KR101143119B1 - Method for manufacturing die using in hydroforming and apparatus for fixing cylinder therein - Google Patents

Abstract

The upper and lower mold dies for hydroforming are formed of a soft zinc alloy to facilitate machinability and machinability. The die and die of a soft material are made of a soft material, The lower end of the cylinder is fixed to the lower plate, and when the upper plate is lowered, the cylinder is fixed to a separate support object to which the upper end is fixed.

Mold Die, Hydroforming, Fixture, Supporting Bar, Cylinder, Processability, Machinability

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of manufacturing a hydroforming die,             

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view for fixing a cylinder of a hydroforming die according to the prior art; FIG.

Figure 2 is a schematic view for fixing a cylinder of a hydroforming die according to the present invention;

Figure 3 is a perspective view of the support of Figure 2 according to the present invention; And

4 is a cross-sectional view showing a main part of a cylinder for hydroforming according to the present invention, which shows a fixed state of a cylinder using a support.

Description of the Related Art

10: lower plate 13: lower mold die

20: upper plate 23: upper mold die

30: Support 40: Bolt

50: Fixing piece 60: Cylinder

The present invention relates to a method of manufacturing a mold die used in a hydroforming process and a cylinder fixing device using the same, and more particularly, to a mold material made of a zinc alloy, which is a soft material, The present invention relates to a method for manufacturing a mold for a hydroforming die and a device for fixing the cylinder to the cylinder.

In recent years, each automobile manufacturer has been racing to manufacture components that are inexpensive, lightweight, and relatively high in strength compared to conventional products in applying parts to automobiles. Among the methods for manufacturing such lightweight high-strength parts, the hydroforming method is the most widely used method in recent years.

At present, molding by the hydroforming method is generally performed in the order of bending, preforming, hydroforming, and post-processing. In the bending process, the tube is bended by using a CNC bending machine. In the preforming process, the tube is molded so that the tube can be attached to the hydroforming mold while being as close as possible to the product shape designed using a general stamping press. In the process, a tube is mounted in a cavity in a hydroforming mold to close the mold, the fluid is filled in the tube, and a predetermined pressure is applied to mold the final product.                         

FIG. 1 is a schematic view for fixing a cylinder of a hydroforming die according to the related art, wherein a material tube (not shown) is placed in a high-strength steel material mold 100 and a hydraulic pressure is applied to the inside of the material through a cylinder The material tube is expanded so as to coincide with the molding surface 110 of the mold 100. In addition, the cylinder 120 is directly fixed to the mold 100 by applying a high pressure of about 300 bar to the material during the hydroforming process. At this time, the cylinder 120 is fixed to a predetermined screw At least two tab rods 121 are fastened and fixed to the grooves and the like, and then the cylinders 120 are fixed along the tab rods 121.

However, since the mold die constructed as described above is formed of high-strength steel, it is difficult to form screw grooves on the surface of the mold, and even if screw grooves are formed, screw grooves are damaged It is difficult to shorten the production time and the machining time of the casting because of the use of the high strength tool steel such as forged steel.

It is an object of the present invention to provide a method for manufacturing a mold for a hydroforming die that is excellent in workability and machinability to shorten a manufacturing time and the like

Another object of the present invention is to provide a mold die made of a zinc alloy material capable of shortening a mold making time and to provide a cylinder fixing device that can be smoothly mounted on the mold die.

It is still another object of the present invention to provide a hydroforming cylinder fixing device capable of smoothly fixing a cylinder to a die for a hydroforming made of a zinc alloy.

Still another object of the present invention is to provide a hydroforming cylinder fixing device capable of smoothly fixing a cylinder without damaging the mold die by opening a predetermined support on a hydroforming mold die made of a zinc alloy have.

According to an aspect of the present invention, there is provided a method of manufacturing an upper and a lower mold die for hydroforming, wherein the upper mold die and the lower mold die for hydroforming are formed of a soft zinc alloy, So that cutting performance is facilitated.

Therefore, the mold die formed of the zinc alloy material according to the present invention is excellent in machinability and workability for forming the blank of the mold die in accordance with the shape of the part, so that the manufacturing time is significantly shortened compared with the conventional die made of high strength steel It is effective.

However, the mold die made of the above-described zinc alloy has easy machinability and processability. However, when injecting the fluid into the mold die at a high pressure, there is a problem that it is difficult to fix the cylinder directly to the die.

Accordingly, the present invention provides a method of manufacturing a semiconductor device comprising a lower mold die of a zinc alloy material fixed on a lower plate, a zinc alloy material fixed to a predetermined upper plate which is vertically moved at an upper portion of the lower mold die, Wherein the lower end of the cylinder is fixed on the lower plate, and when the upper plate is lowered, the cylinder is fixed to a predetermined support And is fixed to the object.

Accordingly, since the cylinder is not directly fixed to the mold die made of the zinc alloy according to the present invention, but the cylinder is fixed to a separate support object, the rigid and tight cylinder fixing can be achieved as in the conventional method.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Further, if it is determined that the gist of the present invention may be unnecessarily blurred, detailed description thereof will be omitted.

FIG. 2 is a schematic view for fixing a cylinder of a hydroforming die according to the present invention, showing a lower plate, a lower mold die fixed on the lower plate, and a support for fixing the cylinder.

As shown in Fig. 2, a lower mold die 13 is provided on the lower plate 10. As shown in Fig. The lower mold die 13 is engaged with an upper mold die (23 in FIG. 4) to form a product shape for positioning the material and performing the hydroforming process. The lower mold die 13 and the upper mold die are formed of a zinc alloy to facilitate machinability and workability. The mold die 13 contains at least 90 wt% zinc relative to the total weight percent. More specifically, it contains 90% by weight of zinc, 4% by weight of aluminum, 3% by weight of copper and 3% by weight of other substances based on the total weight%. The other materials may include magnesium, lead, cadmium, and the like. Therefore, since the mold die, which is mostly composed of zinc, is easier to cut and process than conventional high strength steels, it is possible to manufacture a die having a blank of a desired product shape in a shorter time.

Thereafter, the cylinder 60 is fixed to one side of the mold die. The nozzle (62 of FIG. 4) of the cylinder 60 is associated with the blank of the mold die and injects a certain pressure (for example, 300 bar) of fluid. That is, the hollow tube is placed between the upper and lower mold dies, and the material tube is expanded to a size of the blank formed in the die by injecting a fluid having a predetermined pressure into the tube to form a product .

However, in the present invention, since the die is formed of a zinc material, it is impossible to fix the cylinder directly to the die. Therefore, a predetermined support is fixed on the lower plate on which the lower mold die is fixed, and the cylinder is fixed to the fixed support, so that the fluid injection operation of the cylinder can be performed smoothly.

FIG. 3 is a perspective view showing the support of FIG. 2 according to the present invention, and FIG. 4 is a cross-sectional view of a main part showing a fixed state of a cylinder using a support in a die for hydroforming according to the present invention.

The support base 30 is formed in a rectangular shape and may be formed of the same material as S45C. A nozzle through hole 32 is formed at the center for allowing the nozzle 62 of the cylinder 60 to penetrate and communicate with the blank of the mold die 13. Guide ribs 33 and 34 having a predetermined length in the width direction are protruded from the lower end and the upper end of the support base 30, respectively. The guide ribs 33 and 34 have a lower guide rib 34 for contacting the upper plate 20 for fixing the upper mold die 23 and a lower guide rib 34 for contacting the lower plate 10 for fixing the lower mold die 23. [ And is referred to as a guide rib 33. Therefore, a lower guide groove 11 on which the lower guide rib 33 is seated is formed on a surface of the lower plate 10 where the support plate 30 is brought into contact. When the lower guide rib 33 of the support 30 is seated in the lower guide groove 11 formed on the lower plate 10, the support 30 is temporarily fixed to the lower plate 10 . Thereafter, a fixing means for fully fixing the support base 30 is provided.

The fixing means may be formed on the lower plate 10 and support the support member. One end of the fixing piece 50 is fixed on the fixing slit 35 formed on the opposite side of the supporting table 30 in the width direction And a predetermined bolt through hole 52 is formed in another portion of the fixing piece 50 which is not inserted into the fixing slit 35 of the support base 30 so that the bolt 40 And is fastened to the bolt fastener 12 on the lower plate 10. The fixing piece 50 is tightly fastened to the lower plate 10 by a predetermined bolt 40 and one end 51 thereof is inserted into the fixing slit 35 of the supporting table 30, 30) is prevented from flowing. Thereafter, two tap rods 61 are fixed to the support 30, and then the cylinder 60 is inserted and fixed to the tap rod 61, thereby completing preparation of the hydroforming process. In addition, at least one of the fixing pieces 50 is installed to fix the supporting table 30 tightly. Preferably, two or more can be installed at equal intervals.

4, when a workpiece tube (not shown) is positioned on the lower mold die 13 and the upper plate 20 is lowered, the upper and lower mold dies 23, The upper guide ribs 34 of the support table 30 are inserted into the upper guide grooves 21 formed on the surface of the plate 20 so that the support table 30 is supported by the upper and lower plates 20, So that the hydroforming operation of the cylinder 60 in which the high pressure acts is maintained smoothly.

Obviously, there are many ways within the scope of the claims to modify these embodiments. In other words, there can be many other ways in which the invention may be practiced without departing from the scope of the following claims.

The hydroforming mold die according to the present invention uses a relatively soft zinc alloy as a material and resolves the problems caused by the tightening of the cylinder through a predetermined support, There is an effect that the moldability can be improved by utilizing the slip property of the material.

Claims (8)

A method of manufacturing an upper and lower mold die for hydroforming, Wherein the upper mold die and the lower mold die for hydroforming are formed of a soft zinc alloy to facilitate processability and machinability. The method according to claim 1, Wherein the upper and lower mold dies comprise 90 wt% zinc, 4 wt% aluminum, 3 wt% copper, and 3 wt% of other materials based on the total weight percent. delete A lower mold die of a zinc alloy material fixed on a lower plate and an upper mold die of a zinc alloy material fixed to a predetermined upper plate which is vertically moved at the upper portion of the lower mold die and selectively contacted with the lower mold die, A hydroforming die for use in an apparatus for fixing a cylinder to a mold for hydroforming comprising: Wherein the cylinder has a lower end fixed on the lower plate and fixed to a predetermined support object to which the upper end is fixed when the upper plate is lowered. 5. The method of claim 4, [0028] A nozzle through hole is formed in the center of the rectangular body to allow the nozzle of the cylinder to penetrate and reach the mold die; And a lower guide rib protruding from the lower end of the body for seating in a lower guide groove formed in the lower plate; Wherein an upper guide rib is formed at an upper end of the body so as to be seated in an upper guide groove formed on the lower plate when the upper plate is lowered. 6. The method of claim 5, Wherein the upper and lower guide ribs formed on the support object have a length corresponding to the width of the support. The method according to claim 4 or 5, Wherein at least one fixing member for fixing the support member is provided on the lower plate. 8. The method of claim 7, Wherein one end of the fixing member is inserted on the fixing slit in the width direction formed on the supporting object and the other end of the fixing member is fastened and fixed by the lower plate and the bolt.

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