KR200487877Y1 - A press mold capable of performing bending while minimizing contact with a workpiece - Google Patents

Abstract

The present invention relates to a press die for bending a grain, and more particularly to a stripper supporting a grain to be cut and a slope inclined in the same direction in a mold punch which is in direct contact with the grain and performs bending In the state where the stripper supports the grain to be fed, the mold punch is brought into contact with the grain by the inclined surface to perform bending, thereby minimizing the damage of the bending caused by the friction. In addition, The present invention relates to a press mold capable of performing bending while minimizing contact with a to-be-cut grain, which can be bent without giving a yield.
In order to achieve the above object, according to one aspect of the present invention, there is provided a press mold capable of bending while minimizing contact with a grain to be cut, comprising: a punch die for supporting a grain to be cut; A punch body which is vertically lifted and pivoted and which presses and bends the to-be-rolled grain; and a cylindrical pressing rod which is provided at a lower end portion of the punch body and presses the to- Punches.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a press mold capable of performing bending while minimizing contact with a grain,

The present invention relates to a press die for bending a grain, and more particularly to a stripper supporting a grain to be cut and a slope inclined in the same direction in a mold punch which is in direct contact with the grain and performs bending In the state where the stripper supports the grain to be fed, the mold punch is brought into contact with the grain by the inclined surface to perform bending, thereby minimizing the damage of the bending caused by the friction. In addition, The present invention relates to a press mold capable of performing bending while minimizing contact with a to-be-cut grain, which can be bent without giving a yield.

Generally, as a means for bending the metal plate, the metal plate is bent by pressing the metal plate using a press.

The bending means is in contact with the metal plate material from the top of the metal plate material while the metal plate material is supported on the press, and a tool capable of bending the metal plate material is lowered and pressed by pressing the metal plate material.

However, there is a problem that the tool is directly brought into contact with the metal plate at a high pressure, and scratches are generated in a path where the metal plate is bent, thereby deteriorating the quality of the product.

In order to solve the above-described problem, in the prior art document 1 (registered trademark 10-1818593 banding punch and a press bending die equipped with the same), a roller is attached to a banding punch so that a roller is rolled to press a workpiece to minimize a scratch .

However, in the prior art document 1, even when the roller is rotated in contact with the object to be processed vertically along the bending path, product powder and foreign matter adhere to the rollers when bending, resulting in incomplete rotation and scratching. There is a problem to be done.

Further, in the prior art 2 (a bending press machine equipped with a movable cam drive of a registration machine model No. 20-0115936), a construction is disclosed in which a material can be bent while being rotated toward a workpiece side by a cam block.

However, in the prior art document 2, since the cam block is provided on the die side, there is a problem that the size and shape of the bent portion of the material are limited because the cam block is provided on the bending path.

Prior Art Document 1 (Patent No. 10-1818593) A banding punch and a press bending mold having the same. Prior Art 2 (Bending press machine with movable cam drive 20-0115936)

In order to solve the above problems, the present invention has been made to solve the above-mentioned problems. In order to minimize the contact area at the time of bending, the present invention provides a pressurizing rod having a circular rod shape at a contact position. In the upper and lower mold punches, The sloped surface formed on the stripper and the sloped surface of the mold punch are brought into contact with each other so that the mold punch is rotated along the sloped surface and the pod grains can be bent so as to minimize the contact area of the punch to the pod grains, Which is capable of preventing bending while minimizing the contact with the grain to be cut.

The present invention also provides a press mold capable of bending a to-be-cut grain of various sizes by being able to bend without affecting the bending path of the to-be-bent object which is located at the upper portion of the to-be- For other purposes.

According to an embodiment of the present invention, there is provided a press mold capable of performing bending while minimizing contact with a grain, comprising: a punch mold (100) for supporting a grain (10); A punch body 210 which is rotatably installed at an upper portion of the punch mold 100 so as to be vertically raised and rotated and which presses the punch body 10 and bends the punch body 10; And a cylindrical punch (200) provided at the end of the punch (200) and provided with a cylindrical pressing rod (220) pressing the punch grain (10) while contacting with the minimum area.

The punch mold 100 includes a die 110 for supporting a lower portion of the to-be-rolled grain 10 and an upper surface of the die 10, An operation mold 130 which is vertically lifted and elevated while supporting the stripper 120 at an upper portion of the stripper 120 and a mold punch 130 which is formed inside the punch mold 100, And a punch operation hole 140 provided in the stripper 120 to provide a space for vertically moving up and down while being pivoted to the side of the to-be-fed cereal 10. In the stripper 120, the punch 200 is lifted up and down, The guide slope 123 is guided to be pivoted to the side of the guide slope 123.

The punch body 210 is provided at its lower portion with a pressure bar 220 on the other side thereof and has an inclined surface shape corresponding to an induction slope 123 formed in the stripper 120. The induction slope 123 has a punch body 210 are lowered and brought into contact with the punch body 210, the punch body 210 is pivoted toward the grain 10.

A fixing pin 230 is fixed to one side of the pressing rod 220 so as to prevent the pressing rod 220 from rotating. When the pressing pin 220 is inserted into the fixing pin 230, And a pin fixing hole 221 is formed to support the rotation shaft 220 so as not to rotate.

In addition, in the mold punch 200, the grain 10 is bent at the other side of the grain 10 before the mold punch 200 comes into contact with the grain 10 to be bent And a cutter (300) for cutting the grain to be cut is further provided.

Meanwhile, a press mold capable of performing bending while minimizing contact with the to-be-cut grain according to an embodiment of the present invention includes a punch mold 100 supporting the to-be-rolled grain 10; A punch body 210 which is rotatably installed in the punch metal mold 100 so as to be rotatable up and down and which is pivotally moved up and down to press and bend the grain 10; And a cylindrical punch (200) provided at the end of the punch (200) and provided with a cylindrical pressing rod (220) pressing the punch grain (10) while contacting with the minimum area.

The punch mold 100 includes a die 110 for supporting the upper part of the grain 10 and a stripper 120 for supporting the lower surface of the grain 10 at a lower portion of the die 110, An operation mold 130 which is vertically lifted and lowered from the bottom of the stripper 120 to the side of the stripper 120 and a mold 100 which is formed inside the punch mold 100. The mold punch 200 is provided on the side of the grain 10 And a punch operation hole 140 for providing a space to be vertically lifted and lowered while rotating the mold punch 200. The strip punch 200 is guided to a guide slope surface 123 are formed.

The punch body 210 has a push rod 220 at its upper portion and an inclined face corresponding to the guide slope 123 formed in the stripper 120 at the other side thereof. The operation slope surface 214 is formed to operate the punch body 210 to rotate toward the grain 10 when the punch body 210 is lifted and touched.

One end of the fixing pin 230 is fitted to one side of the pressing rod 220 and a fixing pin 230 which can be fixed and supported to prevent the pressing rod 220 from rotating is inserted into the pressing rod 220, And a pin fixing hole 221 is formed to support the rotation shaft 220 so as not to rotate.

The stripper 120 is always pushed toward the die 110 by a spring 122 provided at the lower side so that the grain 10 can be supported by elasticity so as not to flow at the bending and cutting positions .

According to one embodiment of the present invention, a press mold capable of performing bending while minimizing contact with the grain to be cut has the following effects.

First, there is an effect of minimizing the occurrence of scratches on the grain by minimizing the contact area of the mold punch with the grain.

Second, the mold punch for bending the grain is contacted with the grain and the mold punch is moved up and down. When the grain is pressed, the mold punch is rotated by the inclined surface. The grain punch is contacted to the grain at a minimum, Is prevented from occurring.

Third, as the mold punch rotates, the inclined surface inducing the bending of the grain is located on the upper side of the bending body, so that the bending can be performed while coping with various sizes and shapes without interfering with the bending path of the grain .

FIG. 1 is a perspective view of a press mold according to an embodiment of the present invention, which can perform bending while minimizing contact with the grain. FIG.
Fig. 2 is an exploded perspective view of a press mold capable of performing bending while minimizing contact with the grain to be cut according to an embodiment of the present invention
3 is a cross-sectional view of a press mold capable of performing bending while minimizing contact with the grain to be cut according to an embodiment of the present invention
FIG. 4 is a cross-sectional view showing a state before the bending operation of the press die capable of performing bending while minimizing contact with the grain to be grained according to an embodiment of the present invention
FIG. 5 is a cross-sectional view showing a state in which a press mold capable of performing bending while minimizing contact with the grain to be bent according to an embodiment of the present invention is bent
FIG. 6 is a cross-sectional view of a press die capable of performing bending while minimizing contact with a to-be-cut grain according to an embodiment of the present invention,
FIG. 7 is a view showing an operation state of a press mold capable of performing bending while minimizing contact with a to-be-cut grain according to an embodiment of the present invention,

The present invention relates to a bending die for bending a metal plate, and more particularly, to a bending die for bending a metal plate, in which contact of a die punch for bending the bare grain is minimized, And a guiding inclined surface for guiding the mold punch to be rotated in a rotating operation is minimized in order to minimize the contact of the mold punch rotatably provided with the to-be-cut grain. The guiding inclined surface is provided on the upper side of the to- The present invention relates to a press mold capable of performing bending while minimizing contact with a grain to be used which can be applied to various sizes and shapes without interfering with a path.

Hereinafter, a press mold capable of bending while minimizing contact with a grain to be cut according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a press mold capable of performing bending while minimizing contact with a grain to be cut according to an embodiment of the present invention. FIG. 2 is a cross- FIG. 3 is a cross-sectional view of a press mold capable of performing bending while minimizing contact with a to-be-cut grain according to an embodiment of the present invention. FIG.

1 to 3, the present invention relates generally to a punch mold 100 for press-supporting a to-be-cut grain 10 and a punch mold 100 for operating the punch grain 10 The present invention relates to a metal mold punch for press-bending a metal mold punch 200 and a mold punch 200. The metal mold punch 200 is provided at one side of the mold punch 200, And a cutter 300 for cutting the cutter 300.

The punch mold 100 includes a die 110 for supporting a lower portion of the to-be-rolled grain 10 and a punching die 100 for bending the to-be-rolled grain 10 while being vertically lifted from the upper portion of the die 110. [ A stripper 120 for supporting the top surface of the mold 10 and supporting the to-be-rolled grain 10 so that it does not rise together with the mold punch 200 when the mold punch 200 is lifted after bending is completed, The movable mold 130 and the stripper 120 and the die 110 can be moved up and down while supporting the stripper 120 while the mold punch 200 is rotatably supported at the upper portion of the mold 120, And a punch operation hole 140 for providing a space in which the mold punch 200 can be rotated while being vertically lifted and lowered.

The folded support block 111 for supporting the lower portion of the braid 10 is further provided on the inner side of the lower portion where the braid 10 of the die 110 is bent.

As a result, the inside of the bending portion can be supported in a desired shape.

The stripper 120 is supported by the movable mold 130 and lifted and lowered together with the movable mold 130. The stripper 120 is supported by the movable mold 130 so as not to be separated from the movable mold 130, A support shaft 121 guiding the mold punch 200 and the movable mold 130 to be lowered together with the upper surface of the support shaft 121 supported by the upper surface of the support shaft 121, A spring 122 that provides elasticity to lower the movable mold 130 and the mold punch 200 while maintaining the support state at a constant pressure by elasticity in a state of supporting the upper surface of the to- And the mold punch 200 is moved in the direction in which the mold punch 200 descends and the stripper 120 supports the upper surface of the to-be- The guiding inclined surface 123 is formed The.

The cutter 300 is vertically moved up and down together with the mold punch 200 on the operation mold 130. The cutter 300 is moved up and down with the mold punch 200 so that the mold punch 200 contacts the cut grain 10, The other side where the grain 10 is bent can be cut to a specific size.

At this time, a cutter blade 310 is formed at the end of the cutter 300 at the side of the grain 10 to be cut so as to be inclined in particular to the cut end of the grain 10, Can be effectively cut.

The mold punch 200 can be rotated along the guide slope 123 to the side of the grain 10 so as to press the grain 10 to bend the grain 10 with a minimum amount of contact And it is not necessary to perform a separate cutting process, and cutting and bending are both performed in a single mold operation, so that the equipment can be simplified and the production speed can be increased.

The movable mold 130 is vertically lifted and raised in a state that the stripper 120 is supported on the upper portion of the stripper 120. The movable mold 130 includes a punch pivot 131 for pivotally coupling the mold punch 200, The support shaft 121 of the stripper 120 is pierced and spaced apart from the stripper 120 by the spring 122 so that the stripper 120 is brought into contact with the upper surface of the grain 10, A shaft guide hole 132 for guiding the mold punch 200 to bend the to-be-cut grain 10 while the operation mold 130 is further lowered apart from the stripper 120 in a state of supporting the grain 10, .

Therefore, when the to-be-cut grain 10 is processed in a state of being supported without flowing, it is possible to accurately bend while minimizing the contact between the die punch 200 and the to-be-cut grain 10.

The mold punch 200 includes a punch body 210 which is pivotally moved up and down in the punching operation hole 140 to bend the tofu grains 10 and is pivotally coupled to the operation mold 130, A press rod 220 which is formed in a columnar shape and press-bent the to-be-coated grain 10 to a minimum extent and which is coupled to a lower side of the punch body 210 on the side where the to-be- And a fixing pin 230 inserted into the side of the pressure bar 220 from the side of the pressure bar 220 at one side of the pressure bar 210 to fix the pressure bar 220 so as not to rotate.

The punch body 210 is inserted into the punch pivot shaft 131 of the movable mold 130 and is coupled to the punch body 131 to support the mold punch 200 in a rotatable manner The punch body 210 includes a coaxial coupling hole 211 and a fixing pin 230 extending from one side of the punch body 210 to the other side to which the fixing pin 230 is coupled. The punch body 210 has a fixing pin insertion hole 212 and a punch body 210. The punch body 210 has a size and shape corresponding to the outer circumference of the press rod 220 on the side of the punch body 210, And the guiding inclined surface 123 of the stripper 120 is lowered when the mold punch 200 is lowered. When the mold punch 200 is lowered, And an operation inclined surface 214 for operating the mold punch 200 to be rotated It is configured.

A pin fixing hole 221 is formed at one side of the pressing rod 220 to receive and fix the fixing pin 230 inserted into the fixing pin insertion hole 212, The pressing rod 220 is fixedly supported so as not to be rotated while being inserted into the hole 221.

As a result, it is possible to minimize the scratches that may occur in the grain 10 while the pressing rod 220 is fixed or supported so as not to be rotated or separated. When the pressing rod 220 is worn or damaged, The pressure rod 220 can be replaced and used.

FIG. 4 is a cross-sectional view illustrating a state before the bending operation of a press mold capable of performing bending while minimizing contact with the grain to be grained according to an embodiment of the present invention.

4, before the bending operation, the distance between the die 110 and the stripper 120 is maintained at a predetermined distance in a state where both the stripper 120 and the movable die 130 are lifted from the punch die 100 .

The to-be-rolled grain 10 is placed on the die 110 so that the bending portion faces the die punch side.

FIG. 5 is a cross-sectional view illustrating a state in which a press mold capable of performing bending while minimizing contact with a grain to be bent according to an embodiment of the present invention is bent.

Referring to FIG. 5, the movable mold 130 and the mold punch 200 rotatably installed on the stripper 120 and the movable mold 130 descend at the time of bending the grain 10.

At this time, first, the stripper 120 is brought into contact with the upper surface of the grain 10 positioned above the die 110 to support the grain 10 so that the grain 10 does not flow.

In this state, the cutter 300 is lowered together with the movable mold 130, and the other side of the bent punch 200 is bent before the punch 200 is brought into contact with the punch 10 to be bent, 300 can be cut to a specific size as the cutting blade 310 contacts and is pressed.

The operation mold 130 is continuously lowered with the mold punch 200 installed therein and the operation slope surface 214 of the mold punch 200 is brought into contact with the guide slope surface 123 of the stripper 120, The lower portion of the mold punch 200 is lowered while being rotated toward the bent portion side of the to-be-molded article 10 by the inclination in a state where the guide surface 214 and the guide slope 123 are in contact with each other.

At this time, elasticity is generated by the spring 122 between the stripper 120 and the driving mold 130, so that the grain 10 can be supported at a predetermined pressure.

As a result, the press punch 220 provided at the lower portion of the mold punch 200 is bent by the mold punch 200, which is rotated by the guide slope 123 and the operation slope 214, The pressed grains 10 are bent by the contact pressure of the pressurizing rods 220. As a result,

As a result, the bending operation can be performed while minimizing the occurrence of scratches on the to-be-cut grain 10, and the induction slope 123, which rotates the mold punch 200, So that the to-be-rolled grain 10 can be bent without being influenced by the guiding inclined surface.

FIG. 6 is a cross-sectional view illustrating a press die capable of performing bending while minimizing contact with a to-be-cut grain according to an embodiment of the present invention, in which the operation die is disposed at a lower portion and is moved up and down.

Referring to FIG. 6, the present invention may be configured such that the overall arrangement is reversed such that the mold 130 is lifted up and down at the bottom of the die 110 and the stripper 120.

At this time, the stripper 120 is firmly supported on the die 110 side by elasticity, so that the grain 10 is held in a fixed position.

FIG. 7 is an operational state diagram illustrating a state in which an operation tool is operated from the bottom to the top in a press mold capable of bending while minimizing contact with the grain to be cut according to an embodiment of the present invention.

7, when the die 10 is positioned between the die 110 and the stripper 120, the die 130 is lifted and the cutter 300 is lifted together with the die 130, The cutting edge 310 of the cutter 300 contacts and presses the other side of the to-be-infused grain 10 that is bent before the mold punch 200 contacts the to-be- As shown in Fig.

Thereafter, the mold punch 200 is pivoted by the guide slope 123 and press-bent the braid 10.

Meanwhile, the present invention can be selectively bent at both the upper and lower portions of the grain 10, even if the grain 10 is bent in different directions, as the grain 10 is continuously and selectively arranged on both sides of the grain 10.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a method and a device for minimizing a contact area of a punch for press-bending a grain and a grain for bending, And the mold punch is provided on the upper side of the path where the cut grain is bent so that the mold punch rotates without affecting the bending path of the bend to be bent downward, It is possible to perform the bending operation without interfering with the shape.

10: Bread grain 110: Die
111: bending support part 120: stripper
121: support shaft 122: spring
123: induction slope 130: motion mold
131: punch pivot shaft 132: shaft guide hole
140: Punch operation hole 200: Mold punch
210: punch body 211: pivot joint hole
212: fixing pin insertion hole 213: pressing rod insertion groove
214: operation slope 220: pressure rod
221: pin fixing hole 230: fixing pin
300: Cutter 310: Cutting blade

Claims (10)

A punch mold (100) for supporting the grain to be cut (10); And
A punch body 210 which is rotatably installed at an upper portion of the punch die 100 and which is vertically raised and rotated to press and bend the grain 10; And a cylindrical punch (220) provided at a portion of the punch (200) which is pressed against the to-be-cut grain (10) by a minimum area, the punch (200)
The punch mold 100 includes a die 110 for supporting a lower portion of the to-be-rolled grain 10 and a lower portion 110 for supporting the upper surface of the to-be-rolled grain 10 while being vertically lifted toward the die 110 side An operation mold 130 which is vertically lifted and elevated while supporting the stripper 120 at the upper portion of the stripper 120 and the mold punch 200 which is formed inside the punch mold 100, And a punch operation hole 140 provided in the stripper 120 to provide a space for vertically moving up and down while being pivoted toward the grain 10 to be cut. In the stripper 120, the mold punch 200 is lifted up and down, And a guiding inclined surface (123) for guiding the guiding inclined surface (123) to be pivoted to the side of the press mold.
delete The method according to claim 1,
The punch body 210 has a slope corresponding to the guide slope 123 formed in the stripper 120 on the other side of the punch body 210 where the pressure bar 220 is installed. Wherein the punch body (210) is pivoted to the side of the grain (10) when the punch body (210) is lowered and brought into contact with the punch body mold.
The method according to claim 1,
A fixing pin 230 is fixed to one side of the pressing rod 220 so that the pressing rod 220 is not rotated so that one end of the fixing pin 230 is engaged with the pressing rod 220 And a pin fixing hole (221) capable of supporting the rotary shaft so as not to rotate.
The method according to claim 1,
The one side of the mold punch 200 is moved up and down with the mold punch 200 so that the other side of the to-be-infused grains 10 before the mold punch 200 is brought into contact with the to- And a cutter (300) for cutting the cut portion of the cutter (300).
A punch mold (100) for supporting the grain to be cut (10); And
A punch body 210 which is rotatably installed in the punch metal mold 100 so as to be rotatable up and down and which is pivoted to press and bend the grain 10; And a cylindrical punch (220) provided at a portion of the punch (200) which is pressed against the to-be-cut grain (10) by a minimum area, the punch (200)
The punch mold 100 includes a die 110 for supporting the upper part of the grain 10, a stripper 120 for supporting the lower surface of the grain 10 at the lower part of the die 110, An operation mold 130 which is vertically lifted and lowered from the bottom of the stripper 120 to the side of the stripper 120 and the inside of the punch mold 100. The mold punch 200 is rotated toward the grain 10, The stripper 120 includes an induction slope 123 for guiding the mold punch 200 to be pivoted toward the grain 10 while being vertically lifted and lowered by the punch operation hole 140, Wherein the bending can be performed while minimizing the contact with the grain to be cut.
delete The method of claim 6,
The punch body 210 has an inclined surface corresponding to the induction slope 123 formed in the stripper 120 on the other side where the pressure bar 220 is installed on the punch body 210, Is formed with an operation inclined surface (214) which is operated to pivot the punch body (210) toward the grain (10) when the punch body mold.
The method of claim 6,
One end of the fixing pin 230 is fitted to one side of the pressing rod 220 and a fixing pin 230 which is fixedly supported so that the pressing rod 220 is not rotated is inserted and coupled. And a pin fixing hole (221) capable of supporting the rotary shaft so as not to rotate.
The method of claim 6,
The one side of the mold punch 200 is moved up and down with the mold punch 200 so that the other side of the to-be-infused grains 10 before the mold punch 200 is brought into contact with the to- And a cutter (300) for cutting the cut portion of the cutter (300).

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