KR102031026B1 - Multi-cam press apparatus - Google Patents

Abstract

The present invention relates to a multi-cam type press apparatus, which can shorten processing time and improve product quality because a flange inwardly bent at both side portions of a material panel can be molded and blown out by a single process. To this end, the present invention is characterized by comprising: a lower mold including a lower holder, one side die steel and the other side die steel formed at one side and the other side of an upper portion of the lower holder respectively and having a stepped surface at an inner side part, one side cam punch and the other side cam punch which are movably installed in a diagonal direction while being individually and elastically supported by a spring between the one side die steel and the other side die steel, and have a lower surface of an outer part pressurizing the stepped surface of the one side die steel and the other side die steel when being downwardly pressurized, and a cam drive having one side of a lower surface coming in surface contact with an upper surface of the one side cam punch, and the other side of the lower surface coming in surface contact with an upper surface of the other side cam punch; and an upper mold which accommodates the one side cam punch and the other side cam punch in a state in which at least both end portions are downwardly bent in order to pressurize the cam drive along with a material panel mounted on the cam drive.

Description

Multi-cam press apparatus

The present invention relates to a multi-cam type press apparatus, which is capable of shortening processing time and improving quality, such as forming and taking out flanges which are bent inward to both side portions of a material panel by a single process. It is about.

In general, a press die is an apparatus for molding a metal sheet into a product of a desired form by pressing a metal sheet with a large force such as hydraulic pressure using a die of a predetermined shape.

This press processing method can be mass produced relatively easily from small and simple parts of various products to large and complex parts by sequentially or simultaneously performing drawing, punching, bending and cutting. It is widely used throughout the industry due to its advantages.

For example, in the vehicle, parts for bodies such as hoods, fenders, doors, bonnets, and trunk lids are all manufactured by press working.

On the other hand, the press acts only in the vertical direction, for example, to form a hole, a bead, or a flange on the side of the workpiece. It needs to evolve to work.

To this end, it is common for the press die to be provided with a so-called cam mechanism for simultaneously processing the workpiece in a direction other than vertical by switching the direction of action of the press pressure, if necessary, due to the structure of the workpiece.

Patent document 0001 and the like have been proposed in connection with a cam type press apparatus.

Patent document 0001 is a cam type press device, wherein the cam unit is mounted upwardly on one side on the lower die in correspondence with the actuating driver, and has a lower cam driver for forming a cam guide surface having different angles connected to each other at an upper surface thereof. ; The cam is operatively mounted to the cam inclined surface of the operating driver through guide means, and on both lower sides thereof, a guide roller is formed in rolling contact with the cam guide surface of the lower cam driver. A flying cam slider for cam driving in an oblique direction; A flying cam steel mounted at one end of the flying cam slider corresponding to the lower die steel; A flying cam type press device comprising a stopper mounted to an outer end of the actuating driver and configured to support an outer end of the flying cam slider.

The flying cam type press apparatus has the advantage of simultaneously forming a flange of a panel product having an undercut shape of horizontal and up flanges at one end in one cam press. It is located inside the flange of the material panel has a problem that it is difficult to take out the material panel is completed flange forming from the lower mold.

Domestic Patent Registration No. 10-0494931

The present invention was created in order to solve the above-mentioned problems, and can reduce the processing time and improve the quality, such as forming and taking out the flanges which are bent inwards on both sides of the material panel by one step. It is an object to provide a cam type press apparatus.

The present invention for achieving the above object,

Resilient support between the lower die holder, one side steel and the other side steel formed on the upper one side and the other side of the lower mold holder, and the stepped surface formed on the inner side, and between the one side steel and the other side steel, respectively. One side cam punch and the other side cam punch, which presses the stepped surfaces of the one side die steel and the other side steel when the bottom surface of the outer portion is pressurized downward and installed so as to be movable in an oblique direction, and the one side of the bottom surface is the one side cam. A lower mold including a cam drive which is in surface contact with the upper surface of the punch and whose other side is in surface contact with the upper surface of the other cam punch;

And an upper mold configured to receive the one cam punch and the other cam punch with at least both ends bent downward and press the cam drive together with the material panel seated on the cam drive. Provide a press device.

Here, the lower mold preferably further includes a cam punch guide pin for guiding movement of the one side cam punch and the other side cam punch in the diagonal direction.

In addition, the lower mold preferably further comprises a cam drive guide pin for guiding the shangdong of the cam drive moving in the vertical direction of the lower mold by the one side cam punch and the other side cam punch moving in an oblique direction. .

In addition, the outer side of the one side cam punch and the outer side of the other cam punch protrudes in the outward direction of the one side cam punch and the outer side of the other cam punch, respectively, pressurizing the stepped surface of the one side steel and the other die steel It is preferable that a member is formed.

Furthermore, the lower mold may further include a guide block provided between the one cam punch and the other cam punch to guide the movement of the one cam punch and the other cam punch in an oblique direction.

In addition, a wear plate may be provided between the one cam punch and the guide block and between the other cam punch and the guide block to smoothly move the one cam punch and the other cam punch in an oblique direction.

In addition, the lower mold is formed on the upper front side of the lower mold holder and the front side die is formed with a stepped surface on the inner side; A front cam punch that is installed to be movable in an oblique direction in a state of being elastically supported by a spring in an inner direction of the front die steel and presses a step surface of the front die steel when the bottom surface of the outer die is pressed downward; And the upper mold receives the front cam punch on the cam drive while the front side of the bottom surface of the cam drive is in surface contact with the upper surface of the front cam punch, and at least the front side of the upper mold is bent downward. It is preferable to pressurize the cam drive together with the material panel seated on it.

The lower mold may further include a cam punch guide pin for guiding a movement of the front cam punch in an oblique direction.

Here, it is preferable that a pressing member protruding outwardly of the front cam punch to press the stepped surface of the front die steel is formed at an outer side of the front cam punch.

The lower mold may further include a guide block provided in the lower mold such that the front cam punch is positioned in the front direction to guide the movement of the front cam punch in an oblique direction.

In addition, a wear plate may be provided between the front cam punch and the guide block to smoothly move the front cam punch in an oblique direction.

In the multi cam type press apparatus of the present invention, the cam drive is lowered by the upper mold and at the same time, one side of the cam punch and the other side of the cam punch move downward in the oblique direction to form a flange which is inwardly bent on both sides of the material panel, and the upper mold With the rise of, the panel products are separated by rising and moving in the inner diagonal direction of one cam punch and the other cam punch, which can reduce the processing time and improve the quality. have.

1 is an exploded perspective view schematically showing a multi cam type press apparatus according to an embodiment of the present invention;
2 is an exploded perspective view schematically illustrating a cam drive separated from one cam punch and the other cam punch of the lower mold;
3 is a perspective view of the combination of FIG.
4 is a cross-sectional view taken along line AA of FIG. 1,
5 to 9 are cross-sectional views sequentially showing the pressing molding process of one side and the other side of the material panel,
10 is a cross-sectional view taken along the line BB of FIG. 1,
11 to 14 are cross-sectional views sequentially showing a pressing process of the front side of the material panel,
15 is a perspective view schematically showing a material panel in which press molding is completed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications can be made by those skilled in the art without departing from the technical gist of the present invention.

1 is an exploded perspective view schematically showing a multi cam type press apparatus according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view schematically showing a cam drive separated from one cam punch and the other cam punch of a lower mold, and FIG. 3 is a combined perspective view of FIG. 2.

Multi cam type press apparatus according to an embodiment of the present invention, as shown in Figure 1 to Figure 3, comprises a lower mold 10 and the upper mold 20.

4 is a cross-sectional view taken along line AA of FIG. 1.

The lower mold 10 is large, as shown in Figures 1, 2 and 4, the lower mold holder 111, one die steel 112, the other die steel 113, one side cam punch 114, the other side cam And a punch 115 and a cam drive 116.

An accommodation groove 111a may be formed in an upper middle portion of the lower mold holder 111.

The upper portion of the receiving groove 111a may be opened.

As shown in FIG. 4, the one side die steel 112 may be fixed in various ways such as bolt fixing to the upper one side of the lower mold holder 111.

A stepped surface 112a may be formed on an inner portion of the one side die steel 112 so that the cross-sectional shape may be formed in a '┗' shape or the like.

The other side die steel 113 may be fixed in various ways such as bolt fixing to the other side of the upper upper side of the lower holder (111).

On the inner side of the other die steel 113, a stepped surface 113a may be formed in which a cross-sectional shape may be formed in a '┛' shape or the like.

The one cam punch 114 and the other cam punch 115 such that the one side cam punch 114 and the other side cam punch 115 are located between the one side steel 112 and the other side steel 113. The lower mold holder 111 may be installed on one side and the other side of the receiving groove (111a), respectively.

The one side cam punch 114 is an oblique (/) direction toward the inner upper direction of the accommodation groove 111a at one side of the accommodation groove 111a of the lower mold holder 111 while being elastically supported by the spring 117. It can be installed to be movable.

The other cam punch 115 is inclined in the upper direction toward the inner side of the receiving groove 111a at the other side of the receiving groove 111a of the lower die hole 111 in a state of being elastically supported by the sping 117. It can be installed to be movable in the direction.

One side of the bottom surface of the cam drive 116 is in surface contact with the upper surface of the one cam punch 114, the other side of the bottom surface of the cam drive 116 is in surface contact with the upper surface of the other cam punch 115 The cam drive 116 is provided at a predetermined height in the upper direction of the middle portion of the receiving groove 111a of the lower mold holder 111 so as to move in an oblique direction and the other cam punch 114 and the other cam punch. By the 115 may be moved in the vertical direction of the lower mold holder 111a of the lower mold (10).

The lower mold 10 has a cam punch guide pin 118 for guiding a movement of the one side cam punch 114 in an oblique (/) direction and a movement of the other cam punch 115 in an oblique direction. It may be configured to include more.

For example, as shown in FIG. 4, two guide grooves 111b communicating with the accommodation groove 111a are spaced at a predetermined interval from one bottom surface and the other bottom surface of the accommodation groove 111a of the lower mold holder 111. Each can be formed.

Two guide grooves (111b) may be arranged in a plurality at regular intervals in the front and rear direction of the receiving groove (111a) on one bottom surface and the other bottom surface of the receiving groove (111a).

One of the two guide grooves 111b includes one of the guide grooves 111b, wherein the cam punch guide pins 118 eccentrically penetrate the one cam punch 114 and the other cam punch 115, respectively. Can be formed.

One of the two guide grooves 111b has a spring 117 elastically supporting a lower surface of the one side cam punch 114 and a lower surface of the other side cam punch 115 in the other guide groove 111b. It may be provided.

5 to 9 are cross-sectional views sequentially showing the pressing molding process of one side and the other side of the material panel.

Next, the upper mold 20 may be provided to be elevated by the lifting member such as a cylinder in the upper direction of the lower mold (10).

At least both ends of the upper mold 20, that is, the lower portion of the upper mold 20 so that the one side cam punch 114 and the other side cam punch 115 may be accommodated in the lower inner side of the upper mold 20. One end and the other end may be bent to the lower side of the upper mold (20).

As shown in FIG. 5, for example, a material panel 3 may be mounted on the cam drive 116, which may be formed of various types such as a hood of an agricultural machine such as a rice transplanter.

In this state, the upper mold 20 gradually descends to the lower mold 10 as shown in FIGS. 6 and 7, together with the material panel 3, the cam drive 116 and the one side cam punch 114. And the other cam punch 115 may be pressed down to the lower mold 10.

At this time, the lower portion of the flange 31 bent in the lower direction of the material panel 3 on one side and the other side of the material panel 3, respectively, as shown in Figure 6 and 7 the one side die steel 112 The receiving groove 111a of the lower mold holder 111 while descending in the direction of the stepped surface 112a and the stepped surface 113a of the other die steel 113 to be in contact with the bottom surfaces of the stepped surfaces 112a and 113a. It can be molded horizontally in the direction.

In particular, in order to allow the lower portion of the flange 31 of the material panel 3 to be easily horizontally bent in the direction of the receiving groove 111a of the lower mold holder 111, the one side of the cam punch 114 The pressurizing member 120 protruding in an outer direction of the one cam punch 114 and an outer direction of the other cam punch 115 may be formed at an upper portion of the outer portion and an outer portion of the other cam punch 115.

The pressing member 120 of the one side cam punch 114 and the pressing member 120 of the other cam punch 115 have a stepped surface 112a of one side die steel 112 and a stage of the other side die steel 113. The stepped surface 112a and the other die steel 113 of the one side steel 112 in a state of being in contact with the lower inner surface of the flange 31 of the material panel 3 which is gradually lowered in the direction of the vehicle surface 113 a and horizontally bent. ), The stepped surface 113a can be pressed.

After the horizontal bending of the lower portion of the flange 31 of the material panel 3 is completed, the upper mold 20 may gradually rise in the upper direction of the lower mold 10.

At this time, the one side cam punch 114 and the other side of the cam punch 115 is gradually raised in an oblique direction by the elastic force of the spring 117 is expanded and the pressing member 120 and the one side of the cam punch 114 As shown in FIG. 8, the pressing member 120 of the other cam punch 115 may be detached from the lower portion of the flange 31 of the material panel 3 so that the operator may see the lower mold ( From the lower mold holder 111 of 10), the material panel 3 on which the flange 31 is formed can be more easily separated.

Next, in order to allow the one side cam punch 114 and the other side cam punch 115 to be moved upward and downward in an oblique direction more easily, the lower mold 10 has the one side cam punch 114 and the other side. The cam punch 115 may be configured to further include a guide block 121 for guiding the lifting movement in the diagonal direction.

The guide block 121 may be fixed in various ways such as bolt fixing in a state seated in the middle of the bottom surface of the receiving groove 111a of the lower mold holder 111.

Inclined surfaces 121a may be formed at one side and the other side of the guide block 121, respectively.

The inclined surface 121a may be inclined in an oblique direction toward the upper center portion of the lower mold holder 111 from the lower side of the inclined surface 121a toward the upper direction.

A wear plate 122 may be further provided to allow the one side cam punch 114 and the other side cam punch 115 to be moved up and down more smoothly in an oblique direction.

The wear plate 122 and the one side of the guide block 121 to be located between the one side cam punch 114 and the guide block 121 and between the other side cam punch 115 and the guide block 121. The other side may be fixed in a variety of ways, such as bolts respectively.

Alternatively, the wear plate 122 may be fixed to the inner side of the one side cam punch 114 facing the one side of the guide block 121 and the inner side of the other cam punch 115 in various ways such as bolt fixing. have.

10 is a cross-sectional view taken along line BB of FIG. 1.

Next, the cam drive 116 that moves in the vertical direction of the lower mold holder 111 by moving upward and downward in an oblique direction of the one side cam punch 114 and the other side cam punch 115 is more easily moved up and down. Cam drive guide pin 119 to be moved may be further provided.

The cam drive guide pins 119 are vertically formed at the front side and the rear side of the bottom of the bottom surface of the receiving groove 111a of the lower holder 111, respectively, as shown in FIG. 10 and the front side of the guide block 121. The front side of the cam drive 116 and the rear side of the guide block 121 may be sequentially vertically penetrated.

11 to 14 are cross-sectional views sequentially showing the pressing process of the front side of the material panel.

Next, the lower portion of the flange 31 bent in the lower direction of the raw material panel 3 on the front side of the raw material panel 3 may also be horizontally bent in the direction of the receiving groove 111a of the lower mold holder 111. In order to be able to do so, as shown in FIGS. 1, 2, and 11 to 14, the lower mold 10 may further include a front die steel 123 and a front cam punch 124.

The front die steel 123 may be fixed in a variety of ways, such as bolt fixing on the upper front side of the lower mold holder (111).

A stepped surface 123a may be formed on an inner portion of the front side die steel 123 in which a cross-sectional shape may be formed in a '┗' shape or the like.

The front cam punch 124 is the lower die holder in the inward direction of the front die steel 123 such that the front cam punch 124 is located between the front die steel 123 and the front side of the guide block 121. It may be installed on the front side of the receiving groove (111a) of the (111).

The front cam punch 124 is also in an oblique (/) direction from the front side of the accommodation groove 111 a of the lower mold holder 111 to the inner upper direction of the accommodation groove 111 a while being elastically supported by the spring 117. It can be installed to move up and down.

The front side of the bottom surface of the cam drive 116 may be in surface contact with the top surface of the front cam punch 124, the one side cam punch 114, the other side cam punch 115 and the elevating movement in an oblique direction The cam drive 116 may be more easily moved in the vertical direction of the lower mold holder 111a of the lower mold 10 by the front cam punch 124.

An inclined surface 121a may be formed on the front side of the guide block 121 in order to guide the lifting movement of the front cam punch 124 in the diagonal direction.

The guide block so that the wear plate 122 is positioned between the front cam punch 124 and the guide block 121 so that the front cam punch 124 can be moved up and down in a diagonal direction more smoothly. 121) can be fixed to the front side in a variety of ways, such as bolt fixing.

Alternatively, the wear plate 122 may be fixed to the inner side of the front cam punch 124 facing the front side of the guide block 121 in various ways such as bolt fixing.

Two guide grooves 111b communicating with the accommodation grooves 111a may be formed at predetermined intervals on the front bottom surface of the accommodation grooves 111a of the lower mold holder 111.

A cam for guiding the lifting movement of the front cam punch 124 in the diagonal direction by eccentrically passing through the front cam punch 124 in one of the two guide grooves 111b. The punch guide pin 118 may be formed.

The other guide groove 111b of the two guide grooves 111b may be provided with a spring 117 elastically supporting the lower surface of the front cam punch 124.

At least the lower front side of the upper mold 20 may be bent to the lower side of the upper mold 20 so that the front cam punch 124 may be accommodated in the lower inside of the upper mold 20.

As shown in FIG. 11, the upper mold 20 gradually moves toward the lower mold 10 as shown in FIGS. 12 and 13 while the material panel 3 is seated on the upper portion of the cam drive 116. While descending, the cam drive 116, the one side cam punch 114, the other side cam punch 115, and the front side cam punch 124 are pressed down together with the material panel 3 to the lower mold 10. can do.

At this time, the lower portion of the flange 31 bent in the lower direction of the raw material panel 3 on the front side of the raw material panel 3, as shown in Figure 12 the step surface 123a of the front die steel 123 It can be horizontally bent in the direction of the receiving groove 111a of the lower mold holder 111 while descending in the direction and in contact with the bottom surface of the step surface (123a).

In particular, in order to allow the lower portion of the flange 31 on the front side of the material panel 3 to be easily horizontally bent in the direction of the receiving groove 111a of the lower mold holder 111, the front cam punch 124. The pressing member 120 protruding in the outward direction of the front cam punch 124 may be formed on the upper portion of the outer portion.

The pressing member 120 of the front cam punch 124 is gradually lowered toward the step surface 123a of the front die steel 123 to be bent horizontally to the lower portion of the flange 31 of the front side of the material panel 3. The stepped surface 123a of the front die steel 123 may be pressed in a state in contact with the inner surface.

After the horizontal bending of the lower portion of the flange 31 on the front side of the material panel 3 is completed, the upper mold 20 may gradually rise in the upper direction of the lower mold 10.

At this time, as the front cam punch 124 is gradually raised in an oblique direction by the elastic force of the spring 117 is expanded, the pressing member 120 of the front cam punch 124 as shown in Figure 13 The material panel which can be separated from the lower portion of the flange 31 on the front side of (3) so that the worker has completed forming the flange 31 from the lower mold holder 111 of the lower mold 10 as shown in FIG. 3) can be separated more easily.

15 is a perspective view schematically showing a material panel in which press molding is completed.

According to the present invention configured as described above, the front cam punch 124 along with the one side cam punch 114 and the other side cam punch 115 of the lower mold 10 moves in an oblique direction of the material panel 3. Since it can be easily separated from the molded flange 31, there is an advantage that can be more easily separated from the lower mold 10, the material panel 3, the flange molding shown in Figure 15 is completed.

10; Bottom mold, 20; Upper mold.

Claims (11)

Elastic support between the lower die holder, one side steel and the other side steel formed on the upper one side and the upper other side of the lower mold holder and the stepped surface formed on the inner side, and the spring between the one side steel and the other side steel, respectively. One side cam punch and the other side cam punch, which presses the stepped surfaces of the one side die steel and the other side steel when the bottom surface of the outer portion is pressurized downward and installed so as to be movable in an oblique direction, and one side of the bottom surface is the one side cam A lower mold including a cam drive which is in surface contact with the upper surface of the punch and whose other side is in surface contact with the upper surface of the other cam punch;
And an upper mold configured to receive the one cam punch and the other cam punch with at least both ends bent downward and press the cam drive together with the material panel seated on the cam drive. Press device.
The method of claim 1,
The lower mold further comprises a cam punch guide pin for guiding movement of the one side cam punch and the other side of the cam punch in an oblique direction, respectively.
The method of claim 1,
The lower mold further comprises a cam drive guide pin for guiding the shanghai movement of the cam drive moving in the vertical direction of the lower mold by the one cam punch and the other cam punch moving in an oblique direction. Cam type press device.
The method of claim 1,
Pressing members for protruding the outer side of the one side cam punch and the outer side of the other cam punch in the outer direction of the one side cam punch and the outer side of the other side cam punch to press the step surface of the one side steel and the other side steel Multi cam type press apparatus, characterized in that formed.
The method of claim 1,
The lower mold further includes a guide block provided between the one cam punch and the other cam punch to guide the movement of the one cam punch and the other cam punch in an oblique direction.
The method of claim 5,
A multi-cam type is provided between the one cam punch and the guide block and between the other cam punch and the guide block to smoothly move the one cam punch and the other cam punch in an oblique direction. Press device.
The method of claim 1,
The lower mold may include a front die steel formed at an upper front side of the lower mold holder and a stepped surface formed at an inner side thereof;
A front cam punch that is installed to be movable in an oblique direction in a state of being elastically supported by a spring in an inner direction of the front die steel and presses a step surface of the front die steel when the bottom surface of the outer die is pressed downward; and,
The front side of the bottom surface of the cam drive is in surface contact with the top surface of the front cam punch,
And the upper mold receives the front cam punch and presses the cam drive together with the material panel seated on the cam drive while at least the front side of the upper mold is bent downward.
The method of claim 7, wherein
The lower mold further comprises a cam punch guide pin for guiding movement of the front cam punch in an oblique direction.
The method of claim 7, wherein
And a pressing member protruding outwardly of the front cam punch to press the stepped surface of the front die steel to form an outer portion of the front cam punch.
The method of claim 7, wherein
The lower mold further comprises a guide block provided in the lower mold such that the front cam punch is located in the front direction to guide the movement of the front cam punch in an oblique direction.
The method of claim 10,
And a wear plate between the front cam punch and the guide block for smoothly moving the front cam punch in an oblique direction.

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