KR102461703B1 - Press bending machine - Google Patents

Abstract

According to an embodiment of the present invention, provided is a press bending machine which can easily bend a metal plate at a vertical angle. The press bending machine according to an embodiment of the present invention comprises: a lower mold having a mounting plate having an upper surface on which a workpiece is placed; an upper mold located above the lower mold, and moving up and down toward the lower mold; a bending punch installed at the bottom of the upper mold, and fixed to be inclined with respect to the vertical direction to press and bend the workpiece while moving together with the upper mold; and a stripper plate installed at the bottom of the upper mold, moving up and down together with the upper mold, and having an inclined through-hole formed at the same inclination angle as the bending punch to guide the bending punch.

Description

Press bending machine {Press bending machine}

The present invention relates to a press bending apparatus, and more particularly, to a press bending apparatus capable of easily bending a metal plate at a vertical angle.

A press device is a device for plastic working such as bending or shearing a material using a mold. The press machine mainly processes the material by pressing and pressing the material with a fairly large pressure in order to process the metal material which requires a large force.

In the bending process of plastic materials, when the pressure is removed after bending the material, a spring-back phenomenon occurs in which the amount of bending is reduced due to the elastic action to restore to its original shape. That is, when a plate of a metal material is bent by a press device, a spring back phenomenon to return to the original position occurs, so that precise processing is difficult with only one press.

Therefore, in the prior art, in order to vertically bend a metal plate, a preliminary press process is performed at an angle greater than a desired machining angle, and a secondary press process is required to finally process the metal plate at a desired angle. In other words, in order to bend a metal plate at a large angle, the first and second molds must be separately provided, which increases the cost of the equipment. There are also problems, and there is a need for a press device capable of solving these problems.

Republic of Korea Patent No. 10-2062109 (December 27, 2019)

The technical problem to be achieved by the present invention is to provide a press bending apparatus capable of easily bending a metal plate at a vertical angle.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The press bending apparatus according to an embodiment of the present invention for achieving the above technical problem is a lower mold having a mounting plate on which a workpiece is mounted on an upper surface thereof, an upper mold positioned on the upper part of the lower mold and moving up and down toward the lower mold , a bending punch installed at the lower end of the upper mold and fixed obliquely with respect to the vertical direction to move with the upper mold and pressurize the workpiece to bend it, and installed at the lower end of the upper mold to elevate and descend together with the upper mold and bend the bending It includes a stripper plate having an inclined through-hole formed therethrough at the same inclination angle as the inclination angle of the punch to guide the bending punch.

The bending punch may be fixed to the upper mold so as to be movable in parallel in the horizontal direction while maintaining a constant inclination angle with the vertical direction.

The bending punch may be fixed to the lower end of the upper mold in a vertical direction and convexly coupled to be movable in a horizontal direction.

The bending punch may be formed in a columnar shape having a constant circumferential shape of a cross section.

The bending punch may be fixed to a fixed shaft installed in the horizontal direction on the upper mold, and an upper end in contact with the upper mold may be formed in an arc shape centered on the fixed shaft.

The upper mold includes a driving plate that transmits a driving force for pressing the bending punch, a backing plate in close contact with the lower portion of the driving plate and pressing in contact with the upper end of the bending punch, and horizontally moving the bending punch under the backing plate It may include a punch plate to be inclined to be fixed.

The upper mold is fixed by hanging at a predetermined distance from the lower part of the upper mold, and is movably fixed so that when the lower surface is in contact with the mounting plate, the bending punch can move downward along the inclined through-hole.

According to the present invention, the metal plate can be vertically bent with only one press by pressing the metal plate obliquely using a punch fixed to have a specific inclination angle. In particular, it is possible to vertically bend one end of the horizontally placed metal plate, so that it is possible to simultaneously bend both ends. Furthermore, since the edge can be bent at the same time as the inner pressing process of the metal plate, there is an advantage that the entire press working of the metal plate can be processed at once.

1 is a schematic diagram of a press bending apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view for explaining the structure of the bending punch of the press bending apparatus of Figure 1;
3 is a view illustrating a state in which the bending punch of FIG. 2 bends the metal plate.
4 is a view showing a state in which a metal plate is bent by a bending punch according to another embodiment of the present invention.
5 is an operation diagram of the press bending apparatus of FIG. 1 .
6 is a view showing an example of use of the press bending apparatus of FIG.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, a press bending apparatus according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 6 .

1 is a schematic diagram of a press bending apparatus according to an embodiment of the present invention, and FIG. 2 is a perspective view for explaining the structure of a bending punch of the press bending apparatus of FIG. 1 .

1 and 2, the press bending apparatus 1 according to the present invention has a lower mold 100 formed with a mounting plate 110 on which a workpiece A is seated, and a lower mold 100 on the upper surface. The upper mold 200, which is positioned and moves up and down toward the lower mold 100, is installed at the lower end of the upper mold 200 and is fixed obliquely with respect to the vertical direction and moves together with the upper mold 200 to move the workpiece (A) Bending punch 300 for bending under pressure, installed at the bottom of the upper mold 200, ascending and descending together with the upper mold 200, and formed through the bending punch 300 at the same inclination angle (B) as the bending punch ( It includes a stripper plate 400 having an inclined through-hole 410 to guide the 300).

The press bending apparatus 1 according to the present invention is an apparatus for bending a metal plate-shaped workpiece (A), and can vertically bend one end of the workpiece (A). The press bending apparatus 1 is, largely, a lower mold 100 on which the workpiece A is seated, an upper mold 200 elevating from the top of the lower mold 100, and the upper mold 200 vertically along the It is composed of a bending punch 300 that descends and presses the workpiece A, and a stripper plate 400 that guides the inclination angle B of the bending punch 300 between the upper mold 200 and the lower mold 100. .

In particular, the press bending apparatus 1 according to the present invention presses and bends the work piece A in a state in which the bending punch 300 is fixed to have a constant inclination angle B. The bending punch 300 is raised and lowered together along the elevating operation of the upper mold 200, maintaining the inclination angle (B) according to the guide of the stripper plate 400 and descending to the correct position of the work piece (A) to be bent. can do. That is, the press bending apparatus 1 according to the present invention can vertically bend one end of the horizontally arranged workpiece (A) using the inclined bending punch 300 .

First, the lower mold 100 is horizontally arranged in a fixed position and functions to support the work (A). The lower mold 100 includes a fixed plate 120 fixed to the ground or a horizontal surface such as a workbench, and a mounting plate 110 on which the workpiece A is seated on the upper surface by being closely coupled to the upper end of the fixed plate 120. do. The mounting plate 110 is fixedly coupled to the fixing plate 120 so as not to move even in the press operation of the bending punch 300 . At this time, the lower fixing pin 20 passes through the mounting plate 110 and the fixing plate 120 at the same time, and functions to fix the mounting plate 110 to the fixing plate 120 .

The mounting plate 110 has a horizontal top surface, and is stably supported in close contact with the work (A) seated on the top surface. In particular, the mounting plate 110 may further include a bending mold 130 on which the section to be bent of the workpiece A is seated. The bending mold 130 is a mold in which the indentation groove 131 recessed in the shape to be bent of the workpiece A is formed. The bending mold 130 may be detachably formed on the mounting plate 110 so that it can be replaced with a different shape according to a shape to be bent. The indentation groove 131 may be indented to a depth that can accommodate the bent end when the bending punch 300 descends and bends the end of the workpiece A, and the shape of the indentation groove 131 is a bending punch If it corresponds to the shape of (300), it can be deformed as much as possible.

The upper mold 200 raises and lowers from the upper end of the lower mold 100 and functions to provide a pressing force to the bending punch 300 . The upper mold 200 includes a driving plate 210 that is driven up and down by a separate driving unit (not shown), and a backing that is closely coupled to the lower end of the driving plate 210 to support the upper surface of the bending punch 300 . It includes a plate 220 and a punch plate 230 that is closely coupled to the lower end of the backing plate 220 and is coupled to the bending punch 300 . The driving plate 210 , the backing plate 220 , and the punch plate 230 are closely fixed to each other by the upper fixing pin 10 . That is, the driving plate 210, the backing plate 220, and the punch plate 230 are integrally raised and lowered. The upper mold 200 vertically elevates with respect to the lower mold 100 . At this time, the guide pin 30 functions to guide the vertical movement position of the upper mold 200 . The guide pin 30 has an upper end fixed to the upper mold 200 and a lower end vertically moved on the lower mold 100 to prevent the upper mold 200 from being separated from the upper end of the lower mold 100 .

On the other hand, the bending punch 300 has an upper end coupled to the punch plate 230 , ascending and descending along the punch plate 230 , and functions to directly press the work piece A to the lower end. The bending punch 300 has an upper end formed in a round arc shape, and a lower end is formed in a shape to bend the workpiece (A). For example, the bending punch 300 may be formed in a structure in which a 'L'-shaped groove is indented in order to bend the workpiece (A) into a 'Z' shape. Bending punch 300 can press one end of the work (A) with the 'L'-shaped groove formed end, and simultaneously press the upper and side surfaces of the work (A) can be bent in a vertical shape at once. 1 and 3, a bending punch 300 capable of simultaneously pressing the upper surface and the side surface is required in order to form the end of the workpiece A in a flat, vertical plane, and stepwise manner. That is, the conventional vertical pressing type punch cannot bend the step structure of the 'Z'-shaped structure consisting of a plane, a vertical plane, and a plane with only one bending. With a conventional vertical pressing type punch, bending operations of at least two times are required. In addition, even with a structure in which a cam for pressing the side of the vertical bending punch is added, the pressing method also has difficulty in bending a flat surface, a vertical surface, and a flat structure because the bending punch does not perform a completely linear motion. On the other hand, the press bending apparatus 1 according to the present invention is capable of linear motion in an oblique direction, so that the upper surface and the side surface can be simultaneously pressed.

The bending punch 300 has an upper end formed in a round arc shape in contact with the backing plate 220 and may receive a descending force from the backing plate 220 . The upper end of the bending punch 300 is formed in a round arc shape, and if only the inclination angle of the inclined through-hole 410 of the stripper plate 400 is adjusted, the workpiece A can be bent at various angles.

The bending punch 300 can be adjusted in angle according to the inclination angle of the inclined through-hole 410 to be described later, so it can be accommodated in the receiving groove 231 even when the angle of the bending punch 300 is changed and the backing plate 220 To be in contact, the upper end of the bending punch 300 is formed in a round arc shape. In addition, as shown in FIG. 2 , the upper end of the bending punch 300 protrudes from the fixed shaft 310 to be unevenly coupled to the horizontal guide portion 232 of the punch plate 230 . The horizontal guide part 232 has a horizontally straight recessed shape, and fixed shafts 310 protruding from both ends of the bending punch 300 may be inserted thereinto. In addition, the bending punch 300 has a fixed shaft 310 formed in a cylindrical shape, and is rotatable based on the fixed shaft 310 , but the inclination angle by the stripper plate 400 located at the bottom of the punch plate 230 . (B) is fixed and rotation is restricted. That is, the bending punch 300 is formed so that vertical movement is limited by the backing plate 220 , rotation is limited by the stripper plate 400 , and only horizontal movement is possible along the horizontal guide part 232 . The bending punch 300 has an upper end coupled to the upper mold 200 and elevates along with the elevating and lowering of the upper mold 200, and the lower end is inserted into the inclined through-hole 410 of the stripper plate 400 and is inclined through It ascends and descends in a fixed state at an angle corresponding to the inclination angle B of the hole 410 . However, when the stripper plate 400 is completely lowered together with the upper mold 200, the upper mold 200 by the interval between the upper mold 200 and the stripper plate 400 further descends, at this time the bending punch 300 ) may move horizontally along the horizontal guide part 232 and press the work piece A beyond the inclined through hole 410 .

The bending punch 300 has a columnar shape having a specific thickness, and can bend the workpiece A by a length corresponding to the thickness of the bending punch 300 . In other words, as the thickness of the bending punch 300 increases, it is possible to bend the workpiece A having a larger area. At this time, referring briefly to FIGS. 3 and 4 , the bending punch 300 according to the present invention can be used by replacing the bending punch 300 according to the shape and size to be bent. However, the bending mold 130 may also be replaced according to the shape of the corresponding bending punch 300 . The bending punch 300 is formed in a columnar shape having a constant cross-sectional shape, so that the workpiece A can be bent straight in a straight line. Bending punch 300 is lowered while maintaining a fixed inclination angle (B), but the punch plate 230 and horizontal movement is fixed as possible. That is, the bending punch 300 is fixed in a vertical direction with respect to the punch plate 230 in a fixed state at an angle and is formed to be movable in a horizontal direction.

In particular, the bending punch 300 can provide a greater pressing force than the vertical direction by pressing the workpiece (A) in a tilted state at a specific inclination angle (B). The bending punch 300 presses the workpiece (A) in a state inclined at a specific angle along the inclined through-hole 410 of the stripper plate 400 . The bending punch 300 not only presses the workpiece A from the top down, but also presses it while pressing it in a diagonal direction, thereby reducing the risk of damage to the workpiece A and preventing a spring back phenomenon. In addition, the bending punch 300 processes the 'Z' shape of a horizontal plane, a vertical plane, and a horizontal plane in a state in which the workpiece (A) is mounted horizontally, and both ends of the workpiece (A) are folded up or doesn't go down That is, the bending punch 300 can simultaneously press both sides based on the bending line of the workpiece (A), thereby bending a complex shape at once.

The bending punch 300 bends the plate-shaped workpiece (A), but the workpiece (A) can maintain a horizontal state before and after bending. Accordingly, the press bending device 1 can press the inside of the workpiece A and bend the end at the same time, thereby reducing the volume of the device and reducing the processing time, so that the workpiece A can be efficiently processed have.

The stripper plate 400 has a plate shape with a thickness, and is located between the upper mold 200 and the lower mold 100 and moves up and down together with the upper mold 200, and the inclination angle (B) of the bending punch 300 functions as a guide. The stripper plate 400 has an inclined through-hole 410 forming the same inclination angle (B) as the inclination angle of the bending punch 300 is formed through, and the bending punch 300 passes through the inclined through-hole 410 . The bending punch 300 passing through the inclined through-hole 410 may have an end engaged with the bending mold 130 and press and bend the workpiece A toward the indentation groove 131 . In addition, the inclined through-hole 410 communicates with the receiving groove 231 of the upper end of the punch plate 230 . The lower end communicates with the indentation groove 131 of the mounting plate 110 . That is, the inclined through-hole 410 communicates the receiving groove 231 of the punch plate 230 and the indentation groove 131 of the mounting plate 110, so that the bending punch 300 can be positioned along the communicating path. have. In particular, by guiding the bending punch 300 to be inclined, it is possible to assist the bending punch 300 to press the workpiece (A) while retaining a specific inclination angle (B).

The stripper plate 400 is spaced apart from the upper mold 200 and the lower mold 100 by a predetermined distance, and moves up and down together with the upper mold 200 and the bending punch 300 . At this time, when the stripper plate 400 is completely lowered, the lower surface stops in a state in which the lower surface is in contact with the upper surface of the mounting plate 110 first, and then the upper mold 200 is further descended and the lower surface and the stripper of the upper mold 200 are lowered. The upper surface of the plate 400 is in contact. At this time, the upper mold 200 may be further lowered by the spaced interval between the punch plate 230 and the stripper plate 400 to insert the bending punch 300 into the indentation groove 131 side. That is, if the workpiece (A) is seated on the mounting plate 110, the stripper plate 400 descends to press and fix the upper surface of the workpiece (A), and then the bending punch 300 is further descended and the workpiece (A) can be pressed and bent.

The stripper bolt 40 connects between the upper mold 200 and the stripper plate 400 to prevent the stripper plate 400 from being separated with respect to the upper mold 200 . The stripper bolt 40 has a structure in which the lower end is fixed to the stripper plate 400 and the upper end is movably inserted into the inner side of the upper mold 200, the head is caught on the punch plate 230 at the upper end, and the stripper plate 400 ) to limit the descent distance. That is, the diameter of the hole into which the stripper bolt 40 is inserted is formed so that the punch plate 230 is smaller than the backing plate 220 so that the head of the stripper bolt 40 does not pass through the punch plate 230 and is caught, the punch plate Limit the maximum separation distance between the (230) and the stripper plate (400). That is, the stripper plate 400 has a structure suspended from the lower end of the upper mold 200 , and can be raised and lowered together by interlocking with the elevating operation of the upper mold 200 .

In other words, in a state in which the position of the work piece (A) is fixed with the stripper plate 400, one end of the work piece (A) exposed toward the indentation groove 131 can be pressed with a bending punch 300 to be bent. That is, the stripper plate 400 is in close contact with the upper surface of the work (A), and functions to fix and support the work (A), and at the same time can guide the descending inclination angle of the bending punch (300).

3 is a view illustrating a state in which the bending punch of FIG. 2 bends a metal plate, and FIG. 4 is a view illustrating a state in which the metal plate is bent by a bending punch according to another embodiment of the present invention.

Referring to FIGS. 3 and 4 , the press bending apparatus 1 according to the present invention can be used by replacing the bending punch 300 according to the shape to be bent of the work A. The bending punch 300 can be changed as long as it has a shape that can be coupled to the punch plate 230 with the fixed shaft 310 . At this time, according to the shape, length, angle, etc. of the bending punch 300 coupled to the punch plate 230, it is possible to replace the stripper plate 400 with a corresponding shape. Furthermore, the bending mold 130 engaged with the bending punch 300 is also replaceable, so that the bent shape of the workpiece A can be adjusted. In other words, the press bending apparatus 1 according to the present invention can be used by easily replacing the bending punch 300 , the stripper plate 400 , and the bending mold 130 according to the shape to be bent. In the present specification, examples of the shape of the bending punch 300 are shown in FIGS. 3 and 4, respectively, but the shape of the bending punch 300 is not limited thereto, and the bending punch 300 and the bending mold 130 are As long as the shape is interlocking, it can be deformed as much as possible.

First, referring to FIG. 3 , the bending punch 300 according to an embodiment of the present invention may bend one end of a horizontally arranged metal plate-shaped workpiece A in a 'Z' shape. Bending punch 300 is to process the flat plate-shaped workpiece (A) into a 'Z' shape with a step difference, it can be formed in a shape in which a 'L'-shaped groove is indented at the end for pressing the workpiece (A). have. The bending mold 130 may also have a shape corresponding to the end of the bending punch 300 and a shape in which a 'L'-shaped step is formed. That is, in order to plastically process one end of the work piece (A) into a 'Z' shape, the bending punch 300 is indented in the 'L' shape, and the bending mold 130 protrudes in the 'L' shape, and the bending punch ( 300) and the bending mold 130 can be processed by pressing the workpiece (A).

Referring to FIG. 4 , the bending punch 300-1 according to another embodiment of the present invention can bend one end of a horizontally arranged metal plate-shaped workpiece (A) into a horizontal plane and a vertical plane 'L' shape. . The bending punch 300-1 according to another embodiment of the present invention is different from the bending punch 300 according to the above-described embodiment, a more deeply depressed indentation groove ( 131-1), the bending punch 300-1 is formed to have a long length and can be fixed with a large inclination angle (C). The fixed shaft 310-1 of the bending punch 300-1 is to be formed in the same dimensions and shape as the fixed shaft 310 according to an embodiment to be compatible with the horizontal guide part 232 of the punch plate 230. can Depending on the shape and angle of the bending punch (300-1), the shape and angle of the inclined through-hole (410-1) of the stripper plate (400-1) can also be replaced with the stripper plate (400-1) of the corresponding standard do. The indentation groove 131-1 of the bending mold 130-1 may also be indented to correspond to the insertion depth of the bending punch 300.

5 is an operation diagram of the press bending apparatus of FIG. 1 .

Figure 5 (a) is an operational view before the upper mold is lowered, Figure 5 (b) is an operational view of the upper mold is lowered until the stripper plate is in contact with the mounting plate, Figure 5 (c) is the upper This is an operation diagram of the state in which all the molds are lowered and the workpiece is bent with a bending punch.

Referring to FIG. 5 ( a ), the press bending apparatus 1 according to the present invention has a bending punch 300 descending together with the upper mold 200 after seating the workpiece A on the mounting plate 110 . Bend one end of the workpiece (A) using The work piece (A) is horizontally seated on the upper surface of the mounting plate (110), and one end of the work piece (A) is located on the upper end of the bending mold (130). At this time, the lower end of the bending punch 300 descends together with the upper mold 200 and the stripper plate 400 in a state inserted into the inclined through-hole (410).

5(b), the stripper plate 400 descends together with the upper mold 200 and the bending punch 300 in a state where the inclination angle of the bending punch 300 is fixed and presses the upper surface of the workpiece (A). and fix In addition, in the stripper plate 400, the inclined through-hole 410 is in communication with the indentation groove 131 in a state in which the upper surface of the workpiece (A) is pressed, and the bending punch 300 is positioned in the indentation groove 131. Guide to one end side of the work piece (A). That is, the stripper plate 400 guides the bending punch 300 to descend while maintaining the inclination angle, and the bending punch 300 may guide the path to press the workpiece (A) at a specific inclination angle. have.

Referring to FIG. 5( c ), the bending punch 300 penetrates the inclined through-hole 410 together with the lowering of the upper mold 200 to press and bend the work piece (A). The upper mold 200 may be further lowered by the interval between the upper mold 200 and the stripper plate 400 based on the state in which the stripper plate 400 is bonded to the workpiece (A). Accordingly, the bending punch 300 protrudes toward the indentation groove 131 as the upper mold 200 descends further while being inserted into the inclined through-hole 410 to press the end of the work piece (A). Bending punch 300, since the stripper plate 400 is further descended in a fixed state, it can descend while sliding along the horizontal guide portion 232 of the punch plate 230.

6 is a view showing an example of use of the press bending apparatus of FIG.

Referring to FIG. 6 , the press bending apparatus 1 according to the present invention combines a plurality of bending punches 300 to the upper mold 200 to perform a plurality of bending with respect to one work piece (A). . In particular, the bending punch 300 according to the present invention is a device capable of vertically bending the ends of the workpiece (A), and it is possible to simultaneously bend the left and right ends. At the same time, the press bending device 1 combines not only the bending punch 300 having an inclination angle to the upper mold 200 but also the vertical punch D that is vertically disposed to perform processing in the vertical direction and the inclination direction at the same time. can Accordingly, without the need to separately perform processing in the vertical direction and processing in the diagonal direction, it is possible to simultaneously process the upper mold 200 with only one press of the upper mold 200, so that the workpiece (A) can be efficiently processed such as to improve the working speed and reduce the cost of equipment. can be processed

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention can be embodied in other specific forms without changing the technical spirit or essential features. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

1: Press bending device
10: upper fixing pin 20: lower fixing pin
30: guide pin 40: stripper bolt
100: lower mold 110: mounting plate
120: fixed plate 130: bending mold
131, 131-1: indentation groove 200: upper mold
210: driving plate 220: backing plate
230: punch plate 231: receiving groove
232: horizontal guide part 300, 300-1: bending punch
310, 310-1: fixed shaft 400, 400-1: stripper plate
410, 410-1: Inclined through hole A: Workpiece
B, C: Inclination angle D: Vertical punch

Claims (7)

a lower mold having a mounting plate on which the workpiece is mounted;
an upper mold positioned above the lower mold to move up and down toward the lower mold;
a bending punch installed at the lower end of the upper mold and fixed at an angle with respect to the vertical direction to move together with the upper mold and press and bend the workpiece; and
It is installed at the lower end of the upper mold and ascends and descends together with the upper mold and is formed through the same at the same inclination angle as that of the bending punch and includes a stripper plate having an inclined through hole for guiding the bending punch,
The upper mold includes a driving plate that transmits a driving force for pressing the bending punch, a backing plate in close contact with the lower portion of the driving plate and pressing in contact with the upper end of the bending punch, and horizontally moving the bending punch under the backing plate Comprising a punch plate for inclined fixing as possible, and a horizontal guide part formed in the shape of a straight line indented horizontally in the punch plate,
The upper end of the bending punch, the fixed shaft protrudes and is coupled to the horizontal guide portion uneven,
The mounting plate includes a bending mold in which an indentation groove is formed, which is recessed into a shape to be bent of the work piece,
The bending punch,
It is possible to rotate based on the fixed axis, so that the angle can be adjusted according to the inclination angle of the inclined through-hole, and it is inserted into the inclined through-hole and fixed at an angle corresponding to the inclined through-hole so that the inclination angle with the vertical direction is maintained constant. It is fixed to the upper mold so as to be movable in parallel in the horizontal direction,
The bending punch is raised and lowered at an angle corresponding to the inclination angle of the inclined through-hole, the end is engaged with the bending mold, and presses the workpiece toward the indentation groove,
A press bending apparatus, characterized in that the bending punch is capable of linear motion in an oblique direction, thereby simultaneously pressing the upper surface and the side surface of the workpiece. delete delete The method of claim 1,
The bending punch is a press bending device formed in a column shape with a constant circumferential shape of the cross section. 5. The method of claim 4,
The bending punch,
A press bending device in which an upper end in contact with the upper mold is formed in an arc shape with the fixed shaft as the center. delete The method of claim 1,
The stripper plate,
A press bending device in which the bending punch moves downward along the inclined through hole when the lower surface of the upper mold is spaced apart from the lower part of the upper mold and fixed to be movably fixed so that the lower surface is in contact with the mounting plate.

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