KR20120039901A - Forming apparatus of part - Google Patents

Abstract

PURPOSE: A part forming apparatus is provided to improve the quality of parts for vehicles by pressurizing a panel for a forming operation and preventing the formation of air gaps. CONSTITUTION: A part forming is composed of a lower mold(100), an upper mold(200), and a slider(300). A loading part is formed at the center of the lower mold, and a panel for forming parts is loaded at the loading part. The upper mold includes a forming part(210) and an inclined part(230). The forming part pressurizes the panel to be formed. The inclined part is formed at both sides of the forming part. The slider is formed at the inner side of the loading part to be capable of being slid. The slider moves to the forming part by the inclined part when the upper mold moves to the lower mold in order to form both sides of the panel.

Description

Part forming apparatus {FORMING APPARATUS OF PART}

The present invention relates to a part molding apparatus capable of simultaneously molding a panel for making a part of a vehicle and rapidly cooling to increase moldability and cooling efficiency.

In general, a vehicle includes both a part requiring high strength to reduce buckling and strain and a part requiring low strength by increasing buckling and strain. Obtained through rapid cooling.

1 is a view showing a part of the vehicle of the prior art.

That is, the intrusion blocking part 11 which reduces the buckling and strain in the vehicle collision in the vehicle part 10 secures high strength (1500 MPa or more) by rapidly cooling after high temperature heating to secure high strength, and improves buckling and strain. The shock absorbing portion 12 to increase the slow cooling to secure a low strength (780MPa), and at the same time implements the process of ensuring the high strength and low strength.

As shown in FIG. 2, the parts 10 of the automobile are press-molded by the mold 40 including the upper mold 20 and the lower mold 30 respectively provided on the upper and lower portions of the panel.

However, the parts 10 of the vehicle as shown in FIG. There is an air gap that is a section, and the panel 1 for molding by the air gap is not sufficiently press-molded, there was a limit to forming high quality parts, and furthermore, the problem of rapid cooling due to the heat insulation effect caused by the air gap. There was this.

The technical problem to be solved by the present invention for solving the above-mentioned problems is to provide an automobile parts forming apparatus capable of molding high quality parts by increasing the formability and cooling efficiency of the panel for forming the parts of the automobile. .

As a means for achieving the above-described technical problem, a part molding apparatus for forming a panel through a mold made of the lower mold and the upper mold as described above, the lower mold is formed in the center seating portion for seating the panel for forming the component; An upper mold formed to correspond to the seating portion, and having a molding portion press-molded the panel seated on the seating portion, and an inclination portion formed on both sides of the molding portion; And both side ends of the panel press-fitted by the molding part while the upper mold is slidably moved in the direction of the seating part, and the upper mold moves toward the molding part by the inclined part when the upper mold moves toward the lower mold, respectively. A slider; The inclined part slides the slider toward the molding part as the upper mold moves toward the lower mold, thereby pressing the inclined surface formed on the outside of the slider.

The seating part, the slider, and the molding part are provided with a cooling water storage part for cooling the panel to be molded therein.

The cooling water reservoir circulates the cooling water as it is connected to an external cooling water supply device to maintain a constant temperature of the cooling water.

Cooling fins connected to the cooling water storage part are mounted on surfaces of the seating part, the slider, and the molding part in which the panel is in close contact.

The inclined portion is in cloud contact with the inclined surface.

An elastic member is provided between the seating portion and the slider.

According to the present invention, the upper die and the lower die can be moved correspondingly, and a pair of sliders can be moved in the corresponding directions to press-fit the panel for molding, thereby preventing the formation of air gaps, thereby forming high quality parts. It is effective to rapidly cool the parts.

1 is a view of a conventional automotive part.
Figure 2 is a view showing a portion where a gap occurs in the prior art automobile parts forming apparatus.
3 is a view showing a part molding apparatus of the present invention.
Figure 4 is a view showing a molding method of the part molding apparatus of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

In the present invention, the automotive part molding apparatus moves the upper mold 200 and the lower mold 100 in a corresponding direction, and simultaneously slides the slider 300 in the upper mold 200 and the lower mold 100 to form the upper mold 200, By press-molding the panel 1 placed between the lower mold 100 and the slider 300, moldability can be increased because an air gap does not occur, whereby high-quality parts can be molded, and further molding It is a technique that can increase the cooling efficiency by rapidly cooling the panel (1).

Such a component forming apparatus of the present invention, as shown in Figure 3, the upper mold 100 and the upper mold is provided to be movable up and down toward the lower mold 100 to press-mold the central portion of the panel (1) for molding the parts The die consisting of a 200, and the lower die 100 and the upper die 200 is provided between the upper die 200 and the lower die 100, the sliding movement in the corresponding direction when moving toward the lower die 100, press-fit both ends of the panel (1) And a slider 300 to be molded.

Hereinafter, the configuration of the component forming apparatus of the present invention in more detail.

The lower mold 100 has a seating portion 110 protruding from the center of the upper surface, and lower guide grooves 120 are formed at both sides of the seating portion 110, and a seating portion (bottom) of the lower guide groove 120 is formed. The guide rail 130 is formed in the direction of 110, and the slider 300 described later is coupled to the guide rail 130.

The upper mold 200 has a molding unit 210 formed at the center of the lower surface to correspond to the seating unit 110, and the upper guide groove 220 at both sides of the molding unit 210 to correspond to the lower guide groove 120. ) Is formed, the inclined portion 230 is formed to be inclined on the outer side of the upper guide groove 220, the inclined portion 230 is to slide the slider 300 to be described later to the molding portion 210 direction Pressurize.

The slider 300 is provided in the lower and upper guide grooves 120 and 220 to correspond to the molding part 210, respectively, and a lower portion thereof is coupled to the guide rail 130 so as to be slidable. It is formed to be in close contact with the side of the molding portion 210, the outer surface forms an inclined surface 310 to guide the inclined portion 230.

That is, when the upper die 200 moves downward toward the lower die 100, the slider 300 is pressed along with the inclined portion 230 while being supported by the inclined surface 310, while the upper die 200 moves downward toward the lower die 100. Direction).

Here, an elastic member 400 is provided between the slider 300 and the seating part 110, and the elastic member 400 provides an elastic force to the slider 200 so that the lower guide groove 120 outside the lower mold 100 is provided. Position it at the end.

In this way, the slider 300 is configured to be slidably moved toward the molding part 210, so that the inflow of the panel 1 due to a sufficient gap between the molding part 210 and the slider 300 at the start of molding by the upper mold 200 is achieved. It becomes smooth and moldability is made stable.

In addition, the roller 231 may be mounted on the inclined portion 230 so as to make a rolling contact with the inclined surface 310 of the slider 300. The roller 231 reduces the frictional force, thereby making the slider 300 more stable. Can be moved to, and the noise generation is greatly reduced.

Meanwhile, the seating part 110, the slider 300, and the molding part 210 are each formed with coolant storage parts 111, 320, and 211 for rapidly cooling the panel 1 formed therein. The coolant storage units 111, 320, and 211 maintain a constant temperature of the coolant by circulating the coolant as it is connected to an external coolant supply device (not shown).

That is, the seating part 110, the slider 300, and the molding part 210 are provided with coolant storage parts 111, 320, and 211 to form the panel 1 and simultaneously cool the workability. You can increase it.

Furthermore, the surfaces of the seating part 110, the slider 300, and the molding part 210 to which the panel 1 is in close contact are provided with cooling fins 112, 212, 330 to further increase the cooling efficiency. The cooling fins 112, 212, and 330 are connected to the coolant storage parts 111, 320, and 211 from the surfaces of the seating part 110, the slider 300, and the molding part 210.

That is, the temperature and the seating unit 110, the slider 300 and the surface of the molding unit 210 to the cooling water storage unit 111, 320, 211 through the cooling fins 112, 212, 330 The temperature can be formed close to each other, thereby increasing the cooling efficiency of the panel 1.

Referring to the method of molding the part through the component forming apparatus having such a configuration as follows.

First, as shown in FIG. 4A, a high temperature heated panel 900 for molding is placed on a pair of sliders 300.

Then, as shown in FIG. 4B, the upper mold 200 is moved toward the lower mold 100. Then, the forming part 210 of the upper mold 200 presses the panel 1 mounted on the slider 300 to bend the center portion of the panel 1 downward, and the inclined portion of the upper mold 200 ( While the 230 is supported on the inclined surface 310 of the slider 300 and simultaneously pressurized, the slider 300 moves along the inclined portion 230 in the direction of the forming portion 210, and the panel is moved by the slider 300. Both ends of (1) are press-molded.

In this state, if the molding part 210 of the upper mold 200 is press-fitted to the seating part 110 of the lower mold 100, the slider 300 is press-fitted to the side of the molding part 210, and these The panel 1 located between them is molded in the form as shown in FIG.

In this case, the panel 1 is molded and rapidly cooled through the coolant storage parts 111, 211, and 320 formed in the seating part 110, the molding part 210, and the slider 300. The strength of the panel 1 is increased by increasing the cooling efficiency of the panel 1 by the cooling fins 112, 212, 330 connected to the storage parts 111, 211, 320.

On the other hand, when the molding and cooling of the automotive parts is completed, when the upper die 200 is raised to the original position as shown in Fig. 4 (d), the slider 300 is returned to the original position by the elastic member 400, the completion The parts which are the panels 1 are collected.

Therefore, in the present invention, since the air gap is not formed between the mold and the panel when forming the automobile part, the moldability and completeness of the part may be increased, and the cooling efficiency may be increased by rapidly cooling the molded panel.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: lower mold 200: upper mold
300: slider 400: elastic member

Claims (6)

A part molding apparatus for forming a panel through a mold consisting of a lower mold and an upper mold,
A lower mold in which a seating portion on which a panel for molding a part is seated is formed;
An upper mold formed to correspond to the seating portion, and having a molding portion press-molded the panel seated on the seating portion, and an inclination portion formed on both sides of the molding portion; And
It is provided on both sides of the seating portion of the lower mold so as to be slidably moved in the direction of the seating portion, and when the upper mold moves toward the lower mold, the both ends of the panel press-fitted by the molding part are moved while moving toward the molding part by the inclined part. A slider;
The inclined portion forming apparatus for sliding the slider sliding toward the molding portion as the upper mold moves toward the lower mold by pressing the inclined surface formed on the outside of the slider. The method according to claim 1,
The seating part, the slider and the molding part forming apparatus is formed with a cooling water storage for cooling the panel formed therein. The method according to claim 2,
The cooling water reservoir is part molding apparatus for maintaining a constant temperature of the cooling water by circulating the cooling water as it is connected to the external cooling water supply. The method according to claim 2,
And a cooling fin connected to the cooling water storage part on surfaces of the seating part, the slider, and the molding part to which the panel is in close contact. The method according to claim 1,
The inclined portion forming part in contact with the inclined surface. The method according to claim 1,
Part forming apparatus provided with an elastic member between the seating portion and the slider.

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