KR101483108B1 - Pressing device - Google Patents

Abstract

The present invention relates to a pressure device for a press and, more specifically, to a device used to form a product having a desired shape by pressurizing a metal plate or the like by a large force, such as hydraulic. According to an embodiment of the present invention, a pressure device for a press includes: a housing configured to form a body by having side walls; an upper pressurizing part mounted in the housing to be horizontally movable, and having a first inclined surface on a lower surface; a pressure cylinder disposed on one end of the housing, and horizontally disposed in a direction of one end of the upper pressurizing part to horizontally move the upper pressurizing part; a movement adjusting member movably mounted on the other end of the housing, and disposed in a direction of the other end of the upper pressurizing part; and a lower pressurizing part mounted in the housing to be vertically movable, and having a second inclined surface formed on an upper part, wherein the second inclined surface is in surface contact with the first inclined surface. When the upper pressurizing part horizontally moves, the lower pressurizing part is vertically lifted up by surface contact between the first and second inclined surfaces and, when the upper pressurizing part moves in a direction of the other end thereof, one end of the movement adjusting member contacts the other end of the upper pressurizing part to limit a horizontal moving distance of the upper pressurizing part.

Description

[0001] PRESSING DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressing device for pressing, and more particularly, to a device used for molding a desired shape of a product by pressing a large force such as oil pressure on a metal plate.

Generally, a press method using a press apparatus is short in production time and is easy to mass-produce, and by performing the processing such as punching, bending and cutting sequentially or simultaneously, it is possible to manufacture large and complex parts To the mass production of a relatively simple and widely used throughout the industry.

For example, in a vehicle, parts for a body such as a fender, a door, a bonnet, and a trunk lid are all manufactured by press working.

As shown in FIG. 1, the press apparatus includes a transfer unit 30 installed horizontally and extending in the longitudinal direction and having sliding slots 31 of a predetermined width, A fixing member 42 positioned above the transfer unit 30 and guided by the sliding slot 31 to reciprocate along the sliding slot 31 and fixedly supporting the workpiece on the upper surface thereof; Which is supported by the fixing member (42) so as to move up and down on the upper side of the fixing member (42) and descend by the fixing member (42) And a machining portion 14 having a lifting / lowering die 18 for pressing the wafer W.

Here, the machining portion 14 presses the workpiece in the press device through an up-and-down movement, and a pressurizing cylinder 16 (see FIG. 1) for elevating and lowering the machining portion 14 is provided on the machining portion 14 Are formed in the vertical direction.

 Therefore, when the pressurizing cylinder 16 is elevated and lowered, the height of the press apparatus is increased, so that the space in which the press apparatus can be installed is relatively limited.

Further, when the machining portion 14 descends on the fixing member 42, a position sensor for sensing the position of the workpiece and a vibration generated when the machining portion 14 is lowered and contacted and processed with the workpiece The cost of installing additional equipment such as a damping device for preventing the increase in cost has increased.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a press apparatus for press which can reduce the height of a press apparatus and prevent shaking caused during processing.

According to an aspect of the present invention, there is provided a pressing device for press comprising: a housing having a side wall formed therein; a housing having a first inclined surface formed on a lower surface of the housing, A pressing cylinder which is disposed at one end of the housing and horizontally disposed in the direction of one end of the upper pressing portion to horizontally move the upper pressing portion, a movable cylinder which is movably mounted on the other end of the housing, And a lower pressing part formed on the upper part of the housing and having a second sloped surface in surface contact with the first sloping surface, wherein when the upper pressing part is horizontally moved, The lower pressing portion is raised and lowered in the vertical direction by surface contact between the first inclined surface and the second inclined surface, The member is in contact with the other end of the upper pressing portion when the upper pressing portion moves in the other unidirectional direction, thereby limiting the horizontal moving distance of the upper pressing portion.

A guide rod vertically fixed to an inner wall of the housing, and a vertical guide portion formed on an outer wall of the lower pressing portion, the guide rod being slidably coupled to the guide rod.

A support member disposed at a lower portion of the housing, a support member rod horizontally fixed to the upper portion of the support plate, a support member slidably coupled to the support member rod and on which the workpiece is seated, And a transfer cylinder arranged to horizontally move the receiving member.

And a return member coupled to the housing at one end and coupled to the lower pressing portion to elastically move the lower pressing portion upward.

Wherein the return member includes a bracket formed on the lower pressing portion, a top portion fixed to an upper inner surface of the housing, a lower portion including a guide shaft passing through the bracket, a stopper fixed to a lower portion of the guide shaft, And an elastic member disposed between the stopper and elastically supporting the lower pressing portion formed with the bracket against the stopper.

At either side of the first inclined surface or both sides of the second inclined surface, an inclined surface guide portion for guiding movement of the upper pressing portion is formed in contact with the other side surface of the upper pressing portion during horizontal movement.

The movement adjusting member includes an adjusting screw that is threaded through the other end of the housing and has one end abutting the other end of the upper pressing portion and a fixing nut coupled to the adjusting screw to fix the movement of the adjusting screw .

According to the present invention, the pressing cylinder is horizontally installed from one end of the housing to reduce the height of the press apparatus, thereby making it possible to diversify the installation place of the press apparatus.

In addition, the other unidirectional movement of the upper pressing portion can be restricted according to the length of the movement adjusting member protruding from the other unidirectional inner side of the housing in one direction, whereby the lowering degree of the lower pressing portion can also be adjusted.

Therefore, it is possible to control the pressing degree of the lower pressing portion by adjusting the horizontal moving distance of the upper pressing portion according to the shape of the work.

The guide rod fixed to the housing and the guide shoe fixed to the lower pressing portion are slidably engaged with each other so that the guide rod and the guide shoe can prevent the lower pressing portion from shaking when the lower pressing portion vertically moves.

The supporting member is slid along the supporting member rod so that the workpiece placed on the supporting member can be disposed at a position where it coincides with the lower pressing portion.

The upper pressing portion moves in the other direction, and the lower pressing portion moves downward in the vertical direction, and then the upper pressing portion moves in the one-end direction, and the lower pressing portion is moved to the elastic force of the return member So that it can rise vertically.

When the elastic member is in contact with the bracket and the lower portion is in contact with the stopper to raise the lower pressing portion, the elastic member is supported on the stopper, so that the elastic return of the lower pressing portion is easy.

Wherein either one of both sides of the first inclined surface or both sides of the second inclined surface has a sloped surface guide portion so that when the first sloped surface that is in surface contact with the second inclined surface moves horizontally, any one of the first inclined surface and the second inclined surface As shown in Fig.

An adjusting screw and a fixing nut are formed to restrict the movement of the upper pressing portion in the other direction by the adjusting screw and the fixing nut is fixed so that the adjusting screw is not moved by the upper pressing portion.

1 is a perspective view showing a conventional pressing device.
2 is a perspective view of a pressing device for press according to an embodiment of the present invention.
3 is a perspective view illustrating a state in which a housing is removed from a pressing device for press according to an embodiment of the present invention.
4 is a bottom perspective view showing an upper pressing portion of a pressing device for press according to an embodiment of the present invention.
5 is a perspective view showing a lower pressing portion of a pressing device for press according to an embodiment of the present invention.
6 is a side cross-sectional view of a pressing device for press according to an embodiment of the present invention.
Fig. 7 is a front view of the press apparatus for press shown in Fig. 3; Fig.
8 is a side cross-sectional view showing a state in which a workpiece is seated on a receiving member of a press apparatus for press according to an embodiment of the present invention.
9 is a side sectional view showing a state in which a receiving member of a press apparatus for press according to an embodiment of the present invention is moved to the inside of the press apparatus.
10 is a side cross-sectional view showing a state in which the upper and lower pressing portions of the pressing device for press according to the embodiment of the present invention are operated.
11 is a front view showing a compressed state of the return member of the press apparatus for press according to an embodiment of the present invention.
12 is a side sectional view showing a state in which a receiving member of a pressing device for press according to an embodiment of the present invention is discharged.

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

FIG. 2 is a perspective view of a press apparatus for press according to an embodiment of the present invention, FIG. 3 is a perspective view showing a state in which a housing is removed from a press apparatus for press according to an embodiment of the present invention, and FIG. FIG. 5 is a perspective view showing a lower pressing portion of a pressing device for press according to an embodiment of the present invention. FIG. 5 is a bottom perspective view showing an upper pressing portion of the pressing device for pressing according to an example.

2 and 3, the press fitting for press according to an embodiment of the present invention includes a housing 100, an upper pressing portion 200, a pressing cylinder 300, a movement adjusting member 400, A return member 600, a support plate 700, a support member rod 800, a support member 900, and a transfer cylinder 1000. The press member 500, the return member 600, the support plate 700,

The housing 100 is disposed at an upper portion of the support plate 700 to protect various components accommodated in the housing 100 from external impacts. The housing 100 has a side wall and one end, the other end, The upper pressing portion 200 is mounted on the inner upper side of the upper pressing portion 100.

The pressurizing cylinder 300 is disposed at one end of the upper pressurizing part 200 so that the upper pressurizing part 200 is horizontally moved by the pressurizing cylinder 300. The upper pressurizing part 300 A first inclined surface 210 is formed.

As shown in FIG. 4, the first inclined surface 210 is formed on the lower surface of the upper pressing part 200, and is preferably inclined upward from the lower surface of the upper pressing part 200 toward the other end As shown in Fig.

That is, the thickness of one end of the upper pressure relief portion 200 is formed to be thicker than the thickness of the other end of the upper pressure relief portion 200.

The first inclined surface 210 is brought into surface contact with the lower pressing portion 500 so that when the upper pressing portion 200 moves horizontally by the operation of the pressing cylinder 300, And presses the lower pressing part 500 to move the lower pressing part 500 vertically.

The pressing cylinder 300 is disposed at one end of the housing 100 and horizontally mounted in the direction of one end of the upper pressing part 200 to move the upper pressing part 200 horizontally.

Therefore, unlike the conventional case where the pressurizing cylinder 300 is disposed at the upper portion and the press apparatus is relatively high, the pressurizing cylinder 300 of the present invention is mounted horizontally to one end of the housing 100, Can be reduced.

The pressing cylinder 300 restricts the other unidirectional movement of the upper pressing part 200 through the movement adjusting member 400 when the upper pressing part 200 moves the other pressing part 200 in the other direction, The lower pressing part 500 can be adjusted to coincide with the position of the work piece 1100 according to the moving distance of the work piece 1100. [

The movement regulating member 400 is mounted movably in a state protruding from the other end of the housing 100 in the inner direction of the housing 100 and is disposed at the other end of the upper pressing portion 200, And includes an adjusting screw 420 and a fixing nut 430, which restricts the movement of the upper pressing part 200 moving in the other direction by the operation of the member.

The adjusting screw 420 is threaded through the other end of the housing 100 and has one end thereof abutted against the other end of the upper pressing part 200. When the upper pressing part 200 moves in the other direction The adjusting screw 420 is fixed without being rotated at the other end of the housing 100 by fixing of the fixing nut 430.

The fixing nut 430 is screwed to the adjusting screw 420 to fix the movement of the adjusting screw 420 and is preferably disposed on the outer surface of the other end of the housing 100.

More specifically, when the upper pressing cylinder 300 moves in the other direction by the operation of the pressurizing cylinder 300, the fixing nut 430 is moved to the housing 100 by the adjustment of the fixing nut 430, The length of the adjusting screw 420 projecting inward of the upper pressing part 200 is adjusted to adjust the moving distance of the upper pressing part 200. [

The movement regulating member 400 moves the upper pressing part 200 in the horizontal direction according to the shape of the work piece 1100 when the upper pressing part 200 moves horizontally by the operation of the pressing cylinder 300. [ Various workpieces 1100 can be machined by adjusting the pressing degree of the lower pressing part 500 by adjusting the moving distance.

The upper pressing part 500 is vertically movably arranged inside the housing 100 and is vertically moved through the horizontal movement of the upper pressing part 200. The upper pressing part 200 The second inclined surface 510 is in contact with the first inclined surface 210 formed on the lower surface of the second inclined surface.

As shown in FIG. 5, the second inclined surface 510 is an inclined surface formed on the upper surface of the lower pressing part 500, and preferably corresponds to the first inclined surface 210 of the upper pressing part 200, An inclined surface is formed upwardly from one end to the other end in the upper surface of the lower pressing part 500.

That is, the thickness of one end of the lower pressing part 500 is formed to be thinner than the thickness of the other end of the lower pressing part 500, and is formed to correspond to the first inclined face 210 of the upper pressing part 200.

Here, the upper pressing part 200 is horizontally moved through the surface contact between the first inclined surface 210 and the second inclined surface 510 on the second inclined surface 510, and is separated from the lower pressing part 500 An inclined surface guide portion 511 is formed on both sides.

The inclined surface guide portion 511 is a guide protruding from both sides of the second inclined surface 510 so that the upper pressured portion 200 can be seated between the inclined surface guide portions 511 500 are formed at both sides of the upper portion protruding to a width larger than the width of the press portion 200. [

When the upper pressing part 200 moves horizontally along the lower pressing part 500 so that the first inclined surface 210 and the second inclined surface 510 are in surface contact with the inclined surface guide part 511, So that the upper pressing part 200 is not separated from the lower pressing part 500.

The sloping surface guide portion 511 is formed on both sides of the second sloping surface 510 so that the upper pressing portion 200 is seated between the sloping surface guide portions 511. However, 200 prevent the lower pressing part 500 from being separated from the upper pressing part 200 while the lower pressing part 500 is in surface contact and move in a sliding manner, The sloping surface guide may protrude from both sides of the first sloping surface 210 as long as the sloping surface guide can guide the surface of the upper sloping surface 210 from the upper pressing part 200 and move vertically along the vertical guide part 512 Do.

The vertical guide part 512 is fixed to the outer side wall of the lower pressing part 500 and the inner side wall of the housing 100 so that when the lower pressing part 500 moves vertically, And includes a guide rod 514 and a guide shoe 516.

The guide shoe 514 is vertically fixed to the inner wall of the housing 100. The guide shoe 516 is fixed to the outer wall of the lower pressing part 500, And is slidably coupled to the rod 514.

A guide rod 514 vertically fixed to the inner wall of the housing 100 and a guide shoe 516 fixed to the outer wall of the lower pressing part 500 are slidably coupled to each other, 514 and the guide shoe 516 are fixed to the housing 100 and the lower pressing part 500 so that the lower pressing part 500 moves vertically by the horizontal movement of the upper pressing part 200, Unlike the prior art in which the lower pressing part 500 is prevented from shaking and the damping device for detecting the shaking is additionally used, it is possible to prevent the lower pressing part 500 from swinging without the damping device, Thereby reducing the cost.

Although the vertical guide part 512 is illustrated as being formed only in one direction of the lower pressing part 500, when the lower pressing part 500 is vertically moved, the lower pressing part 500 The vertical guide part 512 may be formed on the both sides of the lower pressing part 500 or at least one or more vertical guide parts 512 if the swinging can be prevented.

When the lower pressing part 500 moves downward, the first inclined surface 210 of the upper pressing part 200 and the second inclined surface 510 of the lower pressing part 500 are in contact with each other, When the lower pressing part 500 completes the machining of the work piece 1100 and then returns to the upper direction, the return part 600 moves the upper part in the upward direction .

The return member 600 moves the lower pressing part 500 downward to process the work piece 1100 and then returns the lower pressing part 500 to the upper direction. The returning part 600 includes a bracket 610, A guide shaft 620, a stopper 630, and an elastic member 640.

The bracket 610 is formed in the lower pressing part 500 so as to have a width larger than the width of the upper pressing part 200 and the lower pressing part 500. The lower part of the bracket 610 is provided with a work 1100 The lower portion of the lower portion is formed at a lower portion of the pressing portion 500. The lower portion of the lower portion is formed to penetrate from one end to the other end of the pressing portion 500. The upper portion of the penetrating bracket 610 The guide shaft 620 is pierced.

The upper portion of the guide shaft 620 passes through the upper surface of the bracket 610 and is fixed to the inner surface of the upper portion of the housing 100. The upper portion of the guide shaft 620 is fixed to the lower portion of the upper portion 200, The stopper 630 is fixed to the lower portion by passing through the upper portion of the pressing portion 200 and the lower portion of the pressing portion 500 so as to pass through.

The stopper 630 is fixed to the lower portion of the guide shaft 620 to support the elasticity of the elastic member 640.

The elastic member 640 is preferably made of a compression spring and is inserted into the guide shaft 620 so that the upper portion of the elastic member 640 is in contact with the upper portion of the bracket 610 and the lower portion of the elastic member 640 is in contact with the stopper 630 .

The elastic member 640 compressed between the bracket 610 and the stopper 630 is inflated when the upper pressing part 200 is moved in the other direction so that the elastic member 640 is elastically deformed by the elastic force of the stopper 630, The lower pressing portion 500 moves upward in the direction opposite to the supporting plate 700 by pressing the upper inner surface of the bracket 610.

The support plate 700 is preferably formed of a rectangular plate, and is disposed at a lower portion of the housing 100, and the support member rod 800 is fixed at an upper portion thereof.

The support member rods 800 are formed as a pair and are fixed parallel to each other at a predetermined distance from the upper portion of the support plate 700 to move the support member 900.

The supporting member 900 is slidably coupled to the supporting member rod 800 and a workpiece 1100 is mounted on the upper portion of the supporting member 900. The supporting member 900 is horizontally .

The transfer cylinder 1000 is disposed at one end of the support member 900 to move the support member 900 horizontally along the support member rod 800.

A supporting member 900 which is horizontally movable in the lower portion of the pressing portion 500 and on which the workpiece 1100 is mounted and a supporting member rod 800 for guiding the movement of the supporting member 900, The transfer cylinder 1000 is horizontally moved to move the support member 900 along the support member rod 800 by the operation of the transfer cylinder 1000, The work 1100 that is seated on the supporting member 900 can be disposed at a position where the lower pressing portion 500 is in planar alignment with the pressing portion 500. [

When the press device is operated through a separate control unit, the operation of pressing the support member 900, placing the work piece 1100 on the support member 900, inserting the support member 900, By operating in the discharge order of the supporting member, it is possible to effectively prevent an accident caused by carelessness of the operator in advance.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the operation of the press apparatus for press according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 6 is a side sectional view of the press apparatus for press according to an embodiment of the present invention, Fig. 7 is a front view of the press apparatus for press shown in Fig. 3, Fig. 8 is a cross- Fig. 9 is a side sectional view showing a state in which the receiving member of the press apparatus for press according to the embodiment of the present invention is moved to the lower portion of the press apparatus, Fig. 10 Fig. 11 is a side sectional view showing a state in which the upper and lower pressing portions of the pressing device for press according to the embodiment of the present invention are operated. Fig. 11 is a cross- Fig. 12 is a side cross-sectional view showing a state in which a receiving member of a pressing device for press according to an embodiment of the present invention is discharged. Fig.

6, the upper pressurizing portion 200 is disposed in the direction of one end of the housing 100, and the lower pressurizing portion 500 is disposed in a direction as shown in FIG. 7 And is elastically supported in the upward direction by the elastic force of the return member 600 as well.

More specifically, the upper portion is fixed to the inner surface of the upper portion of the housing 100, and a stopper 630 is formed at the lower portion. The stopper 630 and the bracket 610 formed at the lower portion of the lower pressing portion 500 The upper portion of the elastic member 640 presses the inner surface of the upper portion of the bracket 610 and the lower portion of the elastic member 640 is supported by the stopper 630, The elastic member 640 is elastically supported by the stopper 630 and the guide shaft 620 fixed to the lower pressing part 500 in the upward direction.

Therefore, the lower pressing part 500 is disposed at the upper part by the elastic force of the return member 600. [

8, when the support member 900 is moved in the other direction by the operation of the transfer cylinder 1000, the support member 900 is discharged to the outside of the press apparatus, and the support member 900 The workpiece 1100 is mounted on the upper portion of the base plate 900.

9, after the work piece 1100 is mounted on the upper portion of the support member 900, the support member 900 is fixed to the end of the housing 100 by the operation of the transfer cylinder 1000, Direction.

10, the upper pressurizing portion 200 presses the upper surface of the housing 100 by the operation of the pressurizing cylinder 300 to process the workpiece 1100 that is seated on the receiving member 900 Moves in one direction.

The upper inclined surface 210 of the upper pressing part 200 and the second inclined surface 510 of the lower pressing part 500 are in contact with each other through the surface contact of the upper pressing part 200, The thick part of the first inclined surface 210 presses the thick part of the other end of the second inclined surface 510 of the lower pressing part 500 so that the lower pressing part 500 moves downward.

The lower pressing portion 500 for processing the work 1100 is moved by the movement adjusting member 400 protruding from the inside of the housing 100 to the other direction, Movement in the direction is limited.

Accordingly, the movement adjusting member 400 can adjust the moving distance of the lower pressing part 500, which is lowered by the upper pressing part 200, by limiting the moving distance of the upper pressing part 200. [

That is, the length of the movement adjusting member 400 protruding from the inside of the housing 100 is adjusted according to the shape of the work piece 1100 mounted on the receiving member 900, By limiting the other unidirectional movement distance, the downward movement distance of the upper pressing part 200 can be adjusted.

The elastic member 640 of the return member 600 is pressed by the upper inner surface of the bracket 610 moved downward together with the lower pressing part 500, The elastic member 640 is compressed by the guide shaft 620 fixed to the inner surface of the upper portion of the housing 100 and the stopper 630 fixed to the lower portion of the guide shaft 620.

12, the supporting member 900 is moved in the other direction by the operation of the transfer cylinder 1000 in the work piece 1100 that has been processed by the lower pressing part 500, The elastic member 640 compressed between the bracket 610 and the stopper 630 is expanded so that the elastic force of the stopper 630 is applied to the bracket 610 by the elastic force of the stopper 630, So that the lower pressing part 500 moves in the upward direction.

As described above, the pressurizing device of the present invention, which is different from the prior art in which the pressurizing cylinder 300 for operating the pressurizing portion is disposed at the upper portion and operated vertically, By arranging the pressurizing cylinder 300 horizontally at one end of the upper press portion 200, a space for installing the press device can be diversified.

The first inclined surface 210 and the second inclined surface 510 are formed on the lower surface of the upper pressing part 200 and the upper surface of the lower pressing part 500, The lower pressing portion 500 can be moved downward by pressing the upper pressing portion 200 moving horizontally and the lower pressing portion 500 can be moved downward by the moving adjusting member 400 The moving distance of the upper pressing part 200 in the one end direction is controlled to adjust the moving distance of the lower pressing part 500 in the downward direction to adjust the moving distance of the pressing part 500 in accordance with the shape of the work piece 1100, The degree of pressing of the lower pressing part 500 can be adjusted.

When the upper pressing part 200 moves in the one end direction when the lower pressing part 500 moves upward, the elastic member 640 compressed between the bracket 610 and the stopper 630 So that the lower pressing part 500 can be moved upward by the elastic force of the stopper 630.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100: housing 200:
210: first inclined plane 300: pressure cylinder
400: movement adjusting member 420: adjusting screw
430: fixing nut 500: lower pressing portion
510: second inclined plane 511: inclined plane guide portion
512: vertical guide portion 514: guide rod
516: guide shoe 600: return member
610: Bracket 620: Guide shaft
630: stopper 640: elastic member
700: support plate 800: support member rod
900: Support member 1000: Feed cylinder
1100: Workpiece

Claims (7)

A housing having a side wall formed therein to form a body;
An upper pressing part mounted horizontally movably in the housing and having a first inclined surface formed on a lower surface thereof;
A pressurizing cylinder disposed at one end of the housing and disposed horizontally in the direction of one end of the upper pressing portion to horizontally move the upper pressing portion;
A movement adjusting member movably mounted on the other end of the housing and disposed in the other direction of the upper pressing portion;
A lower pressing portion having a second inclined surface formed on an upper surface thereof to be in surface contact with the first inclined surface;
And a return member coupled to the housing at one end and coupled to the lower pressing portion to elastically move the lower pressing portion upward,
The lower pressing portion is raised and lowered by surface contact between the first inclined surface and the second inclined surface when the upper pressing portion horizontally moves,
Wherein the movement adjusting member restricts the horizontal movement distance of the upper pressing portion when the upper pressing portion moves in the other unidirectional direction, the one end of the movement adjusting member being in contact with the other end of the upper pressing portion,
The return member includes:
A bracket formed on the lower pressing portion;
The upper portion being fixed to the upper inner surface of the housing, and the lower portion being a guide shaft passing through the bracket;
A stopper fixed to a lower portion of the guide shaft;
And an elastic member surrounding the guide shaft and disposed between the bracket and the stopper to elastically support the lower pressing portion formed with the bracket against the stopper.
The method according to claim 1,
A guide rod vertically fixed to an inner wall of the housing and a vertical guide portion formed of an outer wall of the lower pressing portion and a guide shoe slidably coupled to the guide rod. .
The method according to claim 1,
A support plate disposed at a lower portion of the housing;
A support member rod horizontally fixed to the upper portion of the support plate;
A support member slidably coupled to the support member rod and on which the workpiece is seated;
Further comprising: a transfer cylinder disposed horizontally in the direction of one end of the receiving member for horizontally moving the receiving member.
delete delete The method according to claim 1,
Wherein one of the side surfaces of the first inclined surface or both sides of the second inclined surface is formed with an inclined surface guide portion that contacts the other side surface of the upper pressing portion during horizontal movement to guide movement of the upper pressing portion. Device.
The method according to claim 1,
Wherein the movement adjusting member comprises:
An adjusting screw threaded through the other end of the housing and having one end abutting the other end of the upper pressing portion;
And a fixing nut coupled to the adjusting screw and fixing the movement of the adjusting screw.

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