KR20120010329A - Thomson Molding Device - Google Patents

Abstract

PURPOSE: A Thomson molding device is provided to prevent thin sheet products from being inserted into a cutting blade when a cutting edge of the cutting blade is projected over a blade protection plate or enters a blade passing opening by an elevating motion of the blade protection plate. CONSTITUTION: A Thomson molding device comprises a blade protection plate(12), supporting blocks(30), and an elastic supporting unit of the protection plate. A blade passing opening is penetrated by the blade protection plate in a thickness direction. To make the cutting blade enter the blade passing opening, the blade protection plate is installed separately from the top of a molding plate(20) and the supporting block is coupled to the bottom of the molding plate. In a state where the blade protection plate is pressed toward the molding plate, the supporting unit of the protection plate elastically supports the blade protection panel to the supporting blocks to prevent the projection of the cutting edge of the cutting blade over the blade protection plate. When the blade protection plate is pressed toward the molding plate, the supporting unit of the protection plate elastically supports the cutting blade by the supporting blocks at a projected position of the cutting edge over the blade protection plate.

Description

Thomson Molding Device

The present invention relates to a Thompson mold apparatus, and more particularly, to a mold apparatus used to produce a sheet product having a predetermined form from a sheet material through a pressing operation of a cutting blade provided on a mold sheet.

Thomson mold apparatus has been devised to produce thin products such as LCD polarizers and packaging boxes by cutting and processing thin materials such as thin synthetic resin and paper.

FIG. 8 is an overall configuration diagram of a conventional Thompson mold apparatus, FIG. 9 is a perspective view of a combination of a mold portion of a conventional Thompson mold apparatus, and FIG. 10 is an exploded perspective view of a mold portion of a conventional Thompson mold apparatus.

The conventional Thomson mold apparatus, as shown in these figures, as shown in these figures, the mold portion 110 provided on the upper surface of the table 201, and the press device portion provided on the upper side of the mold portion 110 Has 180.

The metal mold | die part 110 has the metal mold | die plate 120, the cutting blade 111 standing upright on the upper surface of the metal mold | die plate 120, and the blade protection plate 112 provided in contact with the upper side of the metal mold | die plate 120. As shown in FIG.

The mold plate 120 has a blade mounting plate 121 and a blade supporting plate 122 coupled to a bottom surface of the blade mounting plate 121.

In the blade seat plate 121, the blade groove 121a is formed in the thickness direction.

The blade mounting plate 121 is made of wood, synthetic resin, and the like, and the blade supporting plate 122 is made of metal such as stainless steel.

The blade protection plate 112 is made of an elastic material such as a sponge, rubber, etc., and a blade passage opening 112a that is shaped to the cutting blade 111 is formed through the thickness direction.

The blade protection plate 112 having such a configuration is provided in contact with the upper side of the mold plate 120 so that the cutting blade 111 enters the blade passage opening 112a.

Here, the thickness of the blade protection plate 112 is selected so that the blade portion of the cutting blade 111 does not protrude beyond the upper surface of the blade protection plate 112 in a state in which the blade protection plate 112 is not pressed toward the mold plate 120.

The press device unit 180 includes a plate holder 181, a pressure plate 182 coupled to the bottom surface of the plate holder 181, and a driving unit 183 for driving the plate holder 181 up and down.

The pressure plate 182 is to prevent damage to the cutting blade 111 is preferably made of an elastic material such as sponge, rubber.

The driving unit 183 may be implemented using a crank mechanism or a cylinder mechanism as is known in the art.

Referring to the operation of the conventional Thompson mold apparatus having such a configuration is as follows.

First, the sheet material 203 is moved to the installation area of the material supply unit or the cutting blade 111 manually.

Next, the drive unit 183 is controlled to bring the plate holder 181 close to the table 201 so that the pressure plate 182 presses the blade guard plate 112. The plate holder 181 is moved so that the blade portion of the cutting blade 111 protrudes beyond the upper surface of the blade protection plate 112 so that the thin plate material is cut by the cutting blade 111. When the blade guard plate 112 is pressurized, the blade guard plate 112 contracts, and the air in the inner region of the cutting blade 111 is compressed.

Air compressed in the inner region of the cutting blade 111 is discharged to the outside through an air discharge passage (not shown) formed on the upper surface of the mold plate 120.

As the air compressed in the inner region of the cutting blade 111 is discharged to the outside as described above, the cutting blade 111 is deformed (the air compressed in the inner region of the cutting blade is cut along the radial direction from the center of the die plate). The pressure of the blade) can be prevented, and the flatness of the thin plate material to be cut can be stably maintained (the compressed air pressure applied to the thin plate material located in the inner region of the cutting blade decreases).

Next, the plate holder 181 is spaced apart from the table 201 such that the driving unit 183 is controlled to release the pressing operation against the blade protection plate 112.

When the pressing operation on the blade guard plate 112 is released, the blade guard plate 112 expands and thus the cutting blade 111 enters the blade passage opening 112a such that the blade does not protrude beyond the upper surface of the blade guard plate 112. Done.

Next, the sheet material 203 is moved back to the installation area of the cutting material 111 by the material supply unit or manually.

However, according to the conventional thomson mold apparatus, there is a problem that the driving force of the driving unit 183 increases because air in the cutting blade 111 is compressed when the blade protection plate 112 shrinks (overcoming the compressed air pressure). Plate holder must be lowered).

And when the expansion restoration force of the blade protection plate 112 is reduced by a long time use or when the expansion recovery time of the blade protection plate 112 is smaller than the punching cycle during continuous punching, the thin plate product is stuck to the cutting blade 111 and workability is deteriorated. There was a problem.

In addition, since there are many foreign substances generated from the blade protection plate 112, there is a problem that the product defective rate is increased (the cutting operation of the cutting blade is not made accurately by foreign matters).

It is therefore an object of the present invention to provide a Thomson mold apparatus which can reduce the driving force of the driving portion, improve the workability, and reduce the product defect rate.

According to the present invention, in the Thomson mold apparatus having a mold plate and a cutting blade standing on the upper surface of the mold plate, and processing the plate material through the cutting operation of the cutting blade, the shape fit to the cutting blade The blade passing opening is formed in the penetrating along the thickness direction, and the blade protection plate spaced apart on the upper side of the mold plate so that the cutting blade enters the blade passing opening; A support block coupled to a bottom of the mold plate; One end is coupled to the blade guard plate and has a support plate support shaft installed to penetrate the mold plate and a support shaft support portion for elastically supporting the protection plate support shaft with respect to the support block, the blade protection plate is not pressed toward the mold plate When the blade of the cutting blade is elastically supported with respect to the support block so that the blade portion of the cutting blade does not protrude beyond the upper surface of the blade guard and the blade guard is pressed toward the mold plate blade portion of the blade blade It is achieved by the Thompson mold apparatus characterized in that it comprises a protective plate elastic support for elastically supporting the blade guard plate against the support block so that the blade guard plate approaches the mold plate to a position protruding beyond the upper surface of the.

Here, the support block has a block support shaft through-hole formed to correspond to the protection plate support shaft so that the blade guard can be elastically supported by the elastic force of the elastic body and the support shaft support can be easily installed. A block top plate portion coupled to a bottom surface of the mold plate so that a protective plate support shaft passes therethrough, and a support elastic seat seating hole having a larger cross-sectional area than the block support shaft through hole are formed so as to correspond to the block support shaft through hole. A block middle plate portion coupled to the bottom surface of the block upper plate portion so that the hole is aligned with the block supporting shaft passage hole, and a block lower plate portion coupled to the bottom surface of the block middle plate portion; The support shaft support portion has a tubular support shaft guide body portion and a support shaft guide flange bent outwardly from one end of the support shaft guide body portion, and the support shaft guide flange is formed inside the support elastic body seating hole. And a support shaft elevating guide tube installed to allow the support shaft guide body to pass through the block support shaft through hole, and a support elastic support plate coupled to a lower end of the protective plate support shaft in the support elastic seat hole. It is preferable that the support elastic body is installed so that both ends are supported on the upper surface of the block lower plate portion and the support elastic support plate.

Four material guide pillars and the material guide pillars are formed to cooperate with each other in the circumferential region of the cutting blade to form a thin plate material stably on the cutting blade and penetrate the blade guard plate and the mold plate. When the material guide pillar is elastically supported with respect to the support block so that the material guide pillar protrudes beyond the upper surface of the blade protection plate without being pressed toward the mold plate, and the material guide pillar is pressed toward the mold plate. A guide pillar elastically supports the material guide pillar with respect to the support block so as to approach the mold plate together with the blade guard plate, and the material for guiding the thin plate material to the installation area of the cutting blade through the material guide pillar. It is preferable to further include a guide.

Therefore, according to the present invention, by preventing the air in the inner region of the cutting blade is not compressed when the blade protection plate is lowered, it is possible to reduce the driving force of the drive unit.

In addition, by allowing the blade of the cutting blade to protrude beyond the upper surface of the blade guard plate or to enter the blade passing opening by the lifting operation of the blade guard plate, it is possible to prevent the sheet product from being caught by the blade and deteriorating workability.

In addition, the product defect rate can be reduced by reducing the foreign matter generated from the blade guard.

1 is an overall configuration diagram of a Thompson mold apparatus according to an embodiment of the present invention,
Figure 2 is a perspective view of the combination of the mold portion of the Thompson mold apparatus according to an embodiment of the present invention,
Figure 3 is an exploded perspective view of the mold portion of the Thompson mold apparatus according to an embodiment of the present invention,
4 is a partially exploded perspective view of the support block shown in FIG. 3;
Figure 5 is a cross-sectional view of the mold portion of the Thompson mold apparatus according to an embodiment of the present invention,
Figure 6 is an operating state of the Thompson mold apparatus according to an embodiment of the present invention,
Figure 7 is a perspective view of the combination of the mold portion of the Thompson mold apparatus according to another embodiment of the present invention,
8 is an overall configuration diagram of a conventional Thompson mold apparatus;
9 is a perspective view of the combination of the mold portion of the conventional Thompson mold apparatus;
10 is an exploded perspective view of a mold part of a conventional Thompson mold apparatus.

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

1 is an overall configuration diagram of a Thompson mold apparatus according to an embodiment of the present invention, Figure 2 is a perspective view of the mold portion of the Thompson mold apparatus according to an embodiment of the present invention, Figure 3 is a 4 is an exploded perspective view of a mold part of the Thompson mold apparatus according to the embodiment, FIG. 4 is a partially exploded perspective view of the support block shown in FIG. 3, and FIG. 5 is a mold part of the Thompson mold apparatus according to the embodiment of the present invention. This is a cross section.

Thompson mold apparatus according to an embodiment of the present invention, as shown in these drawings, the mold portion 10 provided on the upper surface of the table 201, the press device portion 80 provided on the upper side of the mold portion 10 )

The mold part 10 includes a mold plate 20, a cutting blade 11 standing on the upper surface of the mold plate 20, a blade guard plate 12 spaced apart from the mold plate 20, and a mold plate ( The support block 30 coupled to the bottom of the 20, the protective plate elastic support 40 for elastically supporting the blade guard plate 12 with respect to the support block 30, and the thin plate material 203 of the cutting blade 11 It has a material guide (60) to guide the installation area.

The mold plate 20 has a blade mounting plate 21 and a blade supporting plate 22 coupled to the bottom surface of the blade mounting plate 21.

The blade mounting plate 21 and the blade supporting plate 22 are formed so that four die plate support shaft through holes 23 and four die plate guide pillar through holes 24 penetrate along the thickness direction.

And the blade groove 21a is formed in the blade mounting direction 21 in the thickness direction.

The blade mounting plate 21 is made of wood, synthetic resin, or the like, and the blade supporting plate 22 is made of metal such as stainless steel.

The blade guard plate 12 is made of a hard material such as stainless steel, wood, synthetic resin, etc., and the blade passage opening 12a that is shaped to the cutting blade 11 is formed through the thickness direction.

In the blade protection plate 12, four protection plate guide pillar through holes 12b are formed in the thickness direction so as to be aligned with the mold plate guide pillar through holes 24.

The blade protection plate 12 having such a configuration is spaced apart from the upper side of the mold plate 20 so that the cutting blade 11 enters the blade passage opening 12a.

Here, the spaced apart position of the blade guard plate 12 is selected so that the blade portion of the cutting blade 11 does not protrude beyond the upper surface of the blade guard plate 12 in a state where the blade guard plate 12 is not pressed toward the mold plate 20. .

The support block 30 includes a block upper plate portion 31 coupled to the bottom of the mold plate 20, a two-layer block middle plate portion 32 coupled to the bottom of the block upper plate portion 31, and a block intermediate plate portion 32. And a block closing plate portion 33 coupled to the bottom of the block, and a block closing plate portion 34 coupled to the bottom of the bottom blocking portion 33.

The block upper plate portion 31 is formed with a block support shaft passage hole 31a so as to communicate with the mold plate support shaft passage hole 23. As a result, the block supporting shaft passage hole 31a corresponds to the protective plate supporting shaft 41.

A block guide pillar through hole 31b is formed in the block upper plate part 31 so as to communicate with the mold plate guide pillar through hole 24.

In the block top plate portion 31 having such a configuration, the protective plate support shaft 41 to be described later passes through the mold plate support shaft through hole 23, and the material guide pillar 61 described later to the mold plate guide pillar through hole 24 is provided. It is coupled to the mold plate 20 to pass through.

In the block intermediate plate portion 32, a support elastomer seat hole 32a having a larger cross-sectional area than the mold plate support shaft through hole 23 is formed to correspond to the block support shaft through hole 31a.

In addition, a guide elastic seating hole 32b having a larger cross-sectional area than the mold plate guide pillar through hole 24 is formed in the block intermediate plate portion 32 so as to correspond to the block guide pillar through hole 31b.

The block intermediate plate portion 32 having such a configuration is such that the support elastic body seating hole 32a is aligned with the mold plate support shaft passing hole 23, and the guide elastic body seating hole 32b is aligned with the block guide column through hole 31b. It is coupled to the block top plate portion 31.

An elastic seating support hole 33a is formed in the block lower plate part 33 so as to correspond to the guide elastic seating hole 32b.

The lower block portion 33 having such a configuration is coupled to the block intermediate plate portion 32 such that the elastic seating aid 33a is aligned with the guide elastic seating hole 32b.

The protective plate elastic support portion 40 has a protective plate support shaft 41 having an upper end coupled to the blade guard plate 12, and a support shaft support portion 50 for elastically supporting the protective plate support shaft 41 with respect to the support block 30. have.

The protection plate support shaft 41 is coupled to the blade protection plate 12 through the tightening screw 202 in the state passing through the mold plate support shaft passage hole 23.

The support shaft support part 50 includes a support shaft elevating guide tube 51 installed on the support block 30, a support elastic support plate 52 coupled to the lower end of the support plate support shaft 41, and a lower block part 33. The support elastic body 53 is provided so that both ends may be supported by the upper surface and the support elastic body support plate 52, and the support elastic body protection tube 54 provided in the peripheral area of the support elastic body 53 is provided.

The support shaft elevating guide tube 51 has a tubular support shaft guide body 51a and a support shaft guide flange 51b bent outwardly from one end of the support shaft guide body 51a.

The support shaft lifting guide tube 51 having such a configuration has a support shaft guide flange 51b engaged with the block upper plate portion 31 inside the support elastic seating hole 32a, and the support shaft guide body 51a. Is installed so as to pass through the mold plate support shaft through hole 23 and the block support shaft through hole 31a.

The support elastic support plate 52 is coupled to the lower end of the protective plate support shaft 41 through the tightening screw 202 in the support elastic seating hole 32a.

The support elastic body 53 is implemented in the form of a coil spring.

Support elastic body protection tube 54 is installed so that the lower end is supported on the upper surface of the lower block portion 33 and inserted into the support elastic seating hole (32a).

The support plate support shaft 41 is elastically supported with respect to the support block 30 by the support shaft support part 50 which has such a structure.

Referring to the operation of the protective plate elastic support 40 having the above-described configuration is as follows.

First, when the blade protection plate 12 is pressed toward the mold plate 20, the protection plate support shaft 41 descends together with the blade protection plate 12 (in a direction approaching the block closing plate).

When the protective plate support shaft 41 descends, the support elastic body 53 contracts. The lowering of the protection plate support shaft 41 is made so that the blade protection plate 12 approaches the mold plate 20 to a position where the blade of the cutting blade 11 protrudes beyond the upper surface of the blade protection plate 12. An elastic force is accumulated when the support elastic body 53 shrinks.

Next, when the pressurized state against the blade guard plate 12 is released, the guard plate support shaft 41 rises to the original position together with the blade guard plate 12 by the elastic force accumulated in the support elastic body 53 (direction away from the block dead plate part). to).

The material guide unit 60 elastically supports four material guide columns 61 and each material guide column 61 installed to form a rectangle by cooperating with each other in the peripheral area of the cutting blade 11. It has a guide pillar elastic support 70 to.

The material guide column 61 is installed to pass through the mold plate guide column through hole 24 and the block guide column through hole 31b. Accordingly, the material guide column 61 penetrates the blade guard plate 12 and the mold plate 20.

Here, the length of the material guide pillar 61 is selected to protrude beyond the upper surface of the blade protection plate 12.

Guide pillar elastic support 70 is a column elevating guide tube 71 installed on the support block 30, guide elastic support plate 72 coupled to the lower end of the material guide pillar 61, block closing plate portion 34 The guide elastic body 73 is provided so that both ends are supported by the upper surface and the guide elastic body support plate 72, and the guide elastic body protection tube 74 provided in the periphery area | region of the guide elastic body 73 is provided.

The column elevating guide tube 71 has a tubular guide body portion 71a and a pillar guide flange 71b that is bent outwardly from one end of the pillar guide body 71a.

Column lifting guide tube 71 having such a configuration is the column guide flange (71b) is engaged with the block upper plate portion 31 inside the guide elastic seating hole (32b), the column guide body portion (71a) is a mold plate It is installed to pass through the guide column through hole 24, the guard plate guide column through hole (12b) and the block guide column through hole (31b).

Guide elastic support plate 72 is coupled to the lower end of the material guide pillar 61 through the tightening screw 202 in the guide elastic seating hole (32b).

Guide elastic body 73 is implemented in the form of a coil spring.

The guide elastic body protection tube 74 is supported so that the lower end is supported on the upper surface of the block closing plate 34, and inserted into the guide elastic body seating hole (32b).

Referring to the operation of the guide column elastic support 70 having such a configuration as follows.

First, when the material guide pillar 61 is pressed toward the mold plate 20, the material guide pillar 61 is lowered (in a direction approaching the block closing plate).

When the material guide column 61 is lowered and the top of the material guide column 61 is disposed at the same height as the upper surface of the blade guard plate 12, the material guide pillar 61 is the blade guard plate 12 and the protective plate support shaft 41. Descend with

Elastic force is accumulated when the material guide column 61 is lowered.

Next, when the pressurized state to the material guide column 61 is released, the material guide column 61 rises to its original position by the elastic force accumulated in the guide elastic body 73 (in a direction away from the block closing plate).

The thin plate material approaching the installation area of the cutting blade 11 along the plate surface direction of the blade protection plate 12 by the material guide unit 60 having the above configuration may pass between a pair of material guide pillars 61. When the cutting blade 11 is aligned with the installation area.

The press apparatus part 80 has the plate holder 81, the press plate 82 couple | bonded with the bottom face of the plate holder 81, and the drive part 83 which raises and lowers the plate holder 81. As shown in FIG.

The pressure plate 82 is to prevent damage to the cutting blade 11, it is preferable to be made of an elastic material such as sponge, rubber.

The drive unit 83 may be implemented using a crank mechanism or a cylinder mechanism as is known in the art.

Referring to Figure 6 the operation of the Thompson mold apparatus according to an embodiment of the present invention having such a configuration as follows.

First, the thin plate material 203 is moved to the installation area of the cutting blade 11 through the material supply part or a pair of material guide pillars 61 manually.

Next, the plate holder 81 is brought close to the table 201 so that the driving plate 83 is controlled so that the pressure plate 82 sequentially presses the material guide pillar 61 and the blade guard plate 12. The plate holder 81 is moved so that the blade portion of the cutting blade 11 protrudes beyond the upper surface of the blade protection plate 12 so that the thin plate material is cut by the cutting blade 11.

Next, the plate holder 81 is spaced apart from the table 201 such that the driving unit 83 is controlled to release the pressing operation of the material guide pillar 61 and the blade guard plate 12.

When the pressing operation on the material guide pillar 61 and the blade guard plate 12 is released, the guard plate support shaft 41 together with the blade guard plate 12 is raised to its original position by the elastic force accumulated in the support elastic body 53. The material guide pillar 61 rises to its original position by the elastic force accumulated in the elastic body 73.

Next, the sheet material 203 is moved back to the installation area of the cutting blade 11 through the material supply part or a pair of material guide pillars 61 manually.

Meanwhile, in the above-described embodiment, the cutting operation is performed in one region. However, as shown in FIG. 7, the present invention may be implemented so that the cutting operation occurs in a plurality of regions.

In the above-described embodiment, the mold part 10 is fixedly installed on the upper surface of the table 201 and the thin plate material 203 is supplied to the upper side of the blade protection plate 12. However, the mold part 10 is plate holder. The present invention can be implemented by a method of supplying a thin plate material to the upper surface of the table 201 while being provided to be elevated on the 81.

According to the embodiment of the present invention as described above, by preventing the air in the inner region of the cutting blade 11 is not compressed when the blade protection plate 12 is lowered, it is possible to reduce the driving force of the drive unit (83).

The blade of the cutting blade 11 protrudes beyond the upper surface of the blade guard plate 12 or enters the blade passage opening 12a by the lifting and lowering operation of the blade guard plate 12, whereby the thin sheet product is cut onto the cutting blade 11. The workability can be prevented from being pinched.

In addition, it is possible to reduce the product defect rate by reducing the foreign matter generated from the blade protection plate 12.

In addition, the support block 30 is divided into a block upper plate portion 31, a block middle plate portion 32, and a block lower plate portion 33, and the support shaft support portion 50 is configured to include a support elastic body 53, thereby providing an elastic body. It is possible to elastically support the blade protection plate 12 by using the elastic force and to easily support the support shaft support (50).

In addition, by adding the material guide part 60 for guiding the thin plate material 203 to the installation area of the cutting blade 11, the thin plate material 203 can be stably guided to the installation area of the cutting blade 11. .

10, 110: mold part 11, 111: cutting blade
12, 112: blade protection plate 20, 120: mold plate
30: support block 40: protective plate elastic support
41: support plate support shaft 50: support shaft support
60: material guide 61: material guide pillar
70: guide pillar elastic support 80, 180: press device
81, 181: plate holder 82, 182: pressure plate

Claims (3)

In the Thompson mold apparatus having a mold plate and a cutting blade standing up on the upper surface of the mold plate, and processing the plate material through the cutting operation of the cutting blade,
A blade guard opening that is formed to fit the cutting blade through the thickness direction and is spaced apart at an upper side of the mold plate so that the cutting blade enters the blade passage opening;
A support block coupled to a bottom of the mold plate;
The blade guard is elastically supported with respect to the support block so that the blade of the cutting blade does not protrude beyond the upper surface of the blade guard in a state where the blade guard is not pressed toward the mold plate, and the blade guard plate supports the mold plate. A protective plate elastic support for elastically supporting the blade guard against the support block such that the blade guard approaches the mold plate in a position where the blade of the cutting blade protrudes beyond the upper surface of the blade guard when pressed toward the support block. Thomson mold apparatus characterized by. The method of claim 1,
The support block has a block support shaft through hole is formed so as to correspond to the protective plate support shaft and the block upper plate portion coupled to the bottom surface of the mold plate so that the protective plate support shaft passes through the block support shaft through hole, and the block support shaft through A block intermediate plate portion which is formed to have a support elastic seating hole having a larger cross-sectional area than the ball and corresponds to the block support shaft passing hole, and is coupled to the bottom surface of the block top plate so that the support elastic seating hole is aligned with the block support shaft passing hole; And a lower block portion coupled to a bottom of the block middle plate portion;
The support plate elastic support portion is a support plate guide shaft bent toward the outside from one end coupled to the blade protection plate and installed through the mold plate, the support shaft guide body of the tubular shape and the end of the support shaft guide body portion A support shaft lifting guide tube having a flange and the support shaft guide flange engaging the block upper plate portion in the support elastic body seating hole and the support shaft guide body passing through the block support shaft passing hole; Thomson mold apparatus characterized in that it comprises a support elastic support plate coupled to the lower end of the protective plate support shaft inside the support elastic seat hole, and a support elastic body is installed so that both ends are supported on the upper surface of the lower block portion and the support elastic support plate . The method according to claim 1 or 2,
The four material guide pillars and the material guide pillars installed to cooperate with each other in the circumferential region of the cutting blade to pass through the blade guard plate and the mold plate and the material guide pillars are not pressed toward the mold plate. The material guide pillar elastically supports the material guide pillar with respect to the support block so as to protrude beyond the upper surface of the blade guard plate and to approach the mold plate together with the blade guard plate when the material guide pillar is pressed toward the mold plate. The thomson mold apparatus, characterized in that it further comprises a guide guide elastic support for the support block with respect to the support block, the guide material for guiding the thin plate material to the installation area of the cutting blade through the material guide pillar.

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