KR20190019259A - Press mold for bending machine - Google Patents

Abstract

The present invention relates to a press mold apparatus for bending which slides a bending press plate to prevent bending edges of plates from being damaged to improve quality and maintain quality uniformity even when repetitive bending jobs are performed. The press mold apparatus for bending comprises: a lower die fixed and installed; a lower mold fixed and installed on an upper portion of the lower die; an upper die to vertically move in accordance with a vertical load above the lower mold; an upper plate snapped and installed on a lower portion of the upper die to be vertically moved; an upper mold which is fixed and coupled to a lower portion of the upper plate, and tightly supports an upper surface of the plate by a downward movement of the upper die; a pair of rotating brackets rotatably coupled to both horizontal ends of the upper plate; a pair of bending cams rotating with the rotating brackets and having a bending press plate on a lower surface thereof to slide towards a left and a right side of the upper mold; a pair of bending punches protruding downwards from a left and a right of the upper die, and rotating the bending cams; a pair of tension spring units to supply a spring force to the rotating brackets; and a pair of press plate moving units being installed between the upper plate and the bending cams, and sliding the bending press plate towards the left and the right side of the upper mold by rotation of the bending cams.

Description

[0001] PRESS MOLD FOR BENDING MACHINE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a press-molding apparatus for bending molding both ends of a sheet material.

Generally, press working is a type of plastic working which mainly cuts a plate material or deforms the shape of a plate material by using a press die device, and for example, shearing, punching, trimming, bending ), Burring, curling, embossing, coining, and deep drawing. [0035] The above-described method can be applied to various types of substrates.

Among them, bending molding is a molding method in which a plate material, that is, a plate material is bent or bent as it is, and both ends of the plate material are bent and used as a frame or an exterior of various electronic products.

1 to 7 are front views showing the structure and operation of a conventional press die apparatus for bending molding. First, the structure of a conventional press die apparatus for bending molding is as follows.

A lower die 10 fixed to the upper surface of the lower die 10 and fixed to the upper surface of the lower die 10 and having bent portions B at both left and right ends of the plate S, A lower die 20 having right and left side bending edges 21 formed at left and right upper and lower sides thereof inclined inwardly from left and right sides and an upper die 30 moving up and down in accordance with a vertical load at the upper side of the lower die 20, An upper plate 40 fixed to the lower portion of the upper die 30 so as to be vertically movable and a lower die 40 fixedly coupled to a lower portion of the upper plate 40 so as to face the lower die 20, A pair of pivotal brackets 60 rotatably coupled to both the left and right ends of the upper plate 40, The upper surface of the left and right bending portions B of the plate material S The upper and lower halves of the upper mold 50 are rotatably supported by the upper and lower halves of the upper mold 50 and the upper and lower halves of the upper mold 50, A pair of bending cams 70 having a bending press plate 71 which is resiliently supported to be slid toward both sides of the upper die 30 and a pair of bending cams 70 projecting downward to the left and right of the upper die 30, The lower surface of each bending cam 71 of the bending cam 70 contacts the upper surface of each of the left and right bending portions B of the plate material S so as to press the upper surface of each of the left and right bending portions B, A pair of bending punches 80 for rotating the bending cams 70 by pressing the bending cams 70 and a pair of springs 90 for applying a spring force to each of the pivoting brackets 60.

That is, as shown in FIG. 1, the plate material S is placed on the lower die 20 in a state in which the upper die 30 is moved upward, and the upper die 30 moves downward as shown in FIG. 2 And comes into contact with the upper mold 50 on the upper surface of the plate material S. Subsequently, as shown in FIG. 3, a vertical load is applied to the upper die 30 to move the upper die 50 and the bending punch 80 downward. 3 to 5, the bending cam 70 is rotated by the bending punch 80 and the bending press plate 71 is rotated together with the spring force to the left and right sides of the upper mold 50 Thereby slidingly moving. 6 and 7, when the upper die 30 is moved upward and the bending cam 70 is returned, the bending press plate 71 is brought into contact with the left and right sides of the upper mold 50 The upper die 30 is continuously moved upward to separate the upper die 50 from the lower die 20 and the bending process is completed and the processed plate material S is taken out from the lower die 20 .

The above-described press die apparatus for bending molding is a press die apparatus for bending molding according to the prior art, so that the bending punch 80 does not hit the plate material S directly when the bending portion B of the plate material S is bent The bending edge E of the plate material 21 is bent and pressed while the bending edge E of the plate material 21 is bent along the bending edge 21 of the lower die 20 so that the curvature of the bending edge E of the plate material S is reduced to the bending edge of the lower die 20 21) The quality was improved by matching with the curvature.

A bending press plate 71 is provided on the lower surface of the bending cam 70. The bending press plate 71 slides toward the upper mold 50 when the bending portion B of the plate material S is bent, The bottom edge of the press plate 71 does not contact the bending portion B and the lower surface of the bending press plate 71 contacts the bending portion B so that the bending portion B of the plate material S contacts the bending portion 71 The problem of peeling or scratching on the corner is improved.

At this time, the bending pressing plate 71 is slidably moved on the lower surface of the bending cam 70 so as to be slid toward the upper mold 50 when the bending portion B of the plate material S is bent, A spring 90 is provided between the bending fixing plate 72 and the bending press plate 71 so that the lower surface of the bending press plate 71 is pressed against the plate material S by the pressing operation of the bending punch 80, The upper surface of the bending portion B is pressed and bent while the bending pressing plate 71 is slid toward the upper mold 50 by the elastic force of the spring 72 and the pressing operation of the bending punch 80 is released The bending press plate 71 is brought into sliding contact with the upper mold 50 by compression of the spring 90.

8, the elasticity of the spring 90 is changed by the repetitive operation of the spring 90 provided between the bending press plate 71 and the bending plate 72, The edge of the bending press plate 71 is brought into contact with the bending portion B of the plate material S to peel off the surface coating of the plate material S or to form a scratch.

When the spring force is smaller than the moment that the bending punch 80 momentarily applies to the bending cam 70, the spring 90 can not slide the bending pushing plate 71 and the edge of the bending pushing plate 71 slips There arises a problem that the surface of the plate material S is scratched or the surface coating is peeled off while being in contact with the bending portion B of the substrate S.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above and to provide a bending apparatus and a method of manufacturing a bending apparatus which are capable of reducing a load applied to a bending cam by a sliding movement force of the bending press plate, And to provide a press-molding apparatus for bending molding which prevents quality from being damaged, improves quality, and maintains the same quality.

In order to achieve the above object, the present invention provides a press-forming die apparatus for bending molding, comprising: a lower die fixedly installed; a lower die fixedly installed on the lower die, the upper die having a bending portion at both left and right ends, A lower die supporting the lower surface of the plate material and having right and left side surfaces inclined inwardly from left and right upper bending edges of the upper and lower ends, an upper die moving up and down in accordance with a vertical load at the upper side of the lower die, A top die fixedly coupled to a lower portion of the top plate so as to face the bottom plate so as to face the bottom plate and closely supporting the top surface of the plate according to downward movement of the top die, A pair of pivot brackets rotatably coupled to each other, The upper and lower surfaces of the upper and lower bending portions are respectively pivotally coupled to the pivot bracket so as to face the upper surfaces of the left and right bending portions to pivot together with the pivot bracket, And a lower bending cam disposed on a lower surface of the upper die, wherein the lower surface of the upper die is pressed by a lower surface of a bending press plate of each of the bending cams, A pair of bending punches for pressing each of the bending cams so as to press the upper surface of each of the bending cams so as to bend and bend the upper surface of the bending cams, a pair of tension spring parts for providing a spring force to each of the pivoting brackets, Wherein the bending cam is provided between the plate and the bending cam, Wherein a pair of pushing plates for slidably moving toward both side surfaces includes an east portion and each of the pushing plates is provided between the upper plate and the bending press plate and has an elongated sliding hole formed through the upper portion thereof in the longitudinal direction, And a bending cam which is inserted into the sliding hole of the presser plate moving link and whose one end is fixedly coupled to the upper plate and the other end is inserted into a sliding hole of the presser plate moving link, And a pivot support pin having one end fixedly coupled to the bending push plate and the other end inserted into a pivot support hole of the push plate movable link to pivotally support the push plate movable link do.

The bending punch presses the lower surface of the bending press plate against the upper surface of the bending portion of the plate, and the hole follower moves along the sliding holes of the press plate moving link. The pushing plate moving link slides the bending press plate toward the upper mold via the pivot support pin when the hole follower is positioned at the upper end of the sliding hole and presses the pushing operation of the bending punch The bending plate is slidably moved back and forth while contacting the upper mold.

Each of the bending cams is provided with a moving hole having an elongated hole penetrating the upper and lower portions. The moving hole is vertically inserted into the moving hole and slides in the direction of the elongated hole. The moving hole is engaged with the bending pushing plate to limit the moving distance of the bending pushing plate. And a slide pin for moving the slide pin.

Each of the bending cams includes a bending fixing plate fixed to the lower surface of the bending fixing plate and spaced apart from the bending pressing plate. The bending fixing plate is disposed between the bending fixing plate and the bending pressing plate, And a push spring for pushing and pushing.

In addition, each of the pressing plates is pressed by the lower surface of the bending pressing plate to press the upper surface of the bending plate in contact with the upper surface of the pressing plate in accordance with the pressing operation of the pressing punch, And the hole follower slides toward the upper end of the sliding hole along the sliding hole of the presser plate moving link, and when the hole follower is positioned at the upper end of the sliding hole, the pressing plate moving link moves the rotation supporting pin The bending press plate slides toward the upper mold, and when the pressing operation of the bending punch is released, the bending press plate compresses the push spring while sliding on the upper mold, and returns to the sliding movement.

In addition, each of the pivot brackets may be configured such that, when the upper die closely contacts and supports the upper surface of the plate member in accordance with the downward movement of the upper die, each of the pivot brackets coincides with the center of the rounded circle of each of the left and right bending edges of the lower die. Wherein each of the bending cams is formed with a lower surface of the bending pressing plate that presses the bending edge of each of the left and right bending portions of the plate material together with the rotating bracket along the radius of curvature of each of the left and right bending edges of the lower plate, And the sliding movement is performed simultaneously with the rotation.

Each of the tension spring portions is a coil spring having one end coupled to the bending cam and the other end coupled to the upper die to provide a spring force to the bending cam.

The bending pressing device for bending molding according to the present invention is characterized in that when a bending portion of a plate is bent through a bending press plate provided on a lower surface of a bending cam so as to be slidable and slidable, the bottom edge of the bending press plate contacts the bending portion So that the bending portion of the plate material can be prevented from being peeled off or scratched on the bottom edge of the bending press plate.

In addition, a push plate moving link is provided between the upper plate and the bending press plate, the hole follower is coupled to the upper plate and the sliding hole of the bending press plate, the pivot support pin is coupled with the turn support hole of the bending press plate and the bending press plate, Since the bending press plate is designed to move when the cam is rotated, the bending press plate is slidably moved even in the repeated bending operation, so that a product having the same quality can be produced.

Further, since the bending punch, which is larger than the contact frictional force between the bending cam and the bending press plate, transmits the force for rotating the bending cam to the press plate moving link through the rotation support pin, thereby sliding the bending press plate. The edge of the sheet does not damage the bending edge of the sheet material, thereby improving the productivity of the product.

The bending press plate of the bending cam, which is designed so that the center of rotation of the pivot bracket coincides with the center of the circle of the bottom edge of the lower mold, and which is pivoted together with the pivot bracket, presses the bending edge of the plate along the radius of curvature of the bending edge of the lower mold, So that the bending edge curvature of the plate material is matched to the bending edge curvature of the lower plate, thereby contributing to quality improvement.

1 to 7 are front views showing the structure and operation of a conventional press die apparatus for bending molding,
8 is a front view showing a process in which a lower edge of a bending press plate presses a bending portion of a plate when the bending press plate is not slidably moved in a conventional press die apparatus for bending molding,
9 is a front view showing a press-molding apparatus for bending molding according to the present invention,
Fig. 10 is an exploded perspective view showing the engagement relationship of the presser plates in the embodiment of Fig. 9,
11 to 13 are a perspective view and a front view showing an operating state of the push plate moving part in the embodiment of FIG. 9,
FIGS. 14 and 15 are front views showing a process of moving the bending press plate according to the operation state of the presser plate moving part in the embodiment of FIG. 9,
FIG. 16 is a front view of the recess of the embodiment of FIG. 9,
FIG. 17 is an enlarged front view of the process of FIG. 16 (c)
18 is an enlarged front view of the process of FIG. 16 (d)
19 is an enlarged front view of the process of FIG. 16 (e)
20 is a front view showing another embodiment of the press-molding apparatus for bending molding according to the present invention,
FIG. 21 is a front elevational view showing the operation of the embodiment of FIG. 20,
22 is an enlarged front view of the process of FIG. 21 (c)
23 is an enlarged front view of the process of FIG. 21 (d)
FIG. 24 is an enlarged front view of the process of FIG. 21 (e). FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a press-molding die apparatus for bending molding will be described in detail with reference to the accompanying drawings.

9 and 10, the lower die 100, the lower die 200, the upper die 300, the upper plate 400, the upper die 500, The bending cam 700 includes a bending punch 800 and a press plate moving part 900 and a tension spring part 940. The bending cam 700 includes a bending plate 710, Respectively. The push plate moving part 900 is provided with a push plate moving link 910, a hole follower 920, and a pivot support pin 930.

First, as shown in Fig. 9, the lower die 100 is fixedly installed as a bottom frame. The lower die 200 is fixed to the upper portion of the lower die 100 and supports the lower surface of the plate S so that the bending portions B at both left and right ends of the plate S, The left and right sides of each of the left and right upper end bending edges 210 are inclined inwardly. The plate material S is pre-bent and has a specific shape before bending, and the plate material S is placed on the lower die 200 for bending. At this time, the lower surface of the plate material S is supported by the lower die 200, and the bending portions B of the plate material S to be bent are projected to both the left and right sides of the lower die 200.

The lower mold 200 is formed such that both left and right sides thereof are inclined inward from the rounded bending edge 210 at the upper left and upper ends thereof in consideration of the springback phenomenon after the bending portion B of the plate S is bent. That is, the bending portion B of the plate material S is bent to both inclined side surfaces of the lower die 200, and then the product is completed without a separate spring back correction operation in the springback state.

The upper die 300 moves up and down in accordance with the vertical load at the upper side of the lower die 200. The upper die 300 is not shown in the figure but moves up and down by pressing and returning of the press apparatus. At the lower portion of the upper die 300, the upper plate 400 is elastically provided to be vertically movable. That is, the upper plate 400 is elastically provided at the lower portion of the upper die 300 with respect to the upper die 300, and flows upward and downward.

The upper die 500 is fixedly coupled to the lower portion of the upper plate 400 so as to face up and down with the lower die 200 and closely supports the upper surface of the plate S according to downward movement of the upper die 300. The upper plate 400 and the upper mold 500 operate as one body because they are fixedly coupled to each other, and elastically flow upward and downward together at the lower portion of the upper die 300. The upper die 500 moves downward together with the upper plate 400 according to the downward movement of the upper die 300 to closely support the upper surface of the plate material S. That is, the lower surface of the plate material S is supported by the lower die 200. When the upper die 500 moves downward due to the downward movement of the upper die 300, the upper surface of the plate material S contacts the upper die 500, Respectively.

The lower die 100 is fixed to the upper portion of the lower die 100 to support the lower surface of the plate S and the upper plate 400 and the upper die 500, And fixes the plate material S by closely supporting the upper surface of the plate material S supported by the lower die 200. [ At this time, the bending portion B of the plate material S is protruded to both the left and right sides of the lower mold 200 and the upper mold 500 and is fixed to the lower mold 200 and the upper mold 500 by bending means The bending portion B of the plate material S is bent.

9, a pair of pivoting brackets 600, a bending cam 700, a bending punch 800, and a presser plate moving part 900 are provided as means for bending the plate material S .

First, the pair of pivotal brackets 600 are pivotally coupled to the left and right ends of the upper plate 400, respectively. The pair of bending cams 700 are also coupled to the pivot bracket 600 so that the lower surfaces thereof face the upper surfaces of the left and right bending portions B of the plate material S and rotate together with the pivot bracket 600. That is, the bending cam 700 coupled with the rotation bracket 600 rotates together with the rotation bracket 600 on the basis of the rotation center of the rotation bracket 600. Since the bending cam 700 is installed to face the upper surface of the bending portion B, when the upper plate 400 and the upper mold 500 move downward as the upper die 300 moves downward, the bending cam 700 Is close to the upper surface of the bending portion B while facing the upper surface. At this time, each of the bending cams 700 is in contact with both left and right sides of the upper mold 500 and is restricted in rotation, and a bending press plate 710 slidably moves on the lower surface of the upper mold 500 toward both left and right sides of the upper mold 500 Respectively.

The bending punch 800 protrudes downward from left and right sides of the upper die 300 and the lower surface of the bending pressing plate 710 of each of the bending cams 700, The pair of bending cams 700 are pivoted by pressing the upper surface of each of the bending cams 700 so that the upper surfaces of the left and right bending portions B of the bending cams S are pressed and bent. At this time, the bending cam 700 pushed by the bending punch 800 is rotated together with the pivoting bracket 600. The bending punch 800 is configured such that the bending cam 700 maintains a state before being pushed by the bending punch 800, One end of the tension spring 950 is coupled to the bending cam 700 and the other end is coupled to the upper die 300 in order to pivot the punch 800 and then return.

The bending cam 700 coupled to the pivot bracket 600 is rotated by the tension spring so that the lower surface of the bending cam 700 contacts the upper surface of the bending portion B of the plate S The bending plate 710 of the bending cam 700 pushes and bends the bending portion B of the plate material S while bending the bending punch 800 while being pressed by the bending punch 800 while facing the bending punch 800, The upper surface of the bending portion B of the plate material S is restored by the restoring force of the tension spring.

In addition, a pair of press plate moving portions 900 are provided for sliding movement of the bending press plate 700. Angles are provided between the upper plate 300 and the bending cam 700 as shown in FIGS. 9 to 15, And the bending press plate 710 is slid toward the left and right sides of the upper mold 500 according to the rotation of the bending cam 700. At this time, the presser plate moving part 900 is composed of the presser plate moving link 910, the hole follower 920, and the pivot support pin 930 as described above.

10 to 15, the presser plate moving link 910 is installed between the upper plate 300 and the bending press plate 710 and has a longitudinally elongated sliding hole 911 formed therein And a rotation support hole 912 is formed through the lower portion. The sliding hole 911 formed on the push plate moving link 910 forms a sliding movement displacement of the bending push plate 710. When the length of the sliding hole 911 is adjusted, Can be controlled. Further, the bending punch 800 instantaneously changes the rotational motion of the bending cam 700, which is rotated by the load applied to the bending cam 700, to the linear motion in which the bending press plate 710 slides. Therefore, even if the bending operation is repeatedly performed, the bending press plate 710 is moved by the same position, so that a product having the same quality can be produced.

One end of the hole follower 920 is fixedly coupled to the upper plate 300 and the other end is inserted into a sliding hole 911 of the presser plate moving link 910. When the bending cam 700 rotates, The bending press plate 710 is rotated together with the bending press plate 710 slid with respect to the bending cam 700. Here, as shown in FIGS. 14 and 15, a circle having a radius of a distance from the center of the upper plate 300 to the fixed center of the pivotal support pin 930, which will be described later, The sliding movement distance of the bending press plate 710 can be adjusted. The other end of the hole follower 920 inserted into the sliding hole 911 of the push plate moving link 910 is configured such that the outer circumferential surface thereof rotatably supports the inner circumferential surface of the sliding hole 911 of the push plate moving link 910.

Although not shown in the figure, a cylindrical hole-follower body is formed as a base of the hole follower 920. One end of the hole-follower body is fixedly coupled to the upper plate 300, and the other end of the hole- And is inserted into the sliding hole 911 of the push plate moving link 910. Further, a hole-follower head, which is formed in an annular shape so as to rotate in contact with the inner circumferential surface of the sliding hole 911 of the push plate moving link 910, is coupled to the outer peripheral surface of the bearing of the hole-

In this configuration, when the bending cam 700 is rotated by the bending punch 800, the presser plate moving link 910 rotates and the inner peripheral surface of the sliding hole 911 of the presser plate moving link 910 is damaged by the hole follower 920, Or wear.

One end of the pivot support pin 930 is fixedly coupled to the bending push plate 710 and the other end is inserted into the pivot support hole 912 of the push plate moving link 910 to rotate the push plate moving link 910 . The pivot supporting pin 930 connects the bending press plate 710 and the press plate moving link 910 and simultaneously moves the bending press plate 710 toward the left and right sides of the upper mold 500 to slide. 14 and 15, when the distance between the center where the hole follower 920 is fixed to the upper plate 300 and the fixed center of the rotation support pin 930 is short, The distance between the center of the bending edge E and the center of the upper plate 300 at which the hole follower 920 is fixed and the center of the circle at which the distance is the distance from the fixed center of the rotation support pin 930 is increased The moving distance of the plate 710 when the bending is pressed is increased.

When the distance between the center of the upper plate 300 on which the hole follower 920 is fixed and the fixed center of the pivot support pin 930 is longer than the center of the bending edge E of the lower plate 200 and the center of the upper plate 300 The distance between the center where the hole follower 920 is fixed and the center of the circle having the radius of the distance from the fixed center of the pivot support pin 930 to the center of the circle is shortened so that the moving distance of the bending pressing plate 710 is short .

The process of operating the bending press plate 710 through the press plate moving link 910, the hole follower 920, and the pivot support pin 930 is as follows.

16 to 19, the lower surface of the bending press plate 710 presses and bends the upper surface of the bending portion B of the plate material S according to the pressing operation of the bending punch 800, At the same time, the hole follower 920 slides toward the upper end of the sliding hole 911 along the sliding hole 911 of the presser foot moving link 910. At this time, the hole follower 920 is fixed to the upper plate 300, and the bending punch 800 is rotated by applying a load to the bending cam 700 so that the presser plate moving link 910 moves to move the presser plate moving link 910 The sliding hole 911 moves to slide the hole follower 920 toward the upper end of the sliding hole 911.

When the hole follower 920 is positioned at the upper end of the sliding hole 911, the presser plate moving link 910 moves the bending press plate 710 to the upper mold 500 through the pivot support pin 930, When the pressing operation of the bending punch 800 is released, the bending press plate 710 comes into sliding contact with the upper mold 500 and returns to the sliding movement.

Further, as shown in Figs. 17 to 19, a bore cam 710 has a bore cam 710 and a bore cam 710, And a slide pin 730 which is inserted into the moving hole 720 so as to be slid in the direction of the elongated hole and which is engaged with the bending press plate 710 to limit a movement distance of the bending press plate 710 .

As described above, the pressure plate moving part 900 further includes a bending fixing plate 740 and a push spring 750 in the bending cam 700 so that the bending press plate 710 slides after the bending operation is started.

20, the bending fixing plate 740 is fixed to the lower surface of the bending pressure plate 710 so as to be spaced apart from the bending pressure plate 710 and the push spring 750 is installed between the bending fixing plate 740 and the bending pressure plate 710 And the bending press plate 710 is urged by the resilient force toward the upper mold 500 on the basis of the bending fixing plate 740. The bending press plate 710 is in contact with the upper mold 500 while the bending press plate 710 is in a state of compressing the push spring 750 do.

That is, as shown in FIGS. 20 to 24, the spring force of the push spring 750 provides a spring force to direct the bending press plate 710 toward the upper mold 500. The lower surface of the bending press plate 710 is pressed against the upper surface of the bending portion B of the plate material S and bent along with the pushing action of the bending punch 800, The bending pressing plate 710 slides toward the upper mold 500 and the hole follower 920 moves the upper end of the sliding hole 911 along the sliding hole 911 of the press plate moving link 910 When the hole follower 920 is positioned at the upper end of the sliding hole 911, the presser plate moving link 910 moves the bending press plate 710 to the upper mold (not shown) via the pivot support pin 930, The bending press plate 710 is brought into sliding contact with the upper mold 500 to compress the push spring 750 and to slide back and forth do.

If the turning radius of the bending cam 700 rotates along the radius of curvature of the bending edge 210 of the lower mold 200, the bending cam 710 is pressed against the bending press plate 710 provided on the lower surface of the bending cam 700, The bending edge E of the plate material S that is the starting end of the bending portion B of the plate material S that is the plate material S does not protrude and can have the same radius of curvature as the bending edge 210 of the lower die 200. [ 14, each of the pivotal brackets 600 may include a plurality of pivotal shafts (not shown) for rotating the upper die 300 in a downward direction when the upper die 500 closely contacts the upper surface of the plate S, And are respectively coupled to the upper plate 400 so that the centers thereof coincide with the centers of the rounded circles of the left and right bending corners 210 of the lower mold 200. At this time, each of the bending cams 700 has the lower surface of the bending press plate 710 pressed together with the bending edge E of each of the left and right bending portions B of the plate material S, And bends along the radius of curvature of each of the left and right bending corners 210 of the lower mold 200.

That is, when the upper die 500 closely supports the upper surface of the plate material S by the downward movement of the upper die 300, the pivoting bracket 600 and the bending cam 700 are also moved downward. At this time, when the rotation center of the rotation bracket 600 coincides with the center of the rounded circle of the bending edge 210 of the lower mold 200, the rotation bracket 600 moves along the radius of curvature of the bending edge 210 of the lower mold 200, And the bending cam 700 are rotated. The bending cam 700 is bent by the bending punch 800 to bend the bending portion B of the plate material S along the radius of curvature of the bending edge 210 of the lower die 200. In particular, S can be folded and bent so as to coincide with the radius of curvature of the bending edge 210 of the lower die 200, thereby contributing to quality improvement.

The bending punch 800 and the tension spring portion 900 are provided for the rotation operation of the pivot bracket 600 and the bending cam 700 described above. The bending punch 800 also includes a pair of bending punches 800 protruding downward from the left and right sides of the upper die 300. The bending punch 800 includes a bending plate 710, The upper surface of each of the bending cams 700 is pressed so as to press the upper surface of each of the left and right bending portions B of the plate material S so as to bend the bending cams 700. At this time, the bending cam 700 pushed by the bending punch 800 is rotated together with the pivoting bracket 600. The bending punch 800 is configured such that the bending cam 700 maintains a state before being pushed by the bending punch 800, The tension spring unit 900 functions to pivot the punch 800 so that the punch 800 rotates and then returns.

That is, a pair of tension spring portions 900 are also provided to provide a spring force to each of the rotation brackets 600. The bending cam 700 coupled to the pivot bracket 600 is rotated by the tension spring unit 900 so that the lower surface of the bending cam 700 contacts the bending portion of the plate member S The bending pushing plate 710 of the bending cam 700 presses the bending portion B of the plate material S to bend and bends the bending portion B of the plate material S, When the punch 800 is released, the upper surface of the bending portion B of the plate material S can be returned to the state of facing the upper surface of the plate material S by the restoring force of the tension spring portion 900. [

The tension spring portion 900 is not limited to any type or structure as long as it can provide a spring force to the pivot bracket 600. [ 8 to 16, each of the tension spring portions 900 has one end coupled to the bending cam 700 and the other end coupled to the upper die 300 so as to be coupled to the bending cam 700 And may be a coil spring that provides a spring force. Since the bending cam 700 and the rotation bracket 600 are combined as one body and rotate together with each other, the rotation of the bending cam 700 is equivalent to the rotation of the rotation bracket 600, It is installed in a spring form to provide spring force by tension and compression.

Each of the tension spring portions 900 may be a torsion spring provided on a coaxial axis with the rotation axis of the rotation bracket 600 to provide a spring force to the rotation bracket 600. As described above, when the tension spring portion 900 is installed in the form of a coil spring, it may be complicated in appearance, but it is easy to install. When the torsion spring portion 900 is installed in the form of a torsion spring, it may seem simple in appearance. However, in any form, the tension spring portion 900 may be capable of providing a spring force to the pivot bracket 600 so as to rotate and return after the pivot bracket 600 is rotated.

Hereinafter, with reference to FIGS. 21 to 24, a description will be given of a preferred operation of the press die apparatus for bending molding according to the present invention, but redundant description will be omitted.

21 (a), the upper die 300 is moved upward from the lower die 200, so that the upper plate 400 and the upper die 500 are also moved upward, The lower mold 200 is in a separated state. At this time, the bottom surface of the plate material S is supported by the bottom plate 200, and the bending portion B of the plate material S is positioned so as to protrude to the left and right sides of the bottom plate 200. The bending cam 700 is elastically supported by the tension spring portion 900 in a state of facing the upper surface of the bending portion B of the plate material S and is in contact with the side surface of the upper mold 500 to be restricted in rotation . At this time, the bending press plate 710 provided on the lower surface of the bending cam 700 is also in contact with the side surface of the upper mold 500, and the push spring 750 is compressed to move the bending press plate 710 toward the upper mold 500 The spring force is provided. The upper plate 400 and the upper die are separated from the upper die 300 by the self weight of the upper die 300 and are spaced downward from the upper die 300, The bending punch 800 protruding from the bending cam 700 is separated from the bending cam 700 and is in a depressed state.

The upper die 300 moves downward toward the lower die 200 as shown in FIG. 21 (b). The upper plate 400 and the upper die 500 also move downward as the upper die 300 moves downward and the upper die 500 closely supports the upper surface of the plate material S. The plate material S is pressed and fixed between the upper die 500 and the lower die 200 up and down. The pivot bracket 600 and the bending cam 700 installed on the upper plate 400 also move downward so that the center of rotation of the pivot bracket 600 intersects the center of the rounded circle of the bending edge 210 of the lower mold 200 And the bottom surface of the bending cam plate 710 of the bending cam 700 comes into contact with the upper surface of the bending portion B of the plate material S. [

The upper die 300 is continuously moved downward by the pressing as shown in Figs. 21 (c) and 22. The upper die 400 and the upper die 500 are gradually brought closer to the upper die 300 by the continuous downward movement of the upper die 300, And moves downward toward the plate 400. The bending punch 300 protruding to the left and right of the upper die 300 presses the upper surface of the bending cam 700 while moving downward with respect to the upper plate 400 and the upper mold 500 fixed to the position. When the upper surface of the bending cam 700 is pressed by the bending punch 300, the rotation bracket 600 and the bending cam 700 are rotated based on the rotation center of the rotation bracket 600. The upper surface of the bending portion B of the plate material S is pressed against the bending plate 710 of the bending cam 700 by the rotation of the bending cam 700 and starts to bend. At the same time, the bending press plate 710 is released from the upper mold 500, is slid in the direction of the upper mold 500 by the spring force of the push spring 750, and the hole follower 920 is moved to the press plate moving link 910 to slide toward the upper end of the sliding hole 911.

The upper die 300 is completely downwardly moved by the pressing as shown in FIG. 21 (d) and FIG. The upper plate 300 and the upper die 500 are completely brought into close contact with the upper die 300 while the upper plate 300 and the upper die 300 are completely brought into close contact with each other, (400). The bending punch 300 protruding to the left and right of the upper die 300 also moves downward and pushes the upper surface of the bending cam 700 all the way down. When the upper surface of the bending cam 700 is fully pressed by the bending punch 800, the pivoting bracket 600 and the bending cam 700 pivot to both inclined side surfaces of the lower mold 200. The lower surface of the bending portion B of the plate material S is brought into contact with both inclined side surfaces of the lower mold 200 by the rotation of the bending cam 700 and is completely bent.

At this time, the hole follower 920 is positioned at the upper end of the sliding hole 911, and the pushing plate moving link 910 is rotated by the bending pushing plate 710, The bending portion 710 is slid toward the upper mold 500 via the support pin 930 so that the bending portion B does not come into contact with the bottom edge of the bending pushing plate 710 but always slides on the bending pushing plate 710 So that damage such as scratches or scratches does not occur on the bending portion B. At this time, the tension spring portion 900 which provides the spring force to the bending cam 700 is in a state of being maximally tensioned.

The upper die 300 is gradually moved upward as shown in FIG. 21 (e) and FIG. When the upper die 300 is moved upward while the upper die 500 and the lower die 200 are in close contact with each other and the plate material S is fixed, the upper plate 400 and the upper die 500, Only the upper die 300 moves upward in a fixed state. Accordingly, only the bending punch 800 protruding to the left and right of the upper die 300 moves upward together with the upper die 300, releasing only the pushing operation of the bending cam 700. That is, when the pressing operation of the bending punch 800 against the bending cam 700 is released, the bending cam 700 is rotated and returned by the returning force of the tension spring 900, The bending portion B of the plate material S, which is pressed by the lower surface of the base plate 710, is bent. However, the bending portion B of the plate material S is not in contact with the inclined side face of the lower die 200 due to the spring back phenomenon when the bending portion B is released from the bending cam 700. At this time, when the bending cam 700 is completely rotated and returned, the pushing spring 750 is brought into sliding contact with the side surface of the upper mold 500, and the pushing spring 750 is compressed.

Finally, the upper die 300 is completely moved upward as shown in Fig. 21 (f). When the upper die 500 which is in close contact with the lower die 200 and is fixed to the plate S is moved away from the lower die 200 to move upward, the plate S, on which the bending portions B at both the left and right ends, The bending process is completed.

The bending process is continuously performed by repeating the above-described operation process.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

S: plate
B: Bending section
E: Bending edge
100: Lower die
200: Lower mold 210: Bending edge
300: upper die
400: upper plate
500: HYPER
600: Rotating bracket
700: Bending cam 710: Bending plate
720: moving hole 730: slide pin
740: Bending fixing plate 750: Push spring
800: Bending Punch
900: press plate moving part 910: press plate moving link
911: Sliding hole 912: Rotation support hole
920: Hall follower 930: Pivot pin
940: Tension spring part

Claims (7)

A fixed lower die,
A lower die fixed to the upper portion of the lower die and supporting the lower surface of the plate so that the bending portions at both left and right ends of the plate to be bent are protruded to both sides and the left and right side bending edges are inclined inwardly ,
An upper die moving up and down in accordance with a vertical load at a position above the lower die,
An upper plate disposed at the lower portion of the upper die so as to be vertically movable,
An upper die fixedly coupled to a lower portion of the upper plate so as to face up and down with the lower die and closely supporting the upper surface of the plate according to downward movement of the upper die,
A pair of pivotal brackets rotatably coupled to both the left and right ends of the upper plate,
And the lower surface of the upper plate is respectively coupled to the pivot bracket so as to face the upper surfaces of the left and right bending portions of the plate material and is rotated together with the pivot bracket so as to be in contact with both left and right side surfaces of the upper plate, A pair of bending cams provided with a bending press plate slidably moved to face the bending plate,
Wherein each of the bending cams has a bending cam surface on which the bending cams are mounted, the bending cams protruding downward from left and right sides of the upper die, A pair of bending punches for pivoting each of the bending cams by pressing the upper surface thereof,
A pair of tension spring portions for providing a spring force to each of the rotation brackets,
A pair of pushing plate moving parts installed between the upper plate and the bending cam and slidably moving the bending pushing plate toward both left and right sides of the upper mold in accordance with the rotation of the bending cam,
Each of the press plate moving parts includes:
A presser plate moving link which is installed between the upper plate and the bending press plate and has an elongated sliding hole penetratingly formed thereon in the longitudinal direction and having a pivotal support hole penetrating through the sliding plate,
The bending cam being fixedly coupled to the upper plate and the other end being inserted into a sliding hole of the presser plate moving link, and when the bending cam is rotated, the bending press plate is rotated together with the bending cam, With followers,
And a pivot support pin fixedly coupled to the bending retaining plate at one end and inserted into a pivot support hole of the push plate moving link at the other end to pivotally support the push plate moving link.
The method according to claim 1,
Each of the press plate moving parts includes:
The lower surface of the bending pressing plate presses and bends the upper surface of the bending portion of the plate in accordance with the pressing operation of the bending punch and the hole follower slides toward the upper end of the sliding hole along the sliding hole of the pressing plate moving link, When the hole follower is positioned at the upper end of the sliding hole, the presser plate moving link slides the bending press plate toward the upper mold via the rotation support pin, and when the press operation of the bending punch is released, And sliding movement of the bending die is performed.
The method according to claim 1,
Each of the bending cams
A moving hole of a long hole penetrating vertically is formed,
Further comprising a slide pin inserted into the moving hole so as to be slidable in the direction of the elongated hole and coupled with the bending press plate to restrict the moving distance of the bending press plate.
The method of claim 3,
Each of the bending cams
A bending fixing plate fixed on the lower surface of the bending plate,
And a push spring installed between the bending fixing plate and the bending press plate and pressing the bending press plate toward the upper mold with respect to the bending fixing plate by providing an elastic force to push the pressing plate toward the upper mold.
5. The method of claim 4,
Each of the press plate moving parts includes:
The lower surface of the bending press plate presses and bends the upper surface of the bending portion of the plate in accordance with the pressing operation of the bending punch and the bending press plate slides toward the upper mold by the elastic force of the push spring, When the hole follower is positioned at the upper end of the sliding hole, the presser plate moving link moves the bending press plate toward the upper mold through the rotation support pin, And when the pushing operation of the bending punch is released, the bending press plate pushes the push spring in contact with the upper mold and slides and returns.
The method according to claim 1,
Each of the pivot brackets
Wherein the upper die is coupled to the upper plate such that when the upper die closely contacts and supports the upper surface of the plate, the center of rotation of the upper die coincides with the center of the rounded circle of each of the left and right bending edges of the lower die,
Each of the bending cams
Wherein the lower surface of the bending press plate rotates and slides along the radius of curvature of each of the left and right bending edges of the lower mold together with the pivot bracket while pressing the bending edges of the left and right bending portions of the plate material against each other, Mold for press.
The method according to claim 1,
Each of the tension spring portions
Wherein the bending cam is a coil spring having one end coupled to the bending cam and the other end coupled to the upper die to provide a spring force to the bending cam.

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