 213 of the lower mold 20. [ have. The upper adhesive application device 30A applies adhesive to the upper portion of the strip 200 and the lower adhesive application device 30 can apply the adhesive to the lower portion of the strip. It is possible to apply the adhesive to the same position as the shape of the lamina member 200-1 on the top surface or bottom surface of the strip by using any one coating device or using both coating devices as needed. The details will be described again with reference to FIG. 2 and the accompanying drawings.

2 and 3 are cross-sectional views of the stamp-type upper adhesive applicator 30A according to the first and second embodiments of the present invention.

As shown in FIGS. 2 and 3, the stamp-type upper adhesive applying apparatus 30A according to the first embodiment of the present invention is installed in the fourth piercing punching unit 14 of the upper mold 20. Of course, the mounting position of the upper adhesive application device 30A is not limited to the fourth piercing punching portion 14, and may be provided in another piercing die.

The upper adhesive applying device 30A of the present invention includes a lever portion 31 which is laterally moved by a cylinder (not shown); A stamp holder (32) having a recessed portion (32A) engaged with the recessed portion (31A) of the lever portion (31); And a pad unit 33 coupled to an upper surface of the stamp holder 32.

The adhesive tank 32B is formed in the stamp holder 32 in the above. One side of the adhesive supply passage 32C pierced on one side of the stamp holder 32 is connected to a connection hose not shown and an adhesive supply tank not shown and the other side of the adhesive supply passage 32C communicates with the adhesive agent storage tank 32B can do.

The pad portion 33 has the same shape as that of the laminar member 200-1 and has a plurality of fine holes 33 'or b as shown in FIG. 2 (a) The adhesive agent storage tank 32B may be formed of a fiber material or an adhesive containing member 33A made of a material such as polyamide fiber or sponge that can be stored in the adhesive tank 32B So that the adhesive 40 introduced through the adhesive supply passage 32C can be infiltrated and stored in the adhesive agent receiving member 33A. As will be described later, the upper mold 10 and the lower mold 20, When the stamped upper adhesive applying device 30A is operated, the pad portion 33 is pressed and the adhesive penetrated into the adhesive agent receiving member 33A is pressed into the plurality of fine holes 33 '') Or the mesh 33 '' so that the laminar member 2 0.0 > 00-1). ≪ / RTI > Here, although the pad portion 33 may be a separate member from the adhesive-containing member 33A, the surface of the adhesive-containing member 33A may be processed to directly contact the lower surface of the strip. That is, the pad portion 33 and the adhesive agent receiving member 33A may be one member. In any case, the pad portion 33 is preferably provided as a synthetic resin material which is flexible and can contain an adhesive.

When the adhesive 40 is applied to the strip 200 by the blanking rather than the shape of the lamina member 200-1, the loss of the adhesive 40 during the forming of the lamina member 200-1 is expected The adhesive 40 is applied only to the portion of the laminar member 200-1 where the laminar member 200-1 is formed. To this end, the shape of the pad portion 33 is shaped like the laminar member 200-1 so that the net shape is realized as shown in FIG. 2 (a) as the fine holes 33 'or (b) will be.

When the lever portion 31 is moved by the cylinder and the protrusion of the recessed portion 31A of the lever portion 31 and the protrusion of the recessed portion 32A of the stamp holder 32 are interfaced, the stamp holder 32 is raised The adhesive 40 supplied through the fine holes 33 'of the pad portion 33 is applied to the strip in the shape of the lamina member 200-1.

Therefore, the supply of the adhesive 40 is performed only for the minimum adhesion between the lamina member 200-1 and the lamina member 200-1, and no adhesive is applied to the scrap portion So that the amount of adhesive consumed can be reduced.

The fourth piercing die 214 of the lower mold 20 corresponding to the fourth piercing punching portion 14 of the upper mold 10 on which the upper adhesive applying device 30A of the stamp type is installed is provided with the pushing- And the pushing receiving portion can be formed by a leaf spring or the like.

The stamp-type upper adhesive applicator 30A according to the present invention is installed in the apparatus for manufacturing a laminated core 100 to apply an adhesive in a stamped manner.

When the lever part 31 moves to the left or right and the two recesses and protrusions 31A and 32A are engaged with each other, when the upper mold 10 descends, the pad part 33 contacts the strip and the adhesive is applied. When the adhesive is not applied to the strip, the lever portion 31 is in a state in which the two concave and convex portions 31A and 32A are staggered from each other as shown in Fig. 2, so that even when the upper mold 10 is operated, The adhesive is not applied by stamping. Therefore, for example, in the case of producing 10 laminated cores, no adhesive is applied to the lamina members of 10th, 20th, 30th, etc., and only 10 lamina members to be laminated are adhered to each other, Core product.

3 shows a second embodiment of the pad portion 33 according to the present invention in which a protruding portion 33A-1 integrally formed with an adhesive agent receiving member 33A, which is a member different from the pad portion 33, The adhesive agent 40 penetrated into the fine hole 33 'formed in the pad portion 33 and protruded from the fine hole 33' formed in the pad portion 33 is pressed by the laminar member 200-1 through the protruding portion 33A- ).

Meanwhile, the present invention can be applied to a case where an alcohol-reactive adhesive is applied to the strip in advance. In this case, when alcohol is supplied from the stamp-type upper adhesive applicator 30A and alcohol is applied in the form of a lamina member When the lamina member is laminated on the squeeze ring 27, it is applied to the lamina member so that the alcohol and the alcohol-reactive adhesive react with each other, so that the lamina member can be adhered effectively.

4A and 4B are partial process flowcharts showing a laminated core forming process according to the present invention, wherein FIG. 4A shows a state in which an adhesive is applied to the upper surface of the lamina member, FIG. 4B shows a state in which a predetermined number of lamina members are adhered and laminated (C) is a view showing a separated laminated core. Fig.

As shown in Fig. 4 (a), an adhesive is applied to the lower part of the second lamina member 200-1 by the stamping method. Although it is shown in FIG. 4 that the adhesive is applied in the form of a dot, the present invention is not necessarily applied in the form of a dot, and it should be noted that the adhesive is shown for convenience of understanding.

In Fig. 4 (b), a plurality of lamina members 200-1 punched by a continuous blanking process are successively laminated inside the squeeze ring 27. Fig. At this time, if ten lamina members constitute one laminated core, since no adhesive is applied to the tenth lamina member, they are separated without being adhered to the lamina member laminated next. In this case, the laminar members are spaced apart from each other with the adhesive applied therebetween. However, in order to facilitate understanding, the laminar member and the lamina member are laminated in close contact with each other.

FIG. 5 is a view of a lamina member having a top surface coated with an adhesive according to the present invention, wherein (a) is a lamina member perspective view and (b) is a sectional view of the lamina member. An adhesive is applied to the lower portion of the laminar member 200-1 punched in the blanking process in the form of a lamina member by a stamping method. In FIG. 5, it is shown that the adhesive is applied in the form of a dot, but it should be noted that the present invention is not necessarily applied in the form of a dot, and is shown for convenience of understanding.

In the present specification, the upper adhesive applicator 30A is installed in the third piercing punching unit 14, but the present invention is not limited thereto. That is, the upper adhesive applicator 30A may be installed at any one of the first to fifth piercing punching portions. That is, the upper adhesive applying device 30A may also be provided in other piercing dies other than the third piercing punching portion 13 in this specification. All such process variations and modifications are to be construed as being included within the scope of the present invention.

6 and 7 are cross-sectional views of a stamp-type lower adhesive applicator 30 according to the first and second embodiments of the present invention.

6 and 7, the stamp-type lower adhesive applying device 30 according to the first embodiment of the present invention is installed on the fourth piercing die 214 of the lower mold 20. Of course, the mounting position of the adhesive applicator 30 is not limited to the fourth piercing die 214, but may be provided in another piercing die.

The lower adhesive applying device (30) of the present invention comprises a lever portion (31) which moves laterally by a cylinder (not shown); A stamp holder (32) having a recessed portion (32A) engaged with the recessed portion (31A) of the lever portion (31); And a pad unit 33 coupled to an upper surface of the stamp holder 32.

An adhesive tank 32B is formed in the stamp holder 32. One side of the adhesive supply passage 32C pierced on one side of the stamp holder 32 is connected to a connection hose And the other side of the flow path 32C can be configured to communicate with the adhesive agent storage tank 32B.

The pad portion 33 has the same shape as that of the laminar member 200-1 and has a plurality of fine holes 33 'or b as shown in FIG. 6 (a) The adhesive agent storage tank 33B may be formed of a fiber material or an adhesive containing member 33A made of a material such as polyamide fiber or sponge, So that the adhesive 40 introduced through the adhesive supply passage 32C can be infiltrated and stored in the adhesive agent receiving member 33A. As will be described later, the upper mold 10 and the lower mold 20, When the stamped bottom adhesive applying device 30 is operated, the pad portion 33 is pressed and the adhesive penetrated into the adhesive containing member 33A is pressed into the plurality of fine holes 33 ') Or the mesh 33' ', and the laminar member 20 0.0 > 0-1) < / RTI > Here, although the pad portion 33 may be a separate member from the adhesive-containing member 33A, the surface of the adhesive-containing member 33A may be processed to directly contact the lower surface of the strip. That is, the pad portion 33 and the adhesive agent receiving member 33A may be one member. In any case, the pad portion 33 is preferably provided as a synthetic resin material which is flexible and can contain an adhesive.

When the adhesive 40 is applied to the portion of the strip 200 that is discarded by blanking rather than the shape of the lamina member 200-1, the loss of the adhesive 40 during the forming of the lamina member 200-1 is expected The adhesive 40 is applied only to the surface of the laminar member 200-1 in the present invention. For this purpose, the shape of the pad portion 33 is formed in the same shape as the laminar member 200-1 so as to realize a mesh shape as shown in Fig. 6 (a) or a fine hole 33 ' will be.

When the lever portion 31 is moved by the cylinder and the protrusion of the recessed portion 31A of the lever portion 31 and the protrusion of the recessed portion 32A of the stamp holder 32 are interfaced, the stamp holder 32 is raised The adhesive 40 supplied through the fine holes 33 'of the pad portion 33 is applied to the strip in the shape of the lamina member 200-1. Therefore, the supply of the adhesive 40 is performed only for the bonding between the lamina member 200-1 and the lamina member 200-1, and since the adhesive is not applied to the scrap portion that is discarded, Can be reduced.

The lower portion of the fourth piercing punching portion 14 of the upper mold 10 corresponding to the fourth piercing die 214 of the lower mold 20 in which the stamping type lower adhesive agent applying device 30 is installed is provided with a lever portion (Not shown) may be provided at a lower portion of the pressing portion 31, and the pressing portion may be formed of a leaf spring or the like.

When the lever part 31 moves to the left or right and the two recesses and protrusions 31A and 32A are engaged with each other, when the upper mold 10 descends, the pad part 33 contacts the strip and the adhesive is applied. When the adhesive is not applied to the strip, the lever portion 31 is in a state in which the two concave and convex portions 31A and 32A are staggered from each other as shown in Fig. 2, so that even when the upper mold 10 is operated, The adhesive is not applied by stamping. Therefore, for example, in the case of producing 10 laminated cores, only 10 lamina members laminated without applying an adhesive to the first lamina member and the 11th, 21st, 31st lamina members And are adhered to each other to form a single laminated core product.

7 shows a second embodiment of the pad portion 33 according to the present invention in which a protruding portion 33A-1 integrally formed with an adhesive-receiving member 33A, which is a member different from the pad portion 33, The adhesive agent 40 penetrated into the fine hole 33 'formed in the pad portion 33 and protruded from the fine hole 33' formed in the pad portion 33 is pressed by the laminar member 200-1 through the protruding portion 33A- ).

The present invention is also applicable to a case where an alcohol-reactive adhesive is previously applied to a strip and supplied. In this case, when alcohol is applied in the stamp-type lower adhesive applicator 30 and alcohol is applied in the form of a lamina member, when the lamina member is stacked on the squeeze ring 27, it is applied to the lamina member Since the alcohol and the alcohol-reactive adhesive react with each other, the lamina member can be effectively bonded.

In the present invention, a method in which an adhesive is applied to the upper surface of the strip by the upper adhesive applying device 30A and an alcohol is applied by the lower adhesive applying device 30 in a state in which an alcohol- You can also operate it in the opposite way.

8A and 8B are partial process flow diagrams showing a laminated core forming process according to the present invention, wherein FIG. 8A shows a state in which an adhesive is applied to the lower surface of the lamina member, FIG. 8B shows a state in which a predetermined number of lamina members are bonded, (C) is a view showing a separated laminated core.

As shown in FIG. 8A, an adhesive is applied to the lower part of the second lamina member 200-1 by the stamping method. It is shown in FIG. 8 that the adhesive is applied in the form of a dot, but it should be noted that the present invention is not necessarily applied in the form of a dot, but is shown for convenience of understanding.

A plurality of lamina members 200-1 punched out by the continuous blanking process in FIG. 8 (b) are successively laminated inside the squeeze ring 27. In FIG. At this time, when the ten lamina members form one laminated core, the eleventh lamina member is not coated with the adhesive, and therefore, the lamina member laminated next is separated without being adhered to each other. In this case, the laminar members are spaced apart from each other with the adhesive applied therebetween. However, in order to facilitate understanding, the laminar member and the lamina member are laminated in close contact with each other.

FIG. 9 is a view of a lamina member according to the present invention coated with an adhesive on its lower surface, wherein FIG. 9 (a) is a lamina member perspective view and FIG. 9 (b) is a sectional view of the lamina member. An adhesive is applied to the lower portion of the laminar member 200-1 punched in the blanking process in the form of a lamina member by a stamping method. In FIG. 9, it is shown that the adhesive is applied in the form of a dot, but it should be noted that the present invention is not necessarily applied in the form of a dot, but is shown for convenience of understanding.

Herein, it is described that the lower adhesive application device 30 is installed in the fourth piercing die 214, but the present invention is not limited thereto. That is, the lower adhesive applicator 30 may be installed at any one of the first to fifth piercing dies. That is, in the present specification, the lower adhesive agent applying device 30 may be provided at a position other than the fourth piercing die, for example. All such process variations and modifications are to be construed as being included within the scope of the present invention.

It should be noted that the above description of the present invention is merely illustrative and not for the purpose of defining the scope of the present invention in order to understand the present invention. It is intended that the scope of the invention be defined by the claims appended hereto, and that all such modifications and variations are intended to be included within the scope of the present invention.

10: upper mold 20: lower mold
11 to 15: First to fifth piercing punching parts 16: Blanking punching parts
17: Punching plate 17-1: Stripper plate
18: Punching backing plate 19: Punch holder
21: die plate 22: die backing plate
23: Die holder 24: Blanking die
26: Rotating die 27: Squeezing ring
30A, 30: upper and lower adhesive applying device 31:
31A, 32A: concave / convex portion 32: stamp holder
32B: Adhesive tank 32C: Adhesive supply line
33: pad portion 33 ': fine hole
33 ": mesh 33A: adhesive-receiving member
33A-1: protrusion 40: adhesive
10O: Laminated core manufacturing apparatus 200: Strip
200-1: Lamina member 200A: Laminated core
211 to 215: First to fifth piercing dies 300: Lamination unit

Claims (6)

The strip 200 which is composed of the upper mold 10 and the lower mold 20 and in which the punch mounted on the upper mold 10 is sequentially conveyed from the upper portion of the lower mold 20 is passed through a plurality of piercing processes A laminated core manufacturing apparatus (100) for sequentially forming a laminated member (200-1) and sequentially manufacturing a laminated core (200A) made up of a predetermined number of laminated members (200-1) by a blanking process :
A plurality of piercing punching portions provided on the upper mold 10 to mold the strip 200 into the lamina member 200-1;
A plurality of piercing dies provided on the lower mold (20) corresponding to the plurality of piercing punching portions;
A stamp type upper adhesive applicator (30A) provided on any one of the plurality of piercing punching portions of the upper mold (10);
A stamp-type lower adhesive applicator (30) provided on any one of the plurality of piercing dies of the lower mold (10);
A blanking punching portion (16) of an upper mold (10) provided at one side of the plurality of piercing punching portions; And
A blanking die 24 of a lower mold 20 provided at a position corresponding to the blanking punching section 16;
Wherein the laminated core includes a plurality of laminated layers. The apparatus of claim 1, wherein the upper and lower adhesive applicators (30A, 30) each have a lever portion (31) that moves laterally by a cylinder; A stamp holder (32) having a recessed portion (32A) engaged with the recessed portion (31A) of the lever portion (31); And a pad portion (33) on the upper surface of the stamp holder (32). An adhesive supply device according to claim 2, wherein an adhesive tank (32B) is formed in the stamp holder (32), and one side of the adhesive supply passage (32C) pierced on one side of the stamp holder (32) , And the other side of the adhesive supply passage (32C) communicates with the adhesive tank (32B). 3. The apparatus according to claim 2, wherein the pad portion (33) is formed with a plurality of fine holes (33 ') or a mesh (33' '). The pad unit according to claim 4, wherein the protrusion part (33A-1) formed integrally with the adhesive agent receiving member (33A) provided on the pad part (33) is inserted into the fine hole (33 ' Wherein the laminated core is formed so as to have a shape corresponding to that of the laminated core. The adhesive laminate according to claim 1, wherein the strip (33) is coated with an alcohol-reactive adhesive on its upper or lower surface, and the upper or lower adhesive applicator (30A, 30) Core manufacturing apparatus.

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