KR100613689B1 - resisting pressure part forming apparatus of rechargeable battery case - Google Patents

Abstract

The present invention relates to a pressure-resistant molding unit of the battery case for charging, in particular an elastic member for applying a constant force to the upper portion of the slide for transmitting a force to the mold for pressing the surface of the case is a simple structure and on the left and right slides Characterized in that different forces can be applied, for this purpose, the head penetrates the punch corresponding to the pressure-resistant molding process in a plurality of processes and is disposed to the left and right of the punch; An elastic member installed in grooves formed at left and right ends of the head; A guide coupled to a lower portion of the elastic member and having a perforated portion at a central portion of the upper surface; A slide having a penetrating portion inserted into the perforated portion, the upper portion of which is constrained by the guide by bolts to enable vertical flow, and an inner surface of the lower portion having an inclined pressing surface; It relates to a pressure-resistant molding unit for a battery case for charging, which is composed of a mold having a sliding surface corresponding to the pressing surface provided on the slide to press-mold the surface of the case.

Rechargeable Battery Case Internal Pressure Molding Device Punch Elastic Member Guide

Description

Resisting pressure part forming apparatus of rechargeable battery case

Figure 1-schematic side view of the pressure-resistant portion forming apparatus of the battery case for charging according to the prior art.

Figure 2-front view of the pressure-resistant portion forming apparatus of the battery case for charging according to the present invention.

3-a schematic side view of FIG.

<Description of Major Symbols Used in Drawings>

10: clamp 15: punch

20: head 30: elastic member

40: guide 45: stable plate

50: slide 60: mold

The present invention relates to a pressure-resistant molding unit that can form a pressure-resistant portion on the surface of the battery case for secondary batteries and at the same time to form an explosion-proof vent, in particular to have a compact structure and only a proper force is applied to the left and right sides of the case. The present invention relates to a pressure-resistant molding unit for a battery case for charging that can prevent deformation from occurring in the case unnecessarily.

Rechargeable battery cases used in mobile phones have a high pressure in the sealed state, especially in abnormal environments, the case can not withstand high pressure and may lead to an explosion.

In order to prevent this phenomenon, it is common to place an internal pressure portion on the surface of the case and to form a vent opening for decompression when a certain pressure is reached.

On the other hand, such a rechargeable battery case is made of aluminum as a material having a rectangular cross section by a continuous pressing process.

During this series of continuous press processes, there is a process of forming the internal pressure portion and the vent, and appropriate punches are disposed for each process, and these punches move up and down at the same time.

General matters of manufacturing a rechargeable battery case in a continuous process are described in detail in Patent Registration No. 421179 filed and filed by the present applicant, which will be described below with reference to the prior art.

Figure 1 shows a schematic side view of the pressure-resistant portion forming apparatus of the battery case for charging according to the prior art.

Looking at the main configuration of the prior art, the punch 150 is installed, the clamp 100 to move up and down, and the spring member 200 formed on the lower surface of the clamp 100 in front of the pressure-resistant portion forming process punch; Pressurized body 300 which is installed in contact with the lower side of the spring member 200 and the vertical transfer is formed on the lower side of the pressurized body and the clamp 100 is in contact with the pressurized body 300 to transmit the force along the descending One end is installed in contact with the member 400 and the lower side of the vertical transfer member 400, the left and right displacement is generated by the surface contact in accordance with the vertical movement of the vertical transfer member and the other end is in contact with the mold 600 and the tape It is composed of a horizontal transfer member 500 to press the mold to form an internal pressure portion in the case.

As described above, in the prior art, the process of transmitting the force for forming the pressure-resistant part to the case is complicated, and finally, the force applied to the left and right sides of the case is the same, and one side receives an unnecessary force. Of course, both sides of the case will eventually be molded in the desired shape and straightness in relation to the punch, but there is also a problem that the case may be bent or cause serious changes in the tissue when the first force is applied.

In addition, in the case of the prior art there is a disadvantage that it is uneconomical, such that the equipment is heavy and the size is increased because several components are used.

Therefore, the present invention for solving the above problems is to place the slide to press the mold on the left and right of the punch corresponding to the pressure-resistant portion forming process and the elastic member on the upper side of the slide so that a constant force can be applied to the slide It is possible to make a simple structure by connecting, and to adjust the elastic modulus of the elastic members connected to the left and right slides differently, so that the pressure-resistant molding unit of the battery case for the charging battery case can be applied to the right and left sides of the case. It aims to provide.

The present invention for achieving the object as described above, a plurality of punches are continuously installed in the clamp to form a battery case for charging while moving up and down at the same time, during the charging process for forming a pressure-resistant part on the surface of the battery case A battery case pressure-resistant molding apparatus, comprising: a head penetrating a punch corresponding to a pressure-resistant molding process among a plurality of processes and disposed left and right of the punch; An elastic member installed in each of the grooves formed at the left and right ends of the head and having different elastic coefficients; A guide coupled to a lower portion of the elastic member and having a perforated portion at a central portion of the upper surface; A slide having a penetrating portion inserted into the perforated portion, the upper portion of which is constrained by the guide by bolts to enable vertical flow, and an inner surface of the lower portion having an inclined pressing surface; It relates to a pressure-resistant molded part of the battery case for charging as the technical gist of the present invention comprises a mold having a sliding surface corresponding to the pressing surface provided on the slide to press the case surface.

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In addition, the guide relates to a pressure-resistant molding unit for the battery case for charging the battery case, characterized in that the stabilizer plate is placed on the upper surface and the lower portion of the spring is positioned on the stabilizer plate, the stabilizer plate and the slide is restrained by a bolt.

The accompanying drawings show one specific embodiment of the present invention, and the gist of the present invention is not limited to the drawings, but is in the technical idea.

First, Figure 2 schematically shows a front view of the pressure-resistant portion forming apparatus of the battery case for charging according to the present invention, Figure 3 corresponds to a side view thereof.

A plurality of punches 15 are continuously arranged in the clamp 10 that moves up and down, one of which is a punch used in the pressure resistant molding process.

The pressure-resistant molding unit according to the present invention has the head 20, the elastic member 30, the guide 40, the slide 50 and the mold 60 as the main components. As shown in the figure, the punch 15 is connected to the clamp 10 so as to be installed downwardly, and the head 20 is also installed to be connected to the clamp 10.

The central portion of the head 20 is open and has a form in which the punch 15 penetrates and is disposed left and right about the punch. And the left and right ends of the head 20 is formed with a groove facing upwards, the elastic member 30 is inserted into the groove.

As the elastic member 30, it is preferable to use a dish spring and to pile up several as necessary to obtain a necessary force. However, the elastic member is not limited to the dish spring, and it will be apparent that a known elastic body may be used.

And the guide 40 is coupled to the lower portion of the elastic member 30 in order to restrain the elastic member 30 to the head 20. In this example, the guide 40 has a rectangular cross section with a wide upper portion and a narrow lower portion, and a perforated portion penetrates up and down at a central portion thereof.

The guide 40 is fixedly coupled to the head 20 as a bolt, the slide 50 is installed to the perforations formed in the guide. The upper end of the slide 50 is fastened with a bolt to be constrained to the guide and preferably have a bolt head at the center of the plate spring, which is an elastic member.

The slide 50 is able to flow up and down to some extent by the elastic force of the elastic member, the inclined pressing surface 51 is formed on the inner surface of the lower end of the slide. The lower end of the slide is protruded through the guide.

On the other hand, the case (c) to be molded is located in the lower portion of the punch while being supported by the stopper 17, the mold 60 for the pressure-resistant portion forming and vent molding is disposed to the left and right of the case. The mold 60 is moved inwardly in contact with the pressing surface 51 formed at the lower end of the slide 50, and thus a sliding surface 61 corresponding to the pressing surface is provided.

The mold is moved inwards as the slide descends and then moved outwards when the slide is raised after the molding is completed. For this purpose, it is suitable to install a spring on the mold so that it can move outward when the force is released.

On the other hand, in installing the guide 40 to the head 20 to restrain the elastic member 30, to ensure the operation more smoothly to place the stabilizer plate 45 on the upper surface of the guide 40 and the elastic member on the stabilizer plate Position the bottom of the dish spring. In this state, the stabilizer plate and the slide are fixed to each other by using a bolt.

And in the present invention, each elastic member is installed on the left and right of the head. Therefore, it is preferable to adjust the elastic modulus of the left and right elastic members differently as necessary. In particular, in the present example, when only the pressure-resistant parts of the same shape are formed on the left and right surfaces of the case, the elastic modulus of the left and right elastic members may be the same, but on one side, the explosion-proof vent is formed together with the pressure-resistant parts. If the elastic modulus of the left and right elastic members are differently adjusted, it is good to prevent unnecessary force from acting on the case.

In this regard, the operation principle of the pressure-resistant molding unit of the battery case for charging according to the present invention will be briefly described.

The clamp is lowered by a defined distance, and the punch and slide are lowered accordingly. The punch supports the inner surface of the case, and when the slide begins to come into contact with the mold, the mold is moved inward to form the internal pressure portion and the vent on the surface of the case.

The lowering distance of the left and right slides is the same as the moving distance of the clamp, so that the force applied to the mold is the same. However, as described above, since the force required for the left and right molding of the case is not the same, the mold on the side requiring less force should have a smaller force.

To this end, by varying the elastic modulus of the left and right elastic members, the slide on the side requiring less force first rises slightly to release the force acting on the mold.

In addition to this, basically, the left and right slides by the elastic member used in the present invention can prevent the force from acting on the mold forcibly because the slide rises to remove the force when a predetermined or more force is applied.

According to the present invention, it is possible to compact the structure with a simpler structure as compared with the conventional molding apparatus, and the number of parts is also reduced, thereby achieving the light weight.

In addition, in the present invention, two elastic members may be provided and the elastic modulus may be changed, so that the pressure resistant part and the vent molding may be formed in an optimal state, thereby producing a product having excellent quality.

In addition, there is an effect that can prevent the phenomenon that an excessive force is applied to the mold by the elastic member.

Claims (3)

delete In the charging battery case pressure-resistant molding unit for forming a battery case for charging while the battery is continuously up and down at the same time to form a charging battery case, and forming a pressure-resistant portion on the surface of the battery case in the process, A head penetrating the punch corresponding to the pressure-resistant molding process among a plurality of processes and disposed to the left and right of the punch; An elastic member installed in each of the grooves formed at the left and right ends of the head and having different elastic coefficients; A guide coupled to a lower portion of the elastic member and having a perforated portion at a central portion of the upper surface; A slide having a penetrating portion inserted into the perforated portion, the upper portion of which is constrained by the guide by bolts to enable vertical flow, and an inner surface of the lower portion having an inclined pressing surface; The pressure-resistant molding unit for a battery case for a charge, characterized in that consisting of; a mold for pressing the surface of the case having a sliding surface corresponding to the pressing surface provided on the slide. The method of claim 2, wherein the guide, A stabilizer plate is placed on an upper surface thereof, and a lower portion of a spring is positioned on the stabilizer plate, and the stabilizer and slide of the battery case for charging the battery case are characterized by being constrained by a bolt.

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