KR100808672B1 - Bridge die for extrusion-molding - Google Patents

Abstract

The present invention relates to a bridge die for extrusion molding, the configuration is a bridge body portion, a material inlet that penetrates both sides of the bridge body portion, and is disposed in the center of the material inlet, one side is one side surface of the bridge body portion More protruding, the other surface is a rounded shape and comprises a hollow molded part that is recessed than the other side of the bridge body portion, and connecting the hollow molded part and the bridge body portion, a plurality of connecting portions having a rounded cross section Blow molded bridge; And an outer surface formed in a die body portion, one surface of the die body portion, a first step portion corresponding to the material inlet, and disposed in the first step portion to penetrate the die body portion, and through the hollow molding portion. It is composed of an outer molding die including a molding portion, according to the above configuration, it is possible to smooth the flow of the material metal, not only reduce the breakage rate due to pressure during extrusion, but also reduce the resistance received by the material metal It can be, and there is an effect that can make the flow of the material metal uniform.

Extrusion, Bridge Die, Blow Molding, Connecting Part, Step

Description

Bridge die for extrusion-molding

1A and 1B are perspective views each showing one side and the other side of the blow-molded bridge of the bridge die for extrusion according to the preferred embodiment of the present invention.

1C is a cross-sectional view taken along line A-A of FIG. 1B;

Figure 2 is a perspective view showing the outer die of the extrusion die bridge die in accordance with a preferred embodiment of the present invention.

3 is a cross-sectional view showing an operating state of the bridge die for extrusion according to a preferred embodiment of the present invention.

4 is a perspective view of the extruded product extruded by FIG.

5 is a cross-sectional view showing a working state of a conventional die for bridge extrusion.

<Explanation of symbols for the main parts of the drawings>

10: hollow molded bridge 11: bridge body portion

12: material inlet 13: hollow molding part

14: connecting portion 20: the outer die

21: die body portion 22: first step portion

23: outer molding portion 24: second step

B: Material Metal P: Extruded Product

The present invention relates to a bridge die for extrusion molding.

A conventional bridge die for extrusion molding is shown in "Guidepost extrusion bridge die" of Korean Utility Model Registration No. 0310277.

According to the above publication, as illustrated in FIG. 5, the container 51 includes a material metal 62, and a ram 53 for pressurizing the material metal 62. One end of the ram 53 is provided with a pressure plate 52. The guide post extrusion die is installed in the outlet hole of the container 51 through which the raw material metal 62 pressed by the pressure plate 52 is pushed out. The raw material metal 62 is heated and received inside the container 51. When the ram 53 moves forward to pressurize the raw material metal 62, the raw material metal 62 is pushed out through the guide post extrusion die. The post portion 22 and the rack portion 24 are molded into a guide post 20 for a core drill. The guide post extrusion die is a hollow forming die having a core (34) protruding from the hollow forming portion (35) for forming the hollow (23) of the post portion (22) of the core drill guide post (20). 30 and an outer surface forming die 40 having a through hole 43 for forming the rack portion 24 and the groove 22a and the outer surface of the post portion 22 of the guide post 20 for the core drill. It is done.

However, the extrusion die of the above-described configuration has the following problems.

There is a problem in that the flow of the raw metal is not smooth, and the productivity of the raw metal is low due to the considerable resistance.

In addition, since the surface in which the core 34 is in contact with the raw metal is flat, and the area in contact with the raw metal is large, the pressure received by the core 34 during extrusion is very high. Therefore, there is a problem in that a large crack occurs in a connection portion between the relatively weak hollow-forming die body 31 and the core 34, so that the breakage rate is high.

The present invention has been made in order to solve the above-described problems, it is possible to smooth the flow of the material metal, can not only reduce the breakage of the connection due to the pressure during extrusion, but also can reduce the resistance received by the material metal, An object of the present invention is to provide a bridge die for extrusion molding that can uniformly flow the entire material metal.

Extrusion molding bridge die of the present invention for achieving the above object is a bridge body portion, a material inlet through which both sides of the bridge body portion is introduced into the material metal, and is disposed in the central portion of the material inlet, one side The hollow body portion protrudes from one side of the bridge body portion, and the other side is rounded to convex in the direction in which the material metal flows, and the hollow molded portion recessed from the other side of the bridge body portion, and the hollow molded portion and the bridge body portion. A blow molded bridge that connects and includes a plurality of connection portions having a rounded cross section; And an outer surface formed in a die body portion, one surface of the die body portion, a first step portion corresponding to the material inlet, and disposed in the first step portion to penetrate the die body portion, and through the hollow molding portion. It consists of an external forming die including a molding.

The method according to claim 1, wherein the first stepped portion wraps the outer molded part and further includes a second stepped portion recessed than the first stepped portion, wherein the second stepped portion extends to a portion corresponding to the connection portion. desirable.

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

1A and 1B are perspective views showing one side and the other side of the hollow bridge of the extrusion die according to the preferred embodiment of the present invention, respectively, FIG. 1C is a cross-sectional view taken along line AA of FIG. 1B, and FIG. 2. 3 is a perspective view showing the outer die of the bridge die for extrusion molding according to a preferred embodiment of the present invention, Figure 3 is a cross-sectional view showing the working state of the bridge die for extrusion molding according to a preferred embodiment of the present invention, 4 is a perspective view of the article extruded by FIG.

As shown in Figs. 1A to 3, the extrusion die for die of this embodiment is composed of a blow molding bridge 10 and an outer die 20.

As shown in FIGS. 1A to 1C, the blow molding bridge 10 includes a bridge body portion 11, a material inlet 12, a blow molding portion 13, and a connecting portion 14.

The bridge body portion 11 has a cylindrical shape, the material inlet 12 penetrates both sides of the bridge body portion 11, and the metal material is introduced therethrough. The material inlet 12 is preferably formed in a fan shape to act as a minimum resistance to the flow of the material metal.

The hollow molding part 13 is disposed at the center portion of the material inlet 12, one surface of which protrudes from one side of the bridge body part 11, and the other surface of the hollow molding part 13 is rounded so as to be convex in the direction in which the material metal is introduced. It is recessed than the other side of the body part 11.

The plurality of connection parts 14 connect the blow molding part 13 and the bridge body part 11 and have a rounded cross section. The plurality of connection parts 14 are disposed to be inclined to be spaced apart from each other in the direction in which the raw metal is introduced. In the present specification, the connecting portion 14 is composed of four, and the number of the connecting portion 14 may of course vary depending on the embodiment.

As described above, the other surface of the hollow molding part 13 is rounded so as to be convex in the direction in which the material metal is introduced, so that the pressure received by the blow molding part 13 during extrusion is reduced, so that cracks and breakage of the relatively weak connection part 14 are caused. The rate can be effectively reduced.

In addition, since the cross section of the connecting portion 14 is rounded, it is possible to reduce the pressure received by the connecting portion 14 during extrusion, thereby reducing the breakage of the connecting portion 14 and smoothly flowing the material metal.

On the other hand, as shown in FIG. 2, the outer die 20 includes a die body 21, a first step portion 22, and an outer mold 23.

The die body portion 21 has a cylindrical shape to correspond to the bridge body portion 11, and the first step portion 22 is recessed on one surface of the die body portion 21 to correspond to the material inlet 12. Formed.

The outer molding part 23 is disposed in the first step part 22 to penetrate the die body part 21, and the hollow molding part 13 is penetrated.

The outer molded part 23 and the hollow molded part 13 are formed to have the same shape as the final molded product.

Here, it is preferable that the first step part 22 further includes a second step part 24 that surrounds the outer molding part 23 and is recessed than the first step part 22. Preferably, the stepped portion 24 extends to the portion corresponding to the connecting portion 14.

In the drawing of this specification, the part corresponding to the connection part 14 of the 2nd step part 24 is shown as 24a, and the other part is shown as 24b.

As described above, the second stepped portion 24 recessed from the first stepped portion 22 is formed in the outer die 20 so that the area rapidly increases from the first stepped portion 22 to the outer molded portion 23. This reduces the resistance of the material metal to receive a lot of resistance, the area gradually decreases gradually from the first step portion 22 to the second step portion 24 to the outer molding portion 23 in order to reduce the resistance received by the material metal Can be.

In addition, since the second stepped portion 24 is formed to extend to the portion corresponding to the connecting portion 14, the portion 24a, which is a portion corresponding to the connecting portion 14 of the second stepped portion 24, has a large area so that the material metal flows. This fast, 24b portion other than 24a of the second stepped portion 24 has a narrow area, so that the material metal flows slowly, and as a result, the material metal flows uniformly throughout the second stepped portion 24. . Therefore, since the flow of the raw metal can be maintained uniformly by the second stepped portion 24 extended to the portion corresponding to the connecting portion 14, the breakage of the relatively weak connecting portion 14 can be reduced, and the uniformity of the raw metal can be reduced. The deformation of the aluminum product extruded by one flow can be reduced, and the production speed can be improved.

Further, when the material metal flows faster in the 24b part than in the 24a part of the second step part 24, the area of the 24b part is reduced to slow the flow of the material metal, and conversely, the material metal in the 24b part compared to the 24a part. If the flow rate is slow, the area of the 24b part can be expanded to control the flow of the material metal faster. Accordingly, the shape of the second step part 24 may be changed according to the flow of the raw metal, and the shape of the second step part 24 shown in the drawings of the present specification is only one embodiment.

Hereinafter, the operation of the extrusion die of the present invention configured as described above is as follows.

Referring to FIG. 3, the extruder includes a container 30 accommodating the raw material metal B, a ram 31 for pressurizing the raw material metal B, and one end of the ram 31. The pressing plate 32 which directly presses (B) is provided.

Meanwhile, the hollow molding part 13 of the blow molding bridge 10 passes through the outer molding part 23 of the outer molding die 20, and the material inlet 12 and the outer molding die of the blow molding bridge 10 are formed. The edges of the blow molding bridge 10 and the outer die 20 are brought into close contact with each other so that the first stepped portions 22 of 20 are connected to each other.

The hollow forming bridge 10 and the outer forming die 20 coupled as described above are installed in the outlet hole 30a of the container 30 through which the raw material metal B is pushed out.

When the material metal B accommodated in the container 30 is heated, and the material metal B is pressurized by the pressing plate when the ram is advanced, the material metal B is the material inlet 12 of the blow molding bridge 10. And extruded through the outer mold 23 of the outer die 20.

An example of an extruded product extruded by an extruder is shown in FIG. 4, and the extruded product P shown in FIG. 4 is merely an example, and according to the shapes of the hollow molding part 13 and the outer molding part 23. Can vary.

In the above, the plurality of connecting portions 14 connecting the blow molding portion 13 and the bridge body portion 11 of the blow molding bridge 10 are inclined to be open to each other in the direction in which the material metal (B) is introduced, the material inlet The flow of material metal (B) flowing through (12) is less resistant.

In addition, the other surface of the hollow molding portion 13 is rounded, and the cross section of the connecting portion 14 is rounded, so that the breakage of the connecting portion 14 due to pressure during extrusion can be reduced, and the material metal (B ) Can be flowed smoothly.

In addition, the second stepped portion 24 recessed from the first stepped portion 22 is formed in the outer die 20 so that the area rapidly increases from the first stepped portion 22 to the outer molded portion 23. By reducing the material metal (B) to receive a lot of resistance, the area from the first step portion 22 to the second step portion 24 back to the outer molding portion 23 gradually decreases the area of the material metal (B) This can reduce the resistance received.

Furthermore, since the second step portion 24 extended to the connecting portion 14 and the corresponding portion can uniformize the entire flow of the material metal, the deformation defect of the extruded aluminum product can be reduced, and the production speed can be improved. have.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications of the present invention without departing from the spirit and scope of the invention described in the claims below. Or it may be modified.

According to the extrusion die of the present invention as described above, there are the following effects.

The other side of the hollow molded part is rounded so as to be convex in the direction of inflow of the raw metal, and the cross section of the connecting part is rounded to reduce the breakage of the connecting part due to pressure during extrusion and smoothly flow the raw metal. can do.

In addition, by forming a second stepped portion recessed than the first stepped portion in the outer die, the area is rapidly reduced from the first stepped portion to the outer molded portion, thereby preventing the material metal from receiving a lot of resistance. The area gradually decreases from the second step to the outer molded part in order to reduce the resistance of the material metal.

Furthermore, the second stepped portion extended to the connection portion and the corresponding portion can make the entire flow of the material metal uniform, so that the deformation defect of the extruded aluminum product can be reduced, and the production speed can be improved.

Claims (2)

Bridge body part, A material inlet that penetrates both side surfaces of the bridge body part and introduces a material metal; It is disposed in the center portion of the material inlet, one surface is protruding than one side of the bridge body portion, the other surface is round shaped so as to be convex in the direction in which the material metal flows in the hollow molded portion is recessed than the other side of the bridge body portion Wow, A blow molded bridge connecting the blow molded part and the bridge body part and including a plurality of connection parts having a rounded cross section; And Die body part, A first stepped portion formed on one surface of the die body portion and corresponding to the material inlet; And an outer surface forming die disposed in the first step portion and including an outer surface forming portion penetrating the die body portion and through which the hollow molding portion penetrates. The method of claim 1, The first stepped portion wraps around the outer molded part, and further includes a second stepped portion recessed than the first stepped portion, wherein the second stepped portion is extended to a portion corresponding to the connection part. Forming bridge die.

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