KR101479221B1 - Two-way Lod Cylinder Punch Press - Google Patents

Abstract

The present invention relates to a two-way cylinder punch press and, more specifically, to a two-way cylinder punch press which automatically performs a two-way punching work through a lifting motion of a cylinder. According to the present invention, the two-way cylinder punch press comprises: a body part which has a first guide groove on one side, a second guide groove on the other side, and a cylinder on the top; a lifting member which lifts up and down between the first and second guide grooves by the cylinder; a first sliding member installed in the first guide groove and is slid to the outer side of the body part; a second sliding member installed in the second guide groove and is slid to the outer side of the body part; and a return member which slides the first and second sliding members to the inner side of the body part.

Description

Two-Way Cylinder Punch Press < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a two-way cylinder punch press, and more particularly, to a two-way cylinder punch press that automatically performs a punching operation in both directions by an up-and-down movement of a cylinder.

In general, a punch press is a machine for machining a side surface of a workpiece by using a pressure of a press, such as a hole in a side surface of the workpiece.

In such a punch press, the working pressure acts only in the vertical direction, thereby forming a hole, a bead, a flange, or the like on the side surface of the work, It is necessary to switch to operate in the required constant angular direction.

In order to change the vertical pressure of the conventional punch press in the horizontal direction, a slant surface of the elevating member having a certain angle and an inclined surface corresponding to the slant surface of the elevating member are formed to constitute a sliding member to which the punch is mounted, The sliding members are moved in the horizontal direction while the mutually inclined surfaces are in sliding contact with each other, thereby processing the workpiece.

However, in the conventional punch press, it is possible to return to the original position according to the ascending / descending axis in the case of the elevating member. However, in the case of the sliding member moved in the horizontal direction, the punch press is not returned to the original position.

In addition, since such a punch press can process a workpiece only in one direction, there is a problem that both directions can not be simultaneously processed.

An example of a conventional punch press is disclosed in Korean Patent Registration No. 10-0217506.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a sliding member which, when the elevating member is lifted, returns the sliding member to which the return member is pushed, It is an object of the present invention to provide a bi-directional cylinder punch press which reciprocates in a horizontal direction.

It is also an object of the present invention to provide a two-way cylinder punch press capable of moving both sliding members on which punches are mounted horizontally to both sides by simultaneous elevation of one lifting member.

In order to achieve the above object, a two-way cylinder punch press of the present invention comprises: a body portion having a first guide groove formed on one side thereof and a second guide groove formed on the other side thereof; An elevating member having a first inclined surface and a second inclined surface formed at a lower portion thereof downwardly sloping on a center line and disposed inside the body portion and moving up and down between the first guide groove and the second guide groove by the cylinder; A third inclined surface which is slidably mounted on the first guide groove and has a first punch mounted on one end thereof and a sliding contact with the first inclined surface on the other end thereof so that the third inclined surface is slidably moved outwardly of the body by the descent of the elevating member, A first sliding member for moving the first sliding member; A fourth inclined surface which is slidably mounted on the second guide groove and has a second punch at one end thereof and a sliding contact with the second inclined surface at the other end thereof is slidably moved in an outward direction of the body by the descent of the elevating member, A second sliding member for moving the second sliding member; A returning member that slides the first sliding member and the second sliding member inward of the body portion by the elevation of the elevation member; Wherein the return member includes a first contact surface mounted on the elevating member so as to be disposed on a side surface of the first sliding member and the second sliding member and having a first contact surface having an inclination angle equal to that of the third inclined surface on the inner surface, A guide member having a second contact surface having the same inclination angle as the fourth inclined surface of the sliding member; The first sliding member and the second sliding member protruding from the first sliding member and the second sliding member in a horizontal direction substantially orthogonal to a moving direction of the first sliding member and the second sliding member and moving along the first contacting surface and the second contacting surface A protruding member; A rotating member mounted on an end of each of the protruding members and rotating in contact with the first contact surface and the second contact surface when the elevating member is lifted; .

The two-way cylinder punch press of the present invention as described above has the following effects.

When the elevating member is lifted by the return member, the returning member returns the first sliding member and the second sliding member to the home position in accordance with the elevation of the elevation member, whereby the first sliding member and the second sliding member are horizontally Thereby making it possible to process the workpiece.

Further, the first sliding member and the second sliding member are moved horizontally to both sides of the body portion by the lifting and lowering motion of one lifting member, and the workpiece can be simultaneously processed in both directions.

1 is a perspective view showing a two-way cylinder punch press according to an embodiment of the present invention;
2 is an exploded perspective view showing the overall configuration of a two-way cylinder punch press according to an embodiment of the present invention;
3 is an exploded perspective view showing a structure of a return member of a bi-directional cylinder punch press according to an embodiment of the present invention.
FIG. 4 is a sectional view taken on line AA in FIG. 1; FIG.
5 is a cross-sectional view illustrating an operation of a two-way cylinder punch press according to an embodiment of the present invention;
6 is a front view illustrating an operation of a return member in a bi-directional cylinder punch press according to an embodiment of the present invention;

1 to 6, a bidirectional cylinder punch press according to an embodiment of the present invention includes a body 100, an elevating member 200, a first sliding member 300, a second sliding member 400 and a return member 500.

The body 100 has a first guide groove 110 formed at one side thereof, a second guide groove 120 formed at the other side thereof, and a cylinder S mounted thereon.

More specifically, as shown in FIG. 2, the first guide groove 110 and the second guide groove 120 are formed to pass through the lower portion of the body 100.

The first sliding member 300 and the second sliding member 400 are inserted and slid into the first guide groove 110 and the second guide groove 120.

The elevating member 200 is disposed inside the body 100 and moves up and down between the first guide groove 110 and the third guide groove 130 by the cylinder S. [

A first inclined surface 210 and a second inclined surface 220 are formed on a lower portion of the elevating member 200 such that the first inclined surface 210 and the second inclined surface 220 are inclined downwardly from the center line.

4 and 5, the lifting member 200 is coupled to the cylinder S mounted on the body 100, and the lower end of the lifting member 200 is supported by the cylinder S, 1 between the first guide groove 110 and the second guide groove 120.

The first inclined surface 210 is in sliding contact with the third inclined surface 310 and the second inclined surface 220 is in sliding contact with the fourth inclined surface 410 so that the first sliding member 300, The second sliding member 400 is slid in the horizontal direction so as to protrude outward from the body 100.

The first sliding member 300 is slidably mounted in the first guide groove 110.

The first sliding member 300 includes a first punch P1 and a third sloping surface 310 slidingly contacted with the first sloping surface 210 at the other end of the first sliding member 300, And slides in the outward direction of the body part 100 by descending.

More specifically, the first sliding member 300 is slidably mounted on the first guide groove 110, and when the lifting member 200 is lowered as shown in FIG. 5 (b) The third inclined surface 310 is moved in the outward direction of the body 100 by the first inclined surface 210 slidingly contacting.

As the first sliding member 300 moves in the outward direction, the first punch P1 mounted at one end processes the workpiece.

The second sliding member 400 is slidably mounted on the second guide groove 120.

That is, the second sliding member 400 is slidably mounted on the second guide groove 120 so as to face the first sliding member 300 slidably mounted on the first guide groove 110.

A fourth inclined surface 410 is formed at one end of the second sliding member 400 and the second punch P2 is mounted on the other end of the second sliding member 400 to make a sliding contact with the second inclined surface 220, And slides in the outward direction of the body part 100 by descending.

5 (b), the second sliding member 400 is slidably mounted on the second guide groove 120, and when the elevating member 200 is lowered, The fourth inclined surface 410 is moved in the outward direction of the body 100 by the second inclined surface 220 in which the fourth inclined surface 410 is in sliding contact.

As the second sliding member 400 moves in the outward direction, the second punch P2 mounted at one end processes the workpiece.

That is, the first sliding member 300 is slidably supported by the third sloping surface 310 sliding on the first sloping surface 210, and the second sliding member 400 slides on the second sloping surface 220, As shown in FIG. 5 (b), by the fourth inclined surface 410 which is in contact with the bottom surface of the main body 100 when the lifting member 200 is lowered.

The first sliding member 300 and the second sliding member 400 are simultaneously slid in the outer direction of the body part 100 by the descent of the lifting member 200, So that the workpiece can be machined simultaneously on both sides of the workpiece.

The distance L1 from the lower end of the lifting member 200 to the upper end of the first sloping surface 210 and the upper end of the second sloping surface 220 is set such that, Is shorter than a distance (L2) from the lower end of the first inclined surface (200) to the lower end of the third inclined surface (310) and the fourth inclined surface (410).

The distance L1 between the lower end of the lifting member 200 and the upper end of the first sloping surface 210 and the upper end of the second sloping surface 220 is set to a predetermined value when the lifting member 200 is fully lifted, The distance between the lower end of the first inclined surface 200 and the lower end of the fourth inclined surface 410 is shorter than the distance L2 between the third inclined surface 310 and the fourth inclined surface 410. Therefore, The first sliding member 300 and the second sliding member 400 are protruded outward from the body 100 by a distance between the distance L1 and the distance L2, I will stay.

That is, when the elevation member 200 descends, when the first inclined surface 210 and the second inclined surface 220 are in sliding contact with the third inclined surface 310 and the third inclined surface 310, The sliding member 300 and the second sliding member 400 slide in the outer direction of the body 100.

When the first inclined surface 210 and the second inclined surface 220 pass the third inclined surface 310 and the third inclined surface 310, the elevating member 200 descends, The member 300 and the second sliding member 400 do not slide in the outer direction of the body 100 and remain in that state.

The first sliding member 300 and the second sliding member 400 are moved in the vertical direction of the body part 100 when the lifting member 200 is lowered due to the difference in distance between L1 and L2, The first punch P1 and the second punch P2 mounted on one end of the first sliding member 300 and the second sliding member 400 can move the workpiece It is possible to process the workpiece more precisely while staying in the machined state for a certain period of time.

The return member 500 slides the first sliding member 300 and the second sliding member 400 inward of the body 100 by the elevation of the elevation member 200.

That is, the returning member 500 is provided with the first sliding member 300 and the second sliding member 400, both of which are slid toward both sides of the body part 100, by the descent of the lifting member 200 5 (a) and 6 (a) so as to return to the original position.

The return member 500 includes a guide member 510, a protrusion member 520, and a rotating member 530.

The guide member 510 is mounted on the elevating member 200 so as to be disposed on the side surfaces of the first sliding member 300 and the second sliding member 400.

That is, the guide member 510 is moved up and down by the lifting and lowering movement of the lifting member 200 at the sides of the first sliding member 300 and the second sliding member 400 Respectively.

3 and 6, a first contact surface 511 having the same inclination angle as the third inclined surface 310 of the first sliding member 300 is formed on the inner surface of the guide member 510, A second contact surface 512 having the same inclination angle as the fourth inclined surface 410 of the second sliding member 400 is formed.

Although the first contact surface 511 and the second contact surface 512 are formed on the inner surface of the guide member 510 in the present embodiment, the first contact surface 511 and the second contact surface 512 may be protruded.

2, the protrusion member 520 is formed on the first sliding member 300 and the second sliding member 400 so that the first sliding member 300 and the second sliding member 400 And are moved along the first contact surface 511 and the second contact surface 512, respectively.

2, the protruding member 520 is inserted into the third guide groove 130 to rotate the first sliding member 300 (see FIG. 2) And the reciprocating motion of the second sliding member 400.

The first contact surface 511 and the second contact surface 512 rotate while being in contact with the rotating member 530 when the lifting member 200 is lifted, The second sliding member 400 is returned to its original position.

The rotating member 530 is mounted on the end of each of the protruding members 520 and rotates in contact with the first contact surface 511 and the second contact surface 512 when the lifting member 200 is lifted .

That is, each of the rotary members 530 is rotatably mounted on the end of the protruding member 520, and when the elevating member 200 is lifted, as shown in FIG. 6 (a) The first contact surface 511 and the second contact surface 512 of the guide member 510 rising along with the first contact surface 511 and the second contact surface 512, The protruding member 520 moves in the horizontal direction to move the first sliding member 300 and the second sliding portion to the original position.

The first contact surface 511 and the second contact surface 512 are formed by the rotation member 530 rotatably mounted on the end of the protrusion member 520 when the lifting member 200 is lifted, The first sliding member 300 and the second sliding member can be restored to the original position by minimizing the frictional force between the protruding member 520 moving along the inclination angle of the first sliding member 300 and the first contact surface 511 and the second contact surface 512, Move it more smoothly when moving.

In the present embodiment, the return member 500 is configured on both the left and right sides of the first sliding member 300 and the second sliding member 400, but may be configured only on one side.

The protrusion member 520 of the return member 500 is inserted into the body portion 100 to form a slot for guiding movement of the first sliding member 300 and the second sliding member 400 The third guide groove 130 is formed.

2, 3, and 6, the third guide groove 130 is formed in the first guide groove 110 and the second guide groove 120, (100) in a horizontal direction perpendicular to the first guide groove (110) and the second guide groove (120).

When the first sliding member 300 and the second sliding member 400 reciprocate in the horizontal direction, the third guide groove 130 prevents the protrusion member 520 from vertically moving, The first sliding member 300 and the second sliding member 400 are supported so as not to move in the vertical direction.

The protrusion member 520 is inserted into the third guide groove 130 so that the first sliding member 300 and the second sliding member 400 do not move in the vertical direction, Processing becomes possible.

A fourth guide groove 140 is formed in the body part 100 to guide the upward and downward movement of the lifting member 200 when the lifting member 200 is lifted or lowered.

2, 4 and 5, the fourth guide groove 140 is formed in the upper part between the first guide groove 110 and the second guide groove 120 in the up-and-down direction So that the lifting member 200 is prevented from flowing in the left and right front and rear directions when the lifting member 200 is lifted and lowered between the first guide groove 110 and the second guide groove 120.

As such, the fourth guide groove 140 prevents the elevation member 200 from flowing in the forward and backward directions in the left and right directions, thereby making it possible to precisely process the workpiece.

The operation of the bidirectional cylinder punch press according to an embodiment of the present invention will be described in detail.

5 (a) and 6 (a), when the first sliding member 300 and the second sliding member 400 are positioned inside the body 100, The member (200) is lowered by the cylinder (S).

The first inclined surface 210 formed at the lower end of the lifting member 200 is brought into sliding contact with the third inclined surface 310 and the second inclined surface 220 is brought into sliding contact with the third inclined surface 310, The first sliding member 300 and the second sliding member 400 are slid on the fourth inclined surface 410 so that the first sliding member 300 and the second sliding member 400 can slide along the first guide groove 110 and the second guide groove 120, Thereby sliding the workpiece 100 in the outward direction to process the workpiece.

The first inclined surface 210 and the second inclined surface 220 of the lifting member 200 may be inclined with respect to the third inclined surface 310 and the fourth inclined surface 410 as shown in FIG. So that the first sliding member 300 and the second sliding member 400 remain in the state where the workpiece is processed by sliding.

6 (b), when the lifting member 200 is lifted up while the lifting member 200 is lifted up, the lifting member 200 is lifted and the lifting member 200 is lifted up, The first contact surface 511 and the second contact surface 512 contact the first contact surface 511 and the second contact surface 512 so that the protrusion member 520 is rotated by the first contact surface 511 and the second contact surface 512, The first sliding member 300 and the second sliding member 400 are returned to their home positions as shown in FIG. 6 (a) while moving along the guide grooves 130 in the horizontal direction.

When the lifting member 200 is lifted by the return member 500 as the lifting member 200 is lifted up, the return member 500 is lifted up from the first sliding member 300 and the second sliding The first and second sliding members 300 and 400 are horizontally reciprocated by the lifting member 200 to return the workpiece 400 to its original position.

The first sliding member 300 and the second sliding member 400 are horizontally moved to both sides of the body 100 by the lifting movement of one lifting member 200, The workpiece can be processed.

In the present invention, the first sliding member 300 and the second sliding member 400 are horizontally moved in the direction in which the first sliding member 300 and the second sliding member 400 are orthogonal to each other in the direction of movement of the lifting member 200. Alternatively, 300 and the second sliding member 400 may be moved at various necessary angles with respect to the direction in which the lifting member 200 is lifted or lowered.

The bi-directional cylinder punch press of the present invention is not limited to the above-described embodiment, but can be variously modified and practiced within the scope of the technical idea of the present invention.

100: body portion 110: first guide groove 120: second guide groove
130: third guide groove 140: fourth guide groove 200: elevating member
210: first inclined surface 220: second inclined surface 300: first sliding member
310: third inclined plane 400: second sliding member 410: fourth inclined plane
500: return member 510: guide member 511: first contact surface
512: second contact surface 520: projecting member 530: rotating member
S: cylinder P1: first punch P2: second punch

Claims (5)

A body 100 having a first guide groove 110 formed on one side thereof and a second guide groove 120 formed on the other side thereof and a cylinder S mounted on the upper side thereof;
The first inclined surface 210 and the second inclined surface 220 are formed on the lower portion of the body 100 so as to be sloped downward on the center line. The first inclined surface 210 and the second inclined surface 220 are disposed inside the body 100, An elevating member (200) for moving up and down between the second guide grooves (120);
A third inclined surface 310 is formed at one end of the first punch P1 and the other end of the third inclined surface 310 slidingly contacts the first inclined surface 210, A first sliding member 300 slidable in an outward direction of the body part 100 by a descent of the body 200;
A fourth inclined surface 410 slidably mounted on the second guide groove 120 and having a second punch P2 mounted on one end thereof and a sliding contact with the second inclined surface 220 on the other end thereof, A second sliding member 400 slidably moving in an outward direction of the body part 100 by a descent of the body 200;
A return member 500 slidably moving the first sliding member 300 and the second sliding member 400 inward of the body part 100 by the elevation of the lifting member 200; , ≪ / RTI &
The return member (500)
The first sliding member 300 and the second sliding member 400 are mounted on the elevating member 200 so as to be disposed on the side surfaces of the first sliding member 300 and the second sliding member 400. A first contact surface 511 A guide member 510 having a second contact surface 512 having the same inclination angle as the fourth inclined surface 410 of the second sliding member 400;
The first sliding member 300 and the second sliding member 400 are protruded from the first sliding member 300 and the second sliding member 400 in a horizontal direction substantially orthogonal to a moving direction of the first sliding member 300 and the second sliding member 400, A protrusion member 520 moving along the first contact surface 511 and the second contact surface 512;
A rotating member 530 attached to an end of each of the protruding members 520 and rotating in contact with the first contact surface 511 and the second contact surface 512 when the lifting member 200 is lifted; Lt; / RTI >
The return member (500)
The first sliding member 300 and the second sliding member 400 are disposed on both sides of the first sliding member 300 and the second sliding member 400 in a direction substantially perpendicular to the moving direction of the first sliding member 300 and the second sliding member 400 Features a bi-directional cylinder punch press.
delete The method according to claim 1,
The distance L1 between the lower end of the lifting member 200 and the upper end of the first sloping surface 210 and the upper end of the second sloping surface 220,
Is shorter than a distance (L2) from a lower end of the elevation member (200) to a lower end of the third sloping surface (310) and a lower end of the fourth sloping surface (410) at a maximum fall of the elevation member (200) Directional cylinder punch press.
The method according to claim 1 or 3,
In the body part 100,
And a third guide groove (130) having a long hole shape for guiding movement of the first sliding member (300) and the second sliding member (400) is formed through the protrusion member (520) Punch press.
The method according to claim 1 or 3,
Inside the body part 100,
And a fourth guide groove (140) for guiding the up and down movement of the elevating member (200) when the elevating member (200) is moved up and down.

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