KR100393335B1 - Press apparatus and its application method to sheet form - Google Patents

Abstract

The present invention relates to a press apparatus and a processing method thereof. According to the present invention, there is provided a press apparatus for pressing a workpiece by a die and a punch to draw-form a plate-shaped workpiece; A punch having a high pressure flow path shaped to pressurize a high pressure gas to a contact surface with the workpiece; It comprises a high pressure gas supply means for supplying a high pressure gas to the high pressure flow path. In addition, as a method of processing such a press apparatus, a method is performed in which a high-pressure gas presses a workpiece through the high-pressure passage at the same time as drawing the workpiece using the punch and the die.

Description

Press apparatus and its processing method {Press apparatus and its application method to sheet form}

The present invention relates to a press apparatus and a processing method using the same. More particularly, the press apparatus and the processing method using the same are configured to apply a high pressure to the metal sheet through a central portion of the punch pressurizing the metal sheet as a work piece. It is about.

In Fig. 1, the schematic configuration of a press apparatus for general press working of sheet metal is shown in sequence. As shown in the figure, the metal sheet S is supported between the die 2 and the punch 1 using the blank holder 3. The meta sheet S is made of a U-shaped product in the shape of a container with one side open and a side cross section formed by the relative motion of the die 2 and the punch 1 such as deep drawing. That is, the metal sheet S interposed between the blank holder 3 and the die 2 is plastically deformed by the downward movement of the die 2 or the upward movement of the punch 1, while FIG. A product in the same state as (B) will be made.

However, in the deep drawing molding using the general punch shown in FIG. 1, the material region corresponding to the punch head has almost no deformation, and the deformation is concentrated in the material region corresponding to the radial portion of the punch, leading to breakage.

In addition, the limit drawing ratio of various plate-shaped materials is molded according to the inherent physical properties of the material, and it is difficult to have a limit drawing ratio higher than that. Therefore, according to the conventional press apparatus, since the deformation is intensively formed in the radial portion of the punch, there is a high risk of breakage of the material due to a sudden decrease in thickness during the drawing process.

In addition, in the press working as described above, there have been many other methods for improving moldability. For example, in the technical contents disclosed in Japanese Patent Application Laid-Open No. 6-87030, lubricants are applied to the surface of the plate, the shape radius of the punch is cooled, and the die is heated to improve the formability of the plate. It is configured to. In addition, US Patent 420293 is to improve the formability by cooling the plate to less than -50 degrees and then heating the area corresponding to the flange portion to make a temperature difference with the central portion and then molding.

However, even in such a conventional technique, although a predetermined effect can be achieved by a partial temperature difference, there is bound to a certain limit in the efficiency. In addition, in order to implement the above technique, a disadvantage arises in that pretreatment of a metal sheet as a workpiece is required. And such a disadvantage is substantially followed by a certain limit on productivity.

An object of the present invention is to increase the limit drawing ratio (LDR) of a molded article by pressurizing high-pressure air or gas to the material through a punch for pressing during deep drawing molding. The limit drawing ratio (LDR) is obtained by dividing the diameter of the largest moldable blank by the diameter of the punch. The higher the deep drawing moldability, the larger the value.

Increasing such a limit drawing ratio means improving the formability of a board | plate material by increasing the limit drawing ratio of a molded article.

1 is a schematic view showing the processing of a general deep drawing device.

2 is a detailed cross-sectional view of the punch portion of the deep drawing apparatus according to the present invention.

Figure 3 is an overall illustration of the deep drawing apparatus according to the present invention.

4 is a graph showing the thickness change from the center point of the molded article of the present invention for two kinds of aluminum alloy.

5 is a graph showing the relationship between the pressing force and the limit drawing ratio for two kinds of aluminum alloy in the present invention.

According to the present invention for achieving the above object, in the press apparatus for drawing and forming a plate-shaped workpiece, the die and the punch press the workpiece; A punch having a high pressure flow path shaped to pressurize a high pressure gas to a contact surface with the workpiece; It characterized in that it comprises a high pressure gas supply means for supplying a high pressure gas to the high pressure flow path.

In addition, according to the present invention, in order to draw-form a plate-shaped workpiece, a die and a punch pressurize the workpiece, and a high-pressure flow path is formed in the punch to pressurize the high-pressure gas to the contact surface with the workpiece, thereby forming a high-pressure gas. A processing method of a press apparatus to be supplied: The processing method of the press apparatus, characterized in that the processing is performed while the high-pressure gas pressurizes the workpiece through the high-pressure passage at the same time as drawing the workpiece using the punch and the die. I am doing it.

Next, the present invention will be described in more detail with reference to the embodiments shown in the drawings.

2 is a cross-sectional view of main parts of the present invention. As shown, according to the present invention, in the apparatus for deep-drawing the metal sheet S by the die 10 and the punch 20, the high-pressure flow passage 22 in the longitudinal direction is provided at the central portion of the punch 20. ) Is molded. The outlet from which the high pressure gas or air is discharged toward the metal sheet in the high pressure flow passage 22 is connected to the metal sheet S when the punch 20 presses the metal sheet S during deep drawing molding. It is formed on the portion corresponding to the upper surface of the punch 20, rather than the circumferential side of the punch 20.

The high pressure flow path 22 is a portion formed to inject a high pressure gas into the metal sheet S corresponding to the end of the punch 20 during deep drawing molding in a press apparatus, which may substantially supply high pressure. It is connected to a high voltage source.

In the deep drawing process, when the high pressure gas presses the metal sheet through the high pressure flow passage 22, it is important to know how the high pressure gas pushes the material in order to maximize the effect of the pressurization. That is, it is preferable that the high pressure gas coming out through the high pressure flow passage 22 can press the metal sheet S with an even force as a whole. In order to pressurize the metal sheet of the wide part if high pressure gas is possible, it is preferable to have a shape in which the upper end of the outlet part of the high pressure flow path 22 is enlarged, that is, the area is widened. In the embodiment shown in FIG. 2, when processing the head of the punch 20, the inner periphery of the high-pressure flow passage 22 is formed by drilling in the center of the punch 20 to form a pneumatic flow passage 22. By chamfering or rounding the part, the outlet of the high pressure flow path 22 is widened so that the high pressure applied through the part is processed so that the pressing force can be applied to the maximum punch shape radius of the workpiece. You will find it at

3 shows a schematic view of a press apparatus having a punch 20 of the present invention as described above. As shown in the figure, the upper plate 12 which fixes the die 10 below is provided in the upper part of the apparatus so that the ram 14 can move up and down.

A punch 20 corresponding to the upper die 10 is provided at the lower portion, and a blank holder 31 is provided at the periphery of the punch 20. The blank holder 31 is a member for supporting the metal sheet S to be deep-drawn molded in a state sandwiched between the die 10 and the die 10.

The punch 20 according to the present invention has the configuration shown in FIG. 2 as described above. In the illustrated embodiment, the supply of high-pressure air or gas to the high-pressure flow path 22 of the punch 20, the passage formed in the guide block 32 installed in the lower end of the punch 20 Through 32a. That is, the passage 32a formed in the guide block 32 is connected to, for example, a tank 40 filled with 0 to 110 kg / cm ^{2 of} high pressure nitrogen gas, thereby punching the high pressure nitrogen gas into the punch. The two are connected to be supplied through the high pressure flow path 22 of 20.

At this time, the passage 32a of the guide block 32 and the high pressure nitrogen gas tank 40 are connected through a connection pipe 42, and the flow of fluid on the connection pipe 42 can be controlled. The control valve 35 is provided. The control valve 35 allows the high pressure nitrogen gas to be supplied through the high pressure flow passage 22 of the punch 20 during the deep drawing process, and closes the nitrogen when it is not necessary to supply the nitrogen gas. It is to control the gas from being supplied. Such a control valve 35, of course, can be configured to be electrically controlled in accordance with the operation status of the overall device. In addition, a pressure control valve 36 is provided at the outlet side of the high pressure nitrogen gas tank 40, so that the pressure of the gas or gas applied to the metal sheet S through the high pressure passage 22 of the punch 20 is substantially reduced. It is configured to control.

In the press apparatus according to the present invention, the configuration of the other parts except for the above-described configuration is substantially the same as the conventional one, and thus detailed description thereof will be omitted. Looking at the configuration simply, the guide block 32 having the passage 32a of the high pressure gas therein is supported by the lower plate 33 with the load cell 37 interposed therebetween. In addition, since the upper plate 12 and the lower plate 33 should be capable of accurate relative movement, respectively, in the illustrated embodiment, when the upper plate 12 is lowered, the punch 20 is accurately placed on the die 10. In order to be engaged, centering guides 41 and 44 are provided at the top and the bottom, respectively. And if necessary, it may be possible to install a dynamic displacement measuring device (LVDT) 43 which can accurately measure the load and displacement exerted by the upper plate 12 downwards, and in this embodiment it is installed on the lower side of the device. have.

And in order to control the strength of the pressure when pressurizing a gas such as high pressure air or gas to the material, the pressure control valve 36 and the direction at one side of the connecting pipe 42 or the high pressure nitrogen tank 40 A control valve 35 for controlling is provided.

In the method of injecting high pressure air during molding of the workpiece, it is preferable to pressurize to an appropriate pressure at the beginning of the drawing and then to remove the applied pressure. The reason for this is that the drawing force occurs the most at the beginning of the drawing, and fracture occurs frequently.

In the case of deep drawing molding, when the head of the punch 20 contacts the material S, the high-pressure flow path 22 of the punch 20 is connected to the high pressure air or gas in the pressure tank 20 through the connecting pipe 42. To the side. Then, as shown in FIG. 3, the high pressure of the gas to supply pressurizes the corresponding area | region of the raw material S which contact | connects the upper end part of the high pressure flow path 22 of the punch 20. In this way, the material region of the head of the punch 20 that is pressurized is deformed and displaced at the same time, and thus, the region of the material corresponding to the punch 20 shape radius, which is the concentrated portion of the break, is also moved, so that the local deformation suddenly decreases in thickness. The area is changed so that necking is delayed.

In the deep drawing process according to the present invention, it is understood that the relative movement of the punch 20 and the die 10 is progressed, and the pressurization using the high pressure through the high pressure flow path 22 of the punch 20 is simultaneously performed. It is preferable that the high pressure applied to the corresponding region of the material corresponding to the upper end of the punch 20 is preferably removed at the initial pressure after being pressed to the appropriate pressure.

According to the present invention, as described above, the formability can be improved by a high pressure gas or air pressurization method, and in order to maximize the effect, the necking point and the limit molding load (maximum load that can be formed) are applied to each material to be molded. The exact starting point and end point of the pressurization, and the holding time should be well selected.

And in order to find out the effect of the pressurized gas using the high pressure according to the present invention, the product produced by the present invention was cut in half and the thickness was measured for each length from the center. As a result, as shown in FIG. 4, the thickness distribution was different for each distance from the center of the molded article. In particular, the amount of thickness reduction was remarkable between the punch head and the punch shape radius. This is due to the effect of the initial pressing force of the drawing.

5 is calculated and shown as the limit drawing ratio of the molded article according to the present invention, it is well shown that the effect of improving the moldability by pressurizing high-pressure air or gas to the material.

Within the scope of the basic technical idea of the present invention as described above, for those skilled in the art, many other modifications are possible, of course, the present invention will not be limited by these modifications, It should be interpreted strictly by the claims.

The present invention has the effect of improving the formability of the plate by increasing the limit drawing ratio of the molded article using air or gas pressurization method during deep drawing.

Claims (6)

In the press apparatus in which the die | dye 10 and the punch 20 pressurize a workpiece | work in order to draw-form a plate-shaped workpiece | work; A punch having a high pressure flow path shaped to pressurize a high pressure gas to a contact surface with the workpiece; And a high pressure gas supply means for supplying a high pressure gas to the high pressure flow path. The press apparatus according to claim 1, wherein the high pressure flow passage is formed at an outlet on an upper surface of a head portion of a punch. The press apparatus according to claim 1 or 2, wherein the outlet of the high pressure flow passage has a shape that extends toward a contact surface with a workpiece. In order to draw and form a plate-shaped workpiece, a die and a punch pressurize the workpiece, and the punch is formed with a high-pressure flow path formed so as to pressurize a high-pressure gas to the contact surface with the workpiece. By way: The processing method of the press apparatus, characterized in that the processing is performed while the high-pressure gas pressurizes the workpiece through the high-pressure flow passage at the same time as drawing the workpiece with the punch and the die. The method according to claim 4, wherein the pressurizing the workpiece with the high pressure gas through the high pressure flow passage is performed at the highest pressure in the initial stage of drawing processing. The method according to claim 5, wherein after the initial step of applying the high pressure, the high pressure applied to the workpiece is removed.