KR20210004429A - Flying mold press device that can reduce manufacturing cost - Google Patents

Abstract

The present invention relates to a cam-type press device, which simultaneously performs flange molding of a panel product having an undercut shape, such as a horizontal flange and an upper flange at an end in one cam-type press. According to the flying cam-type press device with reduced manufacturing costs, a cam unit includes: a lower cam driver mounted upwardly on one side of a lower die in response to an actuating driver, and forming cam guide surfaces of different angles connected to each other on an upper end surface; a flying cam slider mounted on a cam inclined surface of the actuating driver to operate a cam through a guide means, and having a guide roller being in rolling contact with the cam guide surfaces of the lower camp driver to operate the cam in two inclination directions along the cam guide surfaces of the lower cam driver; a flying cam steel mounted at one end of the flying cam slider corresponding to a lower mold steel; and a stopper mounted on an outer side end of the actuating driver to support an outer side end of the flying cam slider.

Description

Flying mold press device that can reduce manufacturing cost}

The present invention relates to a flying cam type press device capable of reducing manufacturing cost, and more specifically, a fabrication in which flange molding of a panel product having an undercut shape of a horizontal and an up flange at an end can be achieved simultaneously in one cam press. It relates to a flying cam type press device capable of reducing costs.

In general, manufacturing of a vehicle panel is performed by a multi-stage press molding process, and various types of press devices are required to achieve this process.

In particular, as shown in Fig. 1, when the end (F) of the panel product (3) is a double-flanged undercut shape such as a horizontal flange (F1) and an up flange (F2), the molding direction is First, the horizontal flange (F1) is formed using a cam-type press to which the horizontal cam is applied, and then the up flange (F2) in the inclined direction is formed by using a cam-type press to which the horizontal reverse slope combination cam is applied. do.

That is, the cam-type press to which the horizontal cam is applied to form the horizontal flange (F1), as shown in FIG. 2, the upper mold (1) that moves upward and downward from the upper, and the lower part of the upper mold (1). In the lower mold (5) that supports the material panel (3) is mounted on one side of the lower mold (7) of the lower mold (5), a lower mold steel (9) is configured on one side of the end of the lower mold (5).

Between the upper mold (1) and the lower mold (5), an upper mold pad 13 is mounted on a lower side of the upper mold 1 through a cushion spring 11, and at the lower part of the upper mold 1, the upper mold pad 13 ) Is mounted on the side of the operation driver 15 having a cam slope at the lower end downward.

And on the lower die (7) is provided with a horizontal cam (17) for performing a cam operation by the lowering operation of the operating driver (15), the horizontal cam (17) in response to the lower mold steel (9) (19) is mounted, and according to the cam operation of the horizontal cam 17, the forming steel 19 together with the lower type steel 9 forms a horizontal flange F1 on one side of the material panel 3 in the horizontal direction. It has a cam configuration to process.

In addition, between the lower die (7) and the horizontal cam (17), after the horizontal movement by the cam operation of the horizontal cam (17), a general return means (21) to be restored to its original position by the elastic force of the spring is internally It is configured, but the detailed configuration is omitted here.

The horizontal flange (F1) is formed through a cam-type press to which the horizontal cam (17) is applied. In order to form the up flange (F2) part in an oblique direction, the horizontal reverse slope combination cam is applied. The cam-type press device is supplied to a cam-type press device to form an up-flange portion, and the cam-type press device to which the horizontal inclined combination cam is applied includes an upper mold 51 that moves up and down from the top, and the upper mold A lower mold 55 supporting the panel 3 at its lower part 51 is mounted on one side of the lower mold 57 of the lower mold, and a lower mold steel 59 is formed at one end of the lower mold 55.

Between the upper mold 51 and the lower mold 55, an upper mold pad 63 is mounted on a lower side of the upper mold 51 through a cushion spring 61, and at the lower part of the upper mold 61, the upper mold pad 63 ) Is mounted on the side of the operation driver 65 having a cam inclined surface downwardly.

And on the lower die (57) is provided with a horizontal combination cam (67) that achieves the cam operation by the lowering operation of the operation driver (65), the lower die (57) on the other side of the horizontal combination cam (67) A reverse tilt cam 69 is provided to form an inclined surface on one side thereof and slide thereon, and the reverse tilt cam 69 slides by the horizontal combination cam 67 to proceed in the tilt direction.

In addition, a forming steel 71 is mounted at the front end of the reverse inclined cam 69 in response to the lower-type steel 59, and according to the cam operation of the horizontal combination cam 67 and the reverse inclined cam 69, the forming steel 71 has a cam configuration in which an up flange F2 is formed in an oblique direction on one side of the horizontal flange F1 of the material panel 3 together with the lower type steel 59.

In addition, between the lower die 57 and the horizontal combination cam 67, after the horizontal movement by the cam operation of the horizontal combination cam 67, a general return means 73 to be restored to its original position by the elastic force of the spring. It is configured inside, but the specific configuration is omitted here.

However, as shown in FIG. 1, in order to form a flange of a panel product having an undercut shape such as a horizontal and an up flange at the end, the forming directions of the horizontal flange (F1) and the up flange (F2) are different. It is not possible with a cam-type press for molding, and it has to go through two processes through each cam-type press device having a horizontal cam and a horizontal inclined combination cam, which increases the product cost, such as having to prepare a mold separately. Contains.

Accordingly, the present invention has been created to solve the above problems, and an object of the present invention is to simultaneously achieve flange forming of panel products having an undercut shape such as a horizontal flange and an up flange at the end in one cam type press. It is to provide a flying cam type press device capable of reducing manufacturing cost.

As described above, according to the flying cam type press apparatus capable of reducing manufacturing cost according to the present invention, the flying cam slider driven by the cam by the operating driver is in contact with the lower cam driver having the lower cam guide surfaces for lowering and raising. , It is possible to reduce the two conventional processes by allowing the two-step flange molding at the end to be achieved in one cam-type press at the same time, thereby reducing the mold manufacturing cost and minimizing the product cost. have.

1 is a cross-sectional view of a panel product in which an under-cut flange is generally formed on one side of an end thereof.
2 is a configuration diagram of a cam-type press apparatus according to an embodiment of the prior art.
3 is a configuration diagram of a cam-type press apparatus according to another embodiment of the prior art.
4 is a side configuration diagram of a flying cam type press device capable of reducing manufacturing cost according to an embodiment of the present invention.
5 to 7 is a step-by-step operation state diagram of a flying cam type press device capable of reducing manufacturing cost according to an embodiment of the present invention.

A flying cam type press device capable of reducing manufacturing cost according to the present invention for achieving the above object includes: a top type; A lower die configured in the lower portion thereof; A lower mold supporting the material panel from the lower part of the upper mold, and having a lower mold steel on one side of the end and mounted on one side of the lower mold; An upper mold pad mounted on a lower side of the upper mold through a cushion spring; An operation driver that forms a cam inclined surface at the lower end and is mounted downwardly to the lower end of one side of the upper mold; In a cam-type press device comprising a cam unit configured to operate in response to the lower-type steel by performing a cam operation between the operating driver and the lower die, the cam unit upwards to one side on the lower die in response to the operating driver A lower cam driver which is mounted on an upper surface and forms cam guide surfaces of different angles that are connected to each other; It is mounted on the cam inclined surface of the actuating driver so as to be actuated by a cam, and on both sides of the lower side, a guide roller that rolls into contact with the cam guide surface of the lower cam driver is configured to form two types along the cam guide surface of the lower cam driver. A flying cam slider for driving a cam in an oblique direction; A flying cam steel mounted at one end of the flying cam slider, corresponding to the lower type steel; And a stopper mounted on the outer end of the operating driver and configured to support the outer end of the flying cam slider, and the cam guide surface of the lower cam driver is a guide roller for primary shaping of the flying cam steel A descending cam guide surface formed to guide the flying cam slider downward at a first inclination angle through; It characterized in that it consists of a cam guide surface for elevation formed to guide the flying cam slider upward to a second inclined angle through a guide roller for secondary shaping of the flying cam steel,

The guide means includes a guide block configured on a cam inclined surface of the operating driver; It is configured on a cam inclined surface of the flying cam slider, and comprises a guide protrusion that is slidably fitted to the guide block and guided.

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

4 is a side configuration diagram of a flying cam type press device capable of reducing manufacturing cost according to an embodiment of the present invention. In a flying cam type press device capable of reducing manufacturing cost according to an embodiment of the present invention, the end of the panel product is 1, It is applied to the case where the flange is formed in an undercut shape by double flange forming by the secondary flange forming, and is formed at the same time in one press device.The configuration is the upper mold 101 that moves up and down from the top and the lower die on the lower side. (107) is provided.

A lower mold 105 supporting the material panel 103 from the lower portion of the upper mold 101 is mounted on one side of the lower mold 107 in the lower mold, and a lower mold steel 109 is formed at one end of the lower mold 105 .

In addition, between the upper mold 101 and the lower mold 105, the upper mold pad 113 is mounted through a cushion spring 111 on one lower side of the upper mold 101, and at the lower portion of the upper mold 101, the upper mold pad On the side of 113, an operation driver 115 having a cam inclined surface 114 downward and at the lower end is mounted.

And between the operation driver 115 and the lower die 107, there is a cam unit that performs a cam operation by the lowering operation of the operation driver 115, the cam unit is front and rear corresponding to the lower type steel 109 Is configured to work.

In the configuration of the cam unit, a lower cam driver 117 is mounted upward on one side of the lower die 107 corresponding to the operation driver 115, and the upper surface of the lower cam driver 117 is interconnected. Cam guide surfaces 119 and 121 at different angles are formed.

In addition, a flying cam slider 125 is mounted on the cam inclined surface 114 of the operating driver 115 to enable cam operation through a guide means 123, the flying cam driver 125 on both sides of the lower cam By configuring a guide roller 127 in rolling contact with the descending and rising cam guide surfaces 119 and 121 of the driver 117, along the descending and rising cam guide surfaces 119 and 121 of the lower cam driver 117 Cam drives in two inclined directions.

Here, the guide means 123 is configured with a guide block 133 on the cam inclined surface 114 of the operating driver 115, and slides on the guide block 113 on the cam inclined surface of the flying cam slider 125 A guide protrusion 135 that is fitted and guided is mounted and made possible.

In addition, a flying cam steel 129 is mounted at one end of the flying cam slider 125 corresponding to the lower type steel 109.

In the above, the cam guide surfaces 119 and 121 of the lower cam driver 117 guide the flying cam slider 125 downward to the first inclination angle through the guide roller 127 for primary shaping of the flying cam steel 129 For ascending, which is formed to guide the flying cam slider 125 upward to a second inclination angle through a guide roller 127 for secondary shaping of the descending cam guide surface 119 and the flying cam steel 129 It is divided into a cam guide surface 121, and the connection portion P between the descending cam guide surface 119 and the rising cam guide surface 121 is formed in a round shape.

Here, the first inclination angle (??1) with respect to the reference horizontal line S of the descending cam guide surface 119 is the cam inclined surface 114 of the operation driver 115 has with respect to the reference horizontal line S. It is formed larger than the inclination angle (??), and the second inclination angle (??2) with respect to the reference horizontal line (S) of the rising cam guide surface 121 is the cam inclined surface 114 of the operation driver 115 It is formed smaller than the inclination angle (??) with respect to the reference horizontal line (S).

In addition, a stopper 131 is mounted on the outer end of the operating driver 115 to support the outer end of the flying cam slider 125.

Accordingly, a process for processing an undercut shape by flange molding in double of a panel product using a flying cam type press device capable of reducing manufacturing cost having the above configuration will be described with reference to FIGS. 5 to 7.

First, as shown in FIG. 4, when the panel to be molded is seated on the lower mold 105 and the upper mold 101 is moved downward, the upper mold pad 113 and the operating driver 115 are interlocked to move downward. However, the upper pad 113 is first regulated by pressing the panel 103 between the lower mold 105.

Subsequently, when the upper mold 101 moves downward, the flying cam slider 125 passes through the guide roller 127 to the lower cam guide surface of the lower cam driver 117 as shown in FIG. 5. It comes into contact with the top of (119).

If the upper mold 101 continues to descend in this state, as shown in FIG. 6, the flying cam slider 125 operates simultaneously with the operation driver 115 and the lower cam through the guide roller 127. It is tilted to the lower left side in the drawing along the lower cam guide surface 119 of the driver 117, at this time, the flying cam steel 129 together with the lower type steel 109, the end of the panel 103 Is subjected to the first bending molding in the direction of the first inclination angle.

Subsequently, when the upper mold 101 continues to descend, as shown in FIG. 7, the flying cam slider 125 operates with the cam operation with the operation driver 115, and the lower part through the guide roller 127. The cam driver 117 is obliquely moved to the upper left side in the drawing along the rising cam guide surface 121, and at this time, the flying cam steel 129 together with the lower type steel 109, the panel 103 The ends are formed by bending the second in the direction of the second inclination angle.

Here, in order to proceed with the second bending molding after the first bending molding by the cam operation of the flying cam slider 125, the guide roller 127 is a lower cam guide of the lower cam driver 117 The round-shaped connection part P of the surface 119 and the rising cam guide surface 121 is passed, and thus contact noise can be minimized.

In this way, after the flying cam type press device capable of reducing the manufacturing cost completes the molding operation, the upper mold 101 moves upward together with the operation driver 115, and accordingly, the flying cam slider 125 Is restored to its original position with respect to the lower die 107.

Claims (5)

Hieroglyphics; A lower die configured in the lower portion thereof; A lower mold supporting the material panel from the lower part of the upper mold, and having a lower mold steel on one side of the end and mounted on one side of the lower mold; An upper mold pad mounted on a lower side of the upper mold through a cushion spring; An operation driver that forms a cam inclined surface at the lower end and is mounted downwardly to the lower end of one side of the upper mold; In the cam type press apparatus comprising a cam unit configured to operate in response to the lower mold steel by performing a cam operation between the operation driver and the lower die,
The cam unit
A lower cam driver which is mounted upwardly on one side of the lower die in response to the operation driver, and forms cam guide surfaces of different angles connected to each other on an upper surface;
It is mounted on the cam inclined surface of the actuating driver so as to be actuated by a cam, and on both sides of the lower side, a guide roller that rolls into contact with the cam guide surface of the lower cam driver is configured to form two types along the cam guide surface of the lower cam driver. A flying cam slider for driving a cam in an oblique direction;
A flying cam steel mounted at one end of the flying cam slider, corresponding to the lower type steel;
A stopper mounted on an outer end of the operating driver and configured to support an outer end of the flying cam slider;
Flying cam type press device capable of reducing manufacturing cost, characterized in that consisting of. The method according to claim 1, wherein the cam guide surface of the lower cam driver
A descending cam guide surface formed to guide the flying cam slider downward at a first inclination angle through a guide roller for primary shaping of the flying cam steel;
A rising cam guide surface formed to guide the flying cam slider upward to a second inclined angle through a guide roller for secondary shaping of the flying cam steel;
Flying cam type press device capable of reducing manufacturing cost, characterized in that consisting of. The flying cam type press device of claim 2, wherein the connecting portion between the lowering cam guide surface and the raising cam guide surface has a round shape. The method according to claim 2, wherein the first inclination angle of the lowering cam guide surface with respect to the reference horizontal line is formed larger than the inclination angle of the cam inclined surface of the operation driver with respect to the reference horizontal line,
A flying cam type press device capable of reducing manufacturing cost, characterized in that the second inclination angle of the rising cam guide surface with respect to the reference horizontal line is formed to be smaller than the inclination angle of the cam inclined surface of the operation driver with respect to the reference horizontal line. The method according to claim 1, wherein the guide means
A guide block configured on a cam slope of the operating driver;
A guide protrusion configured on a cam inclined surface of the flying cam slider and slidably fitted to the guide block to be guided;
Flying cam type press device capable of reducing manufacturing cost, characterized in that consisting of.

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