KR20090132364A - Bending device of progressive mold - Google Patents

Abstract

PURPOSE: A bending device of a progressive mold is provided to obtain accurate bent shape of a material by holding the material with a wider support area. CONSTITUTION: A bending device of a progressive mold comprises lower and upper die holders(50,70) with lower and upper die retainers(55,74), a drive punch(80), a movable cam(65), a movable die(60), and a shape punch(90). The upper die holder ascends and descends relative to the lower die holder. The drive punch is driven along with the upper die holder. The movable cam interlocks with the drive punch to move across the direction of the drive punch. The movable die interlocks with the movable cam to selectively protrude above the lower die retainer. The shape punch is driven along with the upper die holder. When the movable die protrudes out of the retainer, the shape punch strikes the movable die to shape a material.

Description

Bending device of progressive mold

The present invention relates to a progressive mold, and more particularly, to a bending device for bending a material by pressing the material between the punch and the die in a progressive mold that is processed sequentially while supplying the material continuously to produce the desired product.

Progressive mold is a product of the desired shape by pressing the material simultaneously between a plurality of punches and dies while continuously conveying a long strip of material by a predetermined pitch.

1 is a cross-sectional view showing a configuration of a preferred embodiment of a bending device of a progressive mold according to the prior art, Figure 2 is shown in a cross-sectional view of the lower mold holder and the upper mold holder in the prior art, Figure 3 The finished material is shown in cross section by the bending device.

According to this, the backing plate 12 and the lower mold retainer 14 are fixedly mounted on the lower mold holder 10. One side of the lower mold retainer 14 is formed with a guide hole (14 '). In addition, the lower mold retainer 14 is formed with a die pocket 15, the die pocket 15 is provided with a die 16, which is a portion on which the material (M) is seated. The upper surface of the die 16 forms the same plane as the upper surface of the lower mold retainer 14 and corresponds to the body portion forming surface 16a corresponding to the body portion M1 of the material M, and the lower mold retainer 14. It is composed of a material seating surface 16b protruding a predetermined height from the surface of the one end of the material (M), which will later be a bending portion (M2) is seated.

The lifter 18 is provided to be elevated by penetrating the backing plate 12 and the lower mold retainer 14. The lifter 18 is provided with an elastic force in a direction protruding from the lower mold retainer 14 by the elastic member 19 installed in the lower mold holder 10. The upper surface of the lifter 18 is the same height as the material receiving surface 16b to support the other end of the material (M). The material M is supported by the material seating surface 16b and the lifter 18 so as to be spaced apart from the lower mold retainer 14 by a predetermined height.

On the other hand, a backing plate 22 and an upper retainer 24 are provided on the lower surface of the upper holder 20. The upper holder 20 is lifted by a separate device. The punch 26 penetrates the upper mold retainer 24. The bottom of the punch 26 is formed in a shape to be joined to the die 16. That is, the bottom surface of the punch 26 corresponds to the body shaping surface 16a of the die 16 and the protruding surface 26a protruding relatively and the recessed surface 26b corresponding to the material seating surface 16b. It is composed of

The movable stripper 30 is mounted on the upper retainer 24 to move up and down with the upper holder 20, and presses and fixes the edge of the material seated on the die 16.

The guide rod 33 installed to penetrate the upper mold retainer 22 is inserted into the guide hole 14 ′ formed in the lower mold retainer 14 to guide the lifting of the upper mold holder 20.

However, there is a problem in the bending device of the progressive mold according to the prior art as described above.

According to the prior art, in order to bend the material M, the punch 26 is supported by the die 16 and the lifter 18 at a predetermined height on the lower mold retainer 10. By hitting the body portion (M1) of the material (M) to form a bending portion (M2) on the material (M). However, since the material M is supported only by the die 16 and the lifter 18 as described above, the support area of the material M is small so that the material M is not stably fixed when hitting the punch 26. Therefore, there was a problem such as bending the material (M) in an undesirable direction. In particular, when bending long thin pin-shaped material, a lot of deformation of the material occurs, which causes a defect in the product.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide a bending device for a progressive mold configured to bend the process in a state where the material is in close contact with the lower mold retainer.

According to a feature of the present invention for achieving the object as described above, the present invention is a lower mold holder provided with a lower mold retainer; An upper mold holder provided above the lower mold holder and relatively lifted relative to the lower mold holder, and provided with an upper mold retainer; A driving punch fixed to an upper retainer of the upper holder and integrally operated with the upper holder; A movable cam movably installed in the lower mold retainer and interlocked with the driving punch to move in a direction orthogonal to the moving direction of the driving punch; A movable die mounted to the lower mold retainer and selectively protruding upward from the lower mold retainer in association with the movable cam; And a shape punch fixed to the upper mold retainer of the upper mold holder and integrally operated with the upper mold holder to form a material by striking the movable die when the movable die protrudes from the lower mold retainer.

A die driving surface is inclined at the front end of the movable cam, and the movable cam lifts and moves the movable die by interlocking with a die interlocking surface formed on one side of the bottom of the movable die. .

The first support ground and the second support ground are formed stepwise at the tip of the movable cam, and the die driving surface includes a first die driving surface inclined at the tip of the first support ground, and the first support ground. And a second die driving surface formed to be inclined at a portion to which the second supporting ground is connected.

The bending die forming surface and the recessed surface, the body supporting surface, and the protruding surface are respectively formed on the movable die and the shape punch, and the cross section of the shape punch is formed larger than the cross section of the movable die. A portion of the protruding surface hits the upper surface of the fixed die which is installed adjacent to the movable die.

Each of the movable die and the movable cam is provided with a return spring so that the movable die and the movable cam are restored to their original positions by the return spring.

The rear end of the movable cam is provided with a cam interlocking surface is characterized in that it is interlocked with the drive inclined surface provided at the tip of the drive punch.

In the bending device of the progressive mold according to the present invention, the following effects can be obtained.

According to the present invention, molding is performed in a state where a relatively large area of the raw material is stably supported. That is, in the present invention, the bending portion is formed by moving the movable die at the time of punching while the raw material is not spaced high from the lower mold retainer and most of the raw material is on the lower mold retainer. Therefore, by forming a shape in a state in which the fixing of the material is well maintained by widening the support area of the material, the bending shape of the material is accurately molded and the product defect rate is minimized.

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

4 is a cross-sectional view showing the configuration of a preferred embodiment of the bending device of the progressive mold according to the present invention.

As shown in the figure, the lower mold backing plate 52 and the lower mold retainer 55 are mounted on the lower mold holder 50. The lower mold backing plate 52 and the lower mold retainer 55 are fastened together on the lower mold holder 50. The lower mold backing plate 52 may be considered to be substantially part of the lower mold retainer 55. An inclined surface 53 is formed at a portion of an outer surface of the lower backing plate 52 that meets the shape punch 90 to be described later.

The lower mold retainer 55 is formed by passing through a die pocket 56 into which the movable die 60 to be described later is inserted. A cam insertion chamber 57 is formed between the lower mold backing plate 52 and the lower mold retainer 55 to move the movable cam 65 to be described later. The cam insertion chamber 57 is in communication with the die pocket 56. And the lower retainer 55 is formed with a guide hole 59 is inserted into the guide bar 78 to be described later.

The movable die 60 is inserted into the die pocket 56 of the lower mold retainer 55 so that the movable die 60 can be elevated. The movable die 60 is inserted into the die pocket 56 and is below the raw material M. Then, the movable die 60 protrudes upward of the lower mold retainer 55 by the movable cam 65 to be described later. It serves to shape the bending portion (M2) of the). The lower portion of the movable die 60 is provided with a return spring 60S that provides an elastic force so that the movable die 60 can be restored to its original position.

The die interlocking surface 61 is formed to be inclined at one side of the bottom surface of the movable die 60. And the upper surface of the movable die 60 is a bending portion forming surface (62a) to form the bending portion (M2) of the material (M) and a body supporting surface for supporting the body portion (M1) of the material (M) 62b).

The cam insertion chamber 57 is provided with a movable cam 65 to be movable. Cam return spring (65S) is installed at one end of the movable cam (65), the cam return spring (65S) serves to provide an elastic force to restore the movable cam (65) to its original position.

The first support ground 66 and the second support ground 67 are formed stepwise at the tip of the movable cam 65. The first and second supporting surfaces 66 and 67 support the movable die 60 to regulate the rising height of the movable die 60. A first die driving surface 68a is formed to be inclined at the tip of the first supporting ground 66, and a second die driving surface is formed at a portion where the first supporting ground 66 and the second supporting ground 67 are connected. 68b is formed to be inclined. The first and second die driving surfaces 68 and 69 interlock with the die interlocking surfaces 61 to elevate the movable die 60.

At the rear end of the movable cam 65, the cam interlocking surface 69 is formed to be inclined. The cam interlocking surface 69 serves to move the movable cam 65 by interlocking with the driving punch 80 to be described below. The movable cam 65 is operated in a direction orthogonal to the moving direction of the drive punch 80.

The lower mold retainer 55 is provided with a fixed die 69 '. The fixing die 69 'serves to support one side of the body portion M1 of the material M. The fixed die 69 'is provided adjacent to the movable die 60. One end of the fixed die 69 ′ is a portion hit by one side of the shape punch 90 by the lowering of the upper holder 70, which will be described later.

The upper mold holder 70 is installed on the lower mold holder 50 to face the lower mold holder 50. An upper backing plate 72 and an upper retainer 74 are installed on the lower surface of the upper holder 70. The upper holder 70 is lifted by a separate device. The upper backing plate 72 and the upper retainer 74 are mounted together on the upper holder 70. In fact, the upper backing plate 72 may be regarded as part of the upper retainer 74.

The lower portion of the upper retainer 74 is provided with a movable stripper 75 for pressing and fixing one side of the material (M). In addition, a pilot pin 76 is installed through the upper retainer 74 and the movable stripper 75. The pilot pin 76 is inserted into a pilot hole (not shown) formed in the material (M) serves to fix the position of the material (M).

And the guide rod 78 is installed in the upper retainer 74, the guide rod 78 is inserted into the guide hole 59 formed in the lower retainer 55 to guide the lifting of the upper holder 70 It plays a role.

On the other hand, the upper retainer 74 is provided with a drive punch (80). The driving punch 80 is integrally driven with the upper holder 70. The driving punch 80 has a driving inclined surface 82 is formed. The driving inclined surface 82 is to allow the movable cam 65 to move in the left and right directions (arrows in FIG. 3) with reference to the drawing by lifting and lowering the driving punch 80. The driving inclined surface 82 has an inclination corresponding to the cam interlocking surface 69.

A shape punch 90 is installed at a position corresponding to the movable die 60 of the upper retainer 74. The bottom of the shape punch 90 is composed of a concave indentation surface 93a corresponding to the bending portion forming surface 62a of the movable die 60 and a protruding surface 93b corresponding to the body supporting surface 62b. .

The cross sectional area of the shape punch 90 is wider than the cross sectional area of the movable die 60. More precisely, a cross-sectional area of the shape punch 90 is formed wider than that of the movable die 60 so that a part of the protruding surface 93b is actually seated on the lower mold retainer 55 to press the material. .

Hereinafter, the operation of the progressive mold according to the present invention having the configuration as described above in detail.

Progressive dies are processed sequentially to produce end products, such as terminals, while continuously transporting long strips of material.

5 is a cross-sectional view of the time point for bending the material in the bending device of the progressive mold according to the present invention.

An operation process of the bending device of the progressive mold will be described with reference to FIG. 4.

First, in FIG. 4, the upper mold holder 70 is relatively raised with respect to the lower mold holder 50. In this state, the material (M) of the work object is transferred to the upper portion of the movable die 60. The movable cam 65 is in a state where the portion where the cam interlocking surface 69 is formed protrudes outward from the lower mold retainer 55. In addition, the bottom surface of the movable die 60 is seated on the second support surface 67 of the movable cam 65 so that the upper surface of the movable die 60 does not protrude from the upper surface of the lower mold retainer 55. That is, the movable die 60 is located below the material (M).

At this time, when the upper holder 70 begins to descend, the pilot pin 76 is first inserted into a pilot hole (not shown) formed on one side of the material (M) to position the material (M). Then, the movable stripper 75 presses one side of the material M to fix the material M on the lower mold retainer 55. That is, as shown in FIG. 4, the material M is supported in close proximity to the lower mold retainer 55 while maintaining a flat state.

Next, when the upper holder 70 continues to descend, the driving inclined surface 82 of the driving punch 80 is in close contact with the cam interlocking surface 69 of the movable cam 65 and the movable cam 65. This starts to move forward. That is, the movable cam 65 is inserted into the cam insertion chamber 57 while overcoming the elastic force of the cam return spring 65S.

When the movable cam 65 moves forward, the movable die 60 is linked with the movable cam 65 to ascend.

When the movable die 60 is raised to meet the shape punch 90, the body die surface 62b of the movable die 60 forms the same plane as the upper surface of the lower mold retainer 55. At this time, a part of the protruding surface 93b of the shape punch 90 is seated on the fixing die 69 '. This state is shown in FIG. The movable die 60 is supported by the first supporting surface 66 of the movable cam 65 and protrudes above the lower mold retainer 55.

Thus, the body portion M1 of the material M is supported by the body portion supporting surface 62b of the movable die 60 and the protruding surface 93b of the shape punch 90. (M) is bent upward by the movable die 60 to form the bending portion M2.

After the bending of the bending part M2 is performed, the upper holder 70 is raised upward, and the driving punch 80 no longer supports the movable cam 65 so that the cam return The movable cam 65 comes out of the cam insertion chamber 57 by the restoring force of the spring 65S. Then, since the movable cam 65 no longer supports the movable die 60, the movable die 60 is also lowered by the restoring force of the die return spring 60S. In this case, the material M is in a state in which the body portion M1 is in close contact with the upper surface of the lower mold retainer 55, and the bending portion M2 floats a predetermined height on the upper surface of the lower mold retainer 55.

According to the present invention, the raw material M is placed on the lower mold retainer 55 so that a substantial portion of the body portion M1 is pressed and fixed by the movable stripper 75, and the portion which is actually formed is moved upward. A bending part M2 is formed between the die 60 and the shape punch 90. Therefore, since a substantial part of the material M is fixed on the fixed die 69 'and the lower mold retainer 55, the bending of the material M is made accurately.

The scope of the present invention is not limited to the embodiments described above, but is defined by what is stated in the claims, and various changes and modifications can be made within the scope of the claims by those skilled in the art. It is self evident.

1 is a cross-sectional view showing a bending device of a progressive mold according to the prior art.

2 is a cross-sectional view showing a lower holder and the upper holder in the prior art closed state.

Figure 3 is a cross-sectional view showing a material completed by molding the prior art bending device.

Figure 4 is a cross-sectional view showing a preferred embodiment of the bending device of the progressive mold according to the present invention.

5 is a cross-sectional view showing an operating state at the time the material is bent in the bending device of the progressive mold according to the present invention.

Explanation of symbols on the main parts of the drawings

50: lower mold holder 55: lower mold retainer

57: cam insertion chamber 60: movable die

62a: bending part forming surface 62b: body supporting surface

65: movable cam 66, 67: first and second ground

68a and 68b: first and second die driving surfaces 69: cam interlocking surfaces

69 ': fixed die 70: upper holder

74: upper retainer 75: movable stripper

80: driving punch 82: driving slope

90: shape punch

Claims (6)

A lower mold holder provided with a lower mold retainer; An upper mold holder provided above the lower mold holder and relatively lifted relative to the lower mold holder, and provided with an upper mold retainer; A driving punch fixed to an upper retainer of the upper holder and integrally operated with the upper holder; A movable cam movably mounted to the lower mold retainer and interlocked with the driving punch to move in a direction orthogonal to a moving direction of the driving punch; A movable die mounted to the lower mold retainer and selectively protruding upward from the lower mold retainer in association with the movable cam; The progressive mold bending device is fixed to the upper mold retainer of the upper mold holder and integrally operated with the upper mold holder, and includes a shape punch for forming a material by striking the movable die when the movable die protrudes from the lower mold retainer. . 2. The movable cam of claim 1, wherein a die driving surface is inclined at an end of the movable cam, and the movable cam is interlocked with a die interlocking surface formed on one side of a bottom surface of the movable die. Progressive mold bending device characterized in that the lifting device. According to claim 2, The first cam ground and the second ground is formed on the front end of the movable cam stepped, The die driving surface includes a first die driving surface which is formed to be inclined at the tip of the first supporting ground, and a second die driving surface which is formed to be inclined at a portion where the first supporting ground and the second supporting ground are connected. Progressive mold bending device. According to any one of claims 1 to 3, The movable die and the shape punch is formed with a bending portion forming surface and recessed surface, the body supporting surface and the protruding surface, respectively, The cross section of the shape punch is larger than the cross section of the movable die, so that a part of the protruding surface of the shape punch hits the upper surface of the fixed die which is installed adjacent to the movable die. The bending device of a progressive mold according to claim 4, wherein the movable die and the movable cam are respectively provided with return springs so that the movable die and the movable cam are restored to their original positions by the return springs. 6. The bending device of a progressive mold according to claim 5, wherein a cam interlocking surface is provided at a rear end of the movable cam and interlocks with a driving inclined surface provided at the front end of the driving punch.

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