KR102002551B1 - Manufacturing method for battery housing for electric vehicle and structure for joining battery cover - Google Patents

Abstract

The present invention relates to a method for manufacturing a battery housing for an electric vehicle and a structure for joining a battery cover of an electric vehicle, and more particularly, a method for manufacturing a battery housing for an electric vehicle and a battery for an electric vehicle, in which metal casting parts are easily joined by welding. The present invention relates to a structure for joining a battery cover of an electric vehicle required for manufacturing a housing.
The battery housing manufacturing method for an electric vehicle of the present invention includes an insert frame forming step of forming an insert frame by molding a metal material by any one of drawing, extrusion, pressing, and CNC methods; An insert die casting molding step of inserting the insert frame into a die casting mold to form a metal cover which blocks an open end of the case integrally with the insert frame; And inserting a battery cell into the case, and welding the case and the insert frame to couple the cover to both ends of the case, respectively.

Description

Manufacturing method for battery housing for electric vehicle and structure for joining battery cover}

The present invention relates to a method for manufacturing a battery housing for an electric vehicle and a structure for joining a battery cover of an electric vehicle, and more particularly, a method for manufacturing a battery housing for an electric vehicle and a battery for an electric vehicle, in which metal casting parts are easily joined by welding. The present invention relates to a structure for joining a battery cover of an electric vehicle required for manufacturing a housing.

Typically, a battery cell is used as an energy source for a mobile device, an electric vehicle, a hybrid car, electricity, and the like, and is used in various forms depending on the type of external device to be applied.

When a long time drive and high power drive are required, such as an electric car or a hybrid car, which consume a lot of power, a large capacity battery module is formed by electrically connecting a plurality of battery cells to increase output and capacity. The battery module may increase the output voltage or the output current according to the number of built-in battery cells. In addition, a plurality of such battery modules may be electrically connected to form a battery pack, and the battery bag may be inserted into a battery housing (or case) and installed in an electric vehicle or a hybrid vehicle.

Such a battery housing (or case) is generally formed by separating an aluminum (Al) material into a number of parts by a die casting method, and then welding each part to be joined. However, due to the characteristics of the die casting material, pores are inevitably generated inside the die-casted parts, and when welding the die-casting parts in which such pores are generated, there is a problem of explosion, welding failure, etc. due to welding.

Republic of Korea Patent Publication No. 10-2015-0096883 (2015.08.25.) Republic of Korea Patent Publication No. 10-1037739 (2011.05.27.)

An object of the present invention is to provide a method for manufacturing a battery housing for an electric vehicle, and a structure for joining a battery cover of an electric vehicle, in which the joining of a metal casting part by welding is easy.

In order to achieve the above object, a method of manufacturing a battery housing for an electric vehicle according to the present invention includes: insert frame molding step of forming an insert frame by molding a metal material by any one of drawing, extrusion, rolling, pressing, and CNC; An insert die casting molding step of inserting the insert frame into a die casting mold to form a metal cover which blocks an open end of the case integrally with the insert frame; And inserting a battery cell into the case, and welding the case and the insert frame to couple the covers to both ends of the case.

In addition, the method of manufacturing a battery housing for an electric vehicle of the present invention further includes a fine roughening forming step of forming a fine roughness on the surface of the insert frame in which the cover is formed after the insert frame molding step. It is formed through laser etching or chemical etching.

In the insert frame molding step, a plurality of insert frames may be molded, and in the insert die casting molding step, a plurality of the insert frames are put into a die casting mold to form the cover, and the plurality of insert frames are covered by the cover. It is connected in one piece.

On the other hand, the battery cover joining structure of the electric vehicle for welding and joining the cover to the both ends of the case formed with both ends open, the insert frame is formed by molding the metal material by any one method of drawing, extrusion, rolling, pressing, CNC ; And inserting the insert frame into a die casting mold and injecting molten metal to form a metal cover integrally formed with the insert frame, and welding the insert frame and the case to couple the cover to both ends of the case.

The method for manufacturing a battery housing for an electric vehicle of the present invention and a structure for joining a battery cover of an electric vehicle are manufactured by inserting the insert frame first and then integrally with the cover, and welding the insert frame with the case to combine the case with the cover metal, Due to the pores that may occur inside the cover due to the nature of the casting material it is possible to prevent the welding failure by the direct welding of the case and the cover.

1 is a view showing in order a manufacturing method of a battery housing for an electric vehicle according to an embodiment of the present invention.
2 is a perspective view of a battery housing for an electric vehicle according to an embodiment of the present invention.
Figure 3 is an exploded perspective view of a battery housing for an electric vehicle according to an embodiment of the present invention.
4 is a perspective view of an insert frame according to an embodiment of the present invention.
5 is a perspective view of a cover bonding structure consisting of an insert frame and a cover integrally formed in accordance with an embodiment of the present invention.
Figure 6 is a perspective view of the structure for joining the cover through a CNC machining step in accordance with an embodiment of the present invention.
FIG. 7 is a cross-sectional view taken along line AA of FIG. 6;
8 is a cross-sectional view of a cover bonding structure having a coupling structure of another form shown by cutting the same portion as in FIG.

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

The battery housing manufacturing method for an electric vehicle according to an embodiment of the present invention is composed of an insert frame forming step, a fine groove forming step, an insert die casting forming step, a heat treatment step, a CNC processing step, and a welding step.

First, the battery housing for an electric vehicle of the present invention basically consists of a case 10 having both ends open and a cover 30 which is coupled to the case 10 to block both open ends of the case 10.

The case 10 may be manufactured by extruding an aluminum (Al) material. 2 and 3, the case 10 is formed in a substantially rectangular pillar shape, and a space for inserting a battery pack is formed therein. Such a case 10 may be manufactured before the present invention or manufactured through a separate manufacturing step and then supplied when the welding step is performed.

In the insert frame forming step, the insert frame 20 is molded by any one of drawing, extrusion, rolling, pressing, and CNC. Specifically, the insert frame 20 is formed by drawing, extruding, rolling, or pressing a metal sheet such as Al, SUS, or Ti. As shown in FIG. 4, the insert frame 20 is formed in a rectangular ring shape according to the end shape of the open case 10. In addition, a guide hole may be formed in the insert frame 20. As shown in FIG. 5, the guide hole functions to guide the position of the insert frame 20 in the die casting mold when the insert frame 20 is inserted into the die casting mold.

The fine irregularities forming step forms the fine irregularities 21 on the surface of the insert frame 20 in which the cover 30 is formed. The fine irregularities 21 may be formed through laser etching or chemical etching. Such irregularities are for forming a microscopic interlock between the insert frame 20 and the cover 30 which are integrally formed, and form irregularities 21 having a predetermined pattern on the insert frame 20 surface. (See Figure 7)

In addition, the method of manufacturing a battery housing for an electric vehicle of the present invention may form a coupling groove 22 on the surface of the insert frame 20 in which the cover 30 is formed, instead of the above-described micro-convex forming step. The coupling groove 22 is an undercut groove as shown in FIG. 8 (a) or FIG. 8 (b), in which the molten metal for forming the cover 30 in the insert die casting molding step flows into the coupling protrusion 31. ) Is formed.

In the insert die casting molding step, the insert frame 20 is inserted into a die casting mold to form a metal cover 30 which blocks an open end of the case 10 integrally with the insert frame 20. And the cover 30 is formed with a mounting structure for installing the battery housing in the electric vehicle.

Meanwhile, in the insert frame molding step, the insert frame 20 may be divided into two or four parts (see FIG. 4). In this case, in the insert die casting molding step, a plurality of insert frames 20 are put into a die casting mold to cover the insert frame. 30 may be molded, and the plurality of insert frames 20 may be integrally connected by the cover 30.

As such, the insert frame 20 and the cover 30 integrally formed through the insert die-casting molding step are joined to the cover 30 by welding the cover 30 to both ends of the case 10 in which both ends are open. It becomes a structure. The structure for joining the cover 30 is integrally formed with the cover 30 and welded to the case 10, and due to the pores that may occur inside the cover 30 due to the nature of the metal casting material, the case 10 and the cover ( It is possible to prevent welding failure due to direct welding in 30).

In the heat treatment step, heat treatment is performed to reinforce the strength of the insert frame 20 and the cover 30 which are integrally formed.

In the CNC machining step, after shaping the cover 30, the size, detailed shape processing and unnecessary cutting are performed. In addition, as illustrated in FIGS. 5 and 7, a part of the insert frame 20 in which the guide hole is formed may be removed in the CNC machining step.

In the welding step, the battery cell or the battery pack is inserted into the case 10, and the case 10 and the insert frame 20 are welded to each other so that the cover 30 is coupled to both ends of the case 10. Seal) and complete the battery housing. This welding step can be carried out by applying a metallurgical bonding method such as fusion welding, pressure welding, soldering.

The method for manufacturing a battery housing for an electric vehicle according to the present invention and the structure for joining the battery cover of the electric vehicle are not limited to the above-described embodiments, and may be variously modified within the scope of the technical idea of the present invention.

10: case,
20: insert frame,
30: cover,

Claims (5)

In the method of manufacturing a battery housing for an electric vehicle comprising an open case and a cover coupled to the case both ends,
An insert frame molding step of forming an insert frame for joining the cover to the case by forming a metal material by any one of drawing, extrusion, pressing, and CNC methods;
An insert die casting molding step of inserting the insert frame into a die casting mold to form a metal cover integrally with the insert frame;
CNC machining step of performing the detailed shape processing and cutting processing of the cover; And
And inserting a battery cell into the case of an aluminum material, welding the case and the insert frame to couple the cover to both ends of the case, and to seal the case. Housing manufacturing method. The method according to claim 1,
After the insert frame forming step, the micro-convex forming step of forming a fine roughness on the surface of the insert frame is formed, the cover further comprises:
The fine roughness is a battery housing manufacturing method for an electric vehicle, characterized in that formed through laser etching or chemical etching. The method according to claim 1,
After the insert frame forming step, to form a coupling groove on the surface of the insert frame in which the cover is molded,
In the insert die-casting forming step, the molten metal for forming the cover flows into the coupling groove to form a coupling protrusion is formed. The method according to claim 1,
In the insert frame molding step, a plurality of insert frames are molded,
In the insert die casting molding step, a plurality of insert frames are put into a die casting mold to form the cover, and the plurality of insert frames are integrally connected by the cover. In the structure for joining the battery cover of the electric vehicle for welding and coupling the cover to both ends of the case is formed, both ends are open,
An insert frame formed to bond the cover to the case by molding a metal material by any one of drawing, extrusion, pressing, and CNC methods; And
After inserting the insert frame into the die casting mold and injecting the molten metal is made of a metal cover molded integrally with the insert frame,
The insert frame and the case of the aluminum material by welding the coupling of the cover to both ends of the case and sealing the case of the electric vehicle, characterized in that for sealing the case.

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