KR20100013630A - Bending device of progressive mold - Google Patents

Abstract

PURPOSE: A bending device of a progressive mold is provided to improve operating dependability of the progressive mold by discharging a product from a lower retainer, and to minimize the failure rates of the preducts by molding a base material. CONSTITUTION: A bending device of a progressive mold includes the following: an upper holder on which an upper mold retainer with a punch is mounted; a lower mold retainer(14) in which a die pocket(16) is formed on a position corresponding to the position of the punch, and equipped on an opposite position of the upper holder; a lower holder with a support spring; a supporting die(21) inserted into a die pocket with a base material; and a die assembly(20) equipping a driving die(25) curbed towards the upper holder.

Description

Bending device of progressive mold

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

In the progressive mold, the belt-like base material, which is longer than its width, is continuously transported to sequentially process to make a desired product. That is, each machining is sequentially performed in a pair of dies and punches installed corresponding to each other in the progressive molds, thereby producing a product.

In general, the progressive mold is divided into a movable side and a fixed side. The movable side has a structure that can selectively move in the fixed side direction. The movable side is provided with a punch for applying pressure to the base material and is driven together with the movable side.

The backing plate is seated on the fixed side, and a lower mold retainer is formed on the upper surface of the backing plate to form a recessed pocket. A die for molding the base material together with the press punch is seated in the pocket. The press punch and the die cooperate with each other to bend the base material transferred to the upper surface of the lower mold retainer to form a product.

However, the above-described progressive mold according to the prior art has the following problems.

The base material is formed at one time by the blow of the punch, there is a problem that a large molding error of the product molded from the base material by the spring back phenomenon.

The base material is press-fitted into the die by the punch when the base material is bent. In this case, even when the punch is raised, the base material does not fall out of the die, so that the base material is not transferred to the next process.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, provided with a movable die which is provided at a position corresponding to the bent portion of the base material to apply a force to the base material at the same time the punch hits It is to provide a bending device of the progressive mold.

Another object of the present invention is to provide a bending device of a progressive mold provided with a support pin for pushing up the product punched out of the base material in the progressive mold.

According to a feature of the present invention for achieving the object as described above, the present invention comprises: an upper mold holder equipped with an upper retainer having a punch; A lower mold holder provided to face the upper mold holder, the lower mold retainer having a die pocket formed at an upper portion at a position corresponding to the punch, and having a support spring therein; And is installed so as to be movable in the die pocket, one side is elastically supported by the support spring, the support that enters the inside of the die pocket with the base material by the punch of the punch in the state the base material is seated on the upper surface And a die assembly provided with a die, and at the same time, a movable die for bending the base material toward the upper mold holder around the punch.

A support pin is provided between the die assembly and the support spring to support the die assembly.

The die assembly includes: the support die formed in a hexahedral shape to form a body portion of the base material; The movable die is provided on both sides of the support die around the support die to form bending portions of the base material, and at one side of the bottom surface, the movable die is inclined toward the lower mold retainer; And fixed dies provided on both sides of the movable die to support both sides of the movable die, wherein one side of the support die, the movable die, and the fixed die facing the base material is formed by the support spring. In the supported state they have the same plane.

An interlocking rib is formed to protrude from the die interlocking surface of the movable die, and a guide surface is formed on the stationary die facing the die interlocking surface so that the interlocking rib is guided by the guide surface.

The support die is formed in a direction facing each other so that the guide channel extends in a direction parallel to the direction in which the support die moves. Guide your ascent.

A support die is provided between the fixed die to support the support die and the movable die in a direction orthogonal to the fixed die.

Protruding surface forming the body portion of the base material is formed on the surface facing the support die of the punch, and recessed surface forming the bending portion of the base material is formed on the surface facing the movable die.

The support spring includes a first support spring for supporting the support die at a predetermined height and a second support spring for supporting the movable die at a predetermined height, and the length of the first support spring is the second support spring. It is formed longer than the length of the spring.

In the present invention, in a state in which the base material is seated on the support die and the movable die constituting the die assembly to be installed in the lower mold retainer, the base material at the position corresponding to the support die is formed into the body part by the punching of the punch, and at the same time As a result, the base material is bent upwardly with respect to the body part to form a bending part. Therefore, since the bending shape of the base material is precisely molded, there is an effect of minimizing the product defect rate.

In the present invention, the support pin is provided under the die assembly installed in the lower mold retainer to push up the product from the base material, so that the product can be easily separated from the lower mold retainer. Therefore, since the product is smoothly discharged from the lower mold retainer, there is an effect that the operation reliability of the progressive mold is improved.

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.

1 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, Figure 2 is a main configuration of the die assembly constituting the embodiment of the present invention is shown in cross-sectional view, Figure 3 The configuration of the die assembly constituting the embodiment of the invention is shown in plan view, and FIG. 4 shows a state in which a base material is bent in a progressive mold according to the present invention in cross section.

As shown in these figures, on the lower die holder 10, the backing plate 12 and the lower die retainer 14 are mounted. The backing plate 12 and the lower mold retainer 14 are fastened together on the lower mold holder 10. The backing plate 12 may be considered to be substantially part of the lower mold retainer 14.

The backing plate 12 is formed to pass through a plurality of lifting holes (12 '). The lifting and lowering hole 12 ′ is a portion in which the first and second support springs S1 and S2 and the support pin 13 to be described below are installed.

The support pin 13 is installed in the lifting hole 12 '. The support pin 13 serves to push up the die assembly 20 to be described below to a predetermined height. A hook end 13 'is formed at one end of the support pin 13, and the hook end 13' is formed with a relatively larger diameter than other parts. The support pin 13 has the other end protruding toward the upper retainer 44 by being hooked on the hook end 13 'of the support pin 13 to be stepped inside the lifting hole 12'. The degree is regulated.

The support pin 13 is supported by a support spring S installed in the lower mold holder 10. The support spring S exerts an elastic force in a direction away from the support pin 13 with respect to the lower mold holder 10.

The support spring S is composed of first and second support springs S1 and S2. The first support spring S1 serves to support the support die 21 of the die assembly 20 to be described below at a predetermined height. The first support spring S1 is provided between the second support springs S2. The length of the first support spring S1 is longer than the length of the second support spring S2. This is to facilitate the separation of the product spun from the base material (m) from the die assembly 20 in the process of restoring the first support spring (S1) to a circular shape.

The second support springs S2 are installed at both sides of the first support spring S1, respectively. The second support spring S2 serves to support the movable die 23 of the die assembly 21 to be described below to a predetermined height.

One end of the support spring S is supported by the support pin 13, and the other end thereof is supported by the set screw 13a installed inside the lower mold holder 10. The set screw 13a is fixed to the lower mold holder 10 by fastening a male screw portion formed on an outer surface thereof to a female screw portion formed in the lower mold holder 10.

The lower mold retainer 14 has a substantially hexahedral shape, and is formed to penetrate the lifting hole 14 '. The lifting hole 14 'is formed to communicate with the lifting hole 12' of the backing plate 12, and is formed to communicate with the die pocket 16 to be described below. The lifting hole 14 'is smaller in diameter than the lifting hole 12' of the backing plate 12. The lifting hole 14 ′ provides a space in which the support pin 13 can move.

The lower retainer 14 has a substantially hexahedral shape, and a die pocket 16 is formed to be opened upwardly. A plurality of die pockets 16 may be formed in the lower mold retainer 14 at predetermined pitch intervals.

The die assembly 16 is installed in the die pocket 16. The die assembly 20 is mounted on the upper surface of the base material (m) to allow the punch 46 to be described below to process the base material (m).

The die assembly 20 includes a support die 21 for supporting the body portion m 'of the base material m, a movable die 25 for forming a bending part m' 'of the base material m, and the It consists of the fixed die 27 which guides the lifting of the movable die 25 (refer FIG. 4). As shown in FIG. 3, the support die 21 is formed to have a substantially hexahedral shape and is installed to be liftable on the die pocket 16. The support die 21 is provided at a position corresponding to the punch 46 to be described below. The support die 21 serves to support the body portion m 'of the base material m to a predetermined height. The support die 21 is supported by a support pin 13 elastically supported by the first support spring S1.

As shown in FIG. 3, the guide channel 22 is formed in the support die 21. The guide channel 22 is formed by concave in the direction facing each other. The guide channel 22 extends in a direction parallel to the direction in which the support die 21 moves. The guide channel 22 is a portion into which the guide rib 29 of the guide block 28 to be described below is inserted. That is, the guide ribs 29 of the guide block 28 are inserted into the guide channel 22 so that the support die 21 and the movable die 25 are firmly supported by the guide block 28.

Both sides of the support die 21 are provided with a movable die 25 around the support die 21. The movable die 25 is inserted into the die pocket 16 so as to be lifted and lowered. The movable die 25 is provided below the base material m and supported by the support pin 13 that is elastically supported by the second support spring S2 to bend the bending portion m 'of the base material m. ') To mold.

The die interlocking surface 25 ′ is formed at one side of the bottom surface of the movable die 25. That is, the die interlocking surface 25 ′ is formed on a surface facing the fixed die 27 to be described below. The die interlocking surface 25 ′ is formed to be inclined downward toward the lower mold retainer 14. The die interlocking surface 25 ′ serves to move the movable die 25 by interlocking with the punch 46 to be described below.

An interlocking rib 26 is formed on the die interlocking surface 25 ′. The interlocking rib 26 is formed to protrude toward the fixed die 27. The interlocking rib 26 extends by a predetermined length along the die interlocking surface 25 ′. The interlocking rib 26 is guided by the guide surface 27 'of the fixed die 27 to be described below, and serves to elevate the movable die 25.

The die pocket 16 is provided with a fixed die 27. The fixed dies 27 are provided on both sides of the movable die 25, respectively. The fixing die 27 is fixed to the lower mold retainer 14 by a bolt (B). The fixed die 27 serves to support both sides of the movable die 25, as shown in FIG.

A guide surface 27 'is formed on the fixed die 27. The guide surface 27 ′ is formed to be inclined downward toward the lower mold retainer 14. That is, the cross section of the guide surface 27 ′ is formed at an inclination angle corresponding to the cross section of the interlocking rib 26 of the movable die 25. The guide surface 27 ′ serves to allow the movable die 25 to move by the punch 46.

As shown in FIG. 3, a pair of guide blocks 28 are installed side by side in the die pocket 16. The guide block 28 is provided between the fixed die 27. The guide block 28 is formed in a substantially rectangular parallelepiped shape. The support die 21 supports the support die 21 and the movable die 25 in a direction orthogonal to the fixed die 27.

Guide ribs 29 are formed on the guide block 28. The guide ribs 29 are formed to protrude in directions facing each other. The guide rib 29 is inserted into the guide channel 22 of the support die 21 to guide the lifting and lowering of the support die 21.

The upper mold holder 40 is provided above the lower mold holder 10. The upper holder 40 is lifted by a separate device, the backing plate 42 and the upper retainer 44 is installed on the lower surface. The backing plate 42 and the upper retainer 44 are mounted together with the upper holder 40. In practice, the backing plate 42 may be regarded as part of the upper retainer 44.

The upper retainer 44 is provided with a punch 46. The punch 46 moves up and down together with the upper and lower holders 40. The punch 46 hits the base material m seated on the die assembly 20 to form a desired shape. The bottom of the punch 46 is composed of a protruding surface 46a corresponding to the surface of the support die 21 and a recessed surface 46b corresponding to the surface of the movable die 25.

The cross sectional area of the punch 46 is smaller than the cross sectional area of the support die 21. More precisely, a cross-sectional area of the punch 46 is wider than a cross-sectional area of the support die 21 so that a part of the protruding surface 46b is seated on the support die 21 to press the base material m. do.

Push pins 50 are installed through the upper holder 40, the backing plate 42, and the upper retainer 44. The push pin 50 penetrates the backing plate 42 and the upper retainer 44 in the seating space 40 ′ of the upper holder 40 so that the tip is in close contact with the lower retainer 14. To this end, the push pin 50 is supported by the elastic member 52 in the seating space 40 '. The elastic member 52 exerts an elastic force in the direction in which the push pin 50 faces the lower mold holder 10.

The operation of the bending device of the progressive mold according to the present invention as described above will be described in detail.

Progressive dies are processed sequentially to produce end products, such as terminals, while continuously transporting long strips of material. Such processing is performed by applying a force to the raw material of the punch 46 in a state where the base material m is seated on the die assembly 20.

To this end, first, the base material m is seated on the upper surface of the die assembly 20. More precisely, the base material m is seated on the upper surfaces of the support die 21 and the movable die 25. The upper mold holder 40 is moved toward the lower mold holder 10 in the direction of the arrow shown in FIG. 1. At this time, the support die 21 and the movable die 25 are in the same plane with the fixed die 27.

As such, when the upper mold holder 40 continues to move toward the lower mold holder 10, the punch 46 is also lowered by the lowering of the upper mold holder 40, thereby lowering the base material m. Will be hit. At this time, the support die 21 is pressed by the projecting surface 46a of the punch 46 to press the support pin 13, the first support spring (S1) for supporting the support pin 13 is Elastic deformation. That is, the punch 46 is injected into the die pocket 16 while overcoming the elastic force of the first support spring S1.

When the upper holder 40 continues to descend, the base material m is guided into the die pocket 16 together with the support die 21 in a state of being in close contact with the support die 21. The recessed surface 46b of the punch 46 is seated on the surface of the movable die 25. In this case, the movable die 25 is guided by the punch 46 along the guide surface 27 ′ of the fixed die 27 and the interlocking rib 26 of the movable die 25 is supported by the support pin ( 13) and the second support springs S2 supporting the support pins 13 are elastically deformed.

Accordingly, the body portion m 'of the base material m is bent upward by the movable die 25 while the base material m is bent upwardly by the support die 21. '') Is molded. That is, in a state where the body portion m 'of the base material m is supported in the direction of arrow A shown in FIG. 4 by the support die 21, the movable die 25 is in the direction of arrow B. The bending portion m '' is molded by applying a force to (m).

 As described above, since the movable die 25 exerts the same force toward the base material m at the same time as the punch 46 is hit, the bending of the base material m is made accurately.

After molding of the bending part m '', the upper holder 40 is lifted upward, and the punch 46 does not support the support die 21 and the movable die 25. As a result, the hook end 13 'of the support pin 13 is supported by the restoring force of the first and second support springs S1 and S2, and the lifting hole 12' into which the support pin 13 is inserted. Go to the edge of.

At the same time, the support die 21 and the movable die 25 are moved toward the upper holder 40 by the support pin 13. In this case, the support die 21 and the movable die 25 form the same plane and push up the product punched out from the base material m. Therefore, the support pin 13 prevents the base material m from interfering with the die assembly 20 during the transfer process.

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

1 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.

Figure 2 is a cross-sectional view showing the main portion of the die assembly constituting the embodiment of the present invention.

Figure 3 is a plan view showing the configuration of the die assembly constituting the embodiment of the present invention.

Figure 4 is a cross-sectional view showing a state in which the base material is bent in the progressive mold according to the present invention.

Explanation of symbols on the main parts of the drawings

10: Lower holder 12: Backing plate

12 ': Lifting hole 13: Support pin

13 ': hanger 14: lower retainer

16: die pocket 20: die assembly

21: support die 22: guide channel

25: movable die 25 ': die interlocking surface

26: interlocking rib 27: fixed die

27 ': guide surface 28: support die

29: guide rib 40: upper holder

42: backing plate 44: upper retainer

46: Punch 50: Push Pin

52: elastic member S: support spring

S1: 1st support spring S2: 2nd support spring

B: bolt m: base material

m ': body part m' ': bending part

Claims (8)

An upper holder provided with an upper retainer having a punch; A lower mold holder provided to face the upper mold holder, the lower mold retainer having a die pocket formed at an upper portion at a position corresponding to the punch, and having a support spring therein; And A support die movably installed in the die pocket, one side of which is elastically supported by the support spring, and a support die that enters the inside of the die pocket together with the base material by hitting the punch in a state where the base material is seated on an upper surface thereof. And a die assembly provided with a movable die for bending the base material toward the upper mold holder around the punch at the same time. The method of claim 1, A support device for bending a progressive mold, characterized in that a support pin is provided between the die assembly and the support spring to support the die assembly. The method of claim 2, The die assembly, The support die is formed in a hexahedral shape to form the body portion of the base material; The movable die is provided on both sides of the support die around the support die to form the bent portion of the base material, the movable die in which the die interlocking surface is inclined toward the lower mold retainer on one side of the bottom surface; And And fixed dies provided on both sides of the movable die to support both sides of the movable die. The one side of the support die, the movable die, and the fixed die facing the base material has the same plane in the state supported by the support spring. The method of claim 3, wherein An interlocking rib is formed to protrude from the die interlocking surface of the movable die, and a guide surface is formed on the stationary die facing the die interlocking surface so that the interlocking rib is guided by the guide surface. The method of claim 4, wherein The support die is formed in a direction facing each other so that the guide channel extends in a direction parallel to the direction in which the support die moves, and the support die is formed to protrude from the support die so as to be inserted into the guide channel to be inserted into the guide channel. Progressive die bending device, characterized in that guide the lifting. The method of claim 5, Between the fixed die is a bending device of the progressive die, characterized in that the support die for supporting the support die and the movable die in a direction orthogonal to the fixed die. The method of claim 6, A protruding surface forming a body portion of the base material is formed on the surface facing the support die of the punch, and a concave surface forming the bending portion of the base material is formed on the surface facing the movable die is formed. . The method according to any one of claims 1 to 7, The support spring includes a first support spring for supporting the support die at a predetermined height and a second support spring for supporting the movable die at a predetermined height, and the length of the first support spring is the second support spring. Progressive mold bending device, characterized in that formed longer than the length of.

Images