KR102131613B1 - battery case and manufacturing methods therof - Google Patents

Abstract

The present invention relates to a battery case and a manufacturing method thereof which reduces time required for manufacturing processes by extruding a floor and a side plate while forming an assembly structure at mutually joining portions to form an assembly type, thereby not only reducing the time required for the manufacturing processes, but also reducing the time required for a post-treatment process by minimizing deformation including distortion occurring in a welding process.

Description

Battery case and manufacturing method thereof {battery case and manufacturing methods therof}

The present invention relates to a battery case and a method for manufacturing the same, and in detail, extruding the bottom and side plates, but forming an assembly structure in a part that is coupled to each other, and thus, as it is prefabricated, the welding process is reduced and the manufacturing process is reduced. The present invention relates to a battery case and a method of manufacturing the same, which not only reduces the time, but also minimizes the distortion including distortion generated in the welding process, thereby reducing the time required for the post-treatment process.

Case (case) is a box for storing or packing the desired contents by providing a storage space therein, there are a variety of cases, and the battery case for storing batteries used in electric vehicles in accordance with the recent development of electric vehicles (or Tray), hereafter referred to as “case”).

Battery cases for electric vehicles are installed in a large number to store a large amount of electricity required for driving the vehicle, and various types of battery cases have been developed to stably store a plurality of batteries, for example, Patent Document 1 There are four to four.

Patent document 1 is a base plate; A secondary tray installed on the upper portion of the base plate and divided into a plurality of independent regions along the length direction of the base plate, a battery mounting region in which a plurality of battery cells are mounted in close contact among the inner regions of the secondary tray, and a battery cell A tray having this unmounted battery unmounted area; And first and second heat sinks that are in close contact along the outer longitudinal direction of the tray and the inner regions are partitioned to the bottom and the top by partition protrusions, thereby allowing cooling water to flow, and the heat sinks flow into the first heat sink. The cooled water is moved along the lengthwise direction of the lower side of the heat sink and flows into the second heat sink located at the upper side. ,

Patent Document 2 is a housing; Cooling wind inlet and outlet provided at the front end and rear end of the housing; A plurality of module mounting portions provided to continuously mount the battery modules between the front end portion and the rear end portion of the housing; A central bulkhead provided on a module mounting portion located at the center of the housing and sealing between the battery module and the housing to allow cooling air to pass through only the battery module; It includes; and a front bulkhead that is provided in the module mounting portion adjacent to the front of the module mounting portion is provided with a central partition wall is sealed between the battery module and the housing, but the ventilation hole is formed to be spaced apart so that the cooling wind passes through the ventilation hole and the battery module. The module mounting portion is provided in a plurality of rows/columns in the housing, and the central bulkhead is an electric vehicle battery case configured to seal both between adjacent battery modules and the housing in the same row,

Patent document 3 is a battery for an electric vehicle is accommodated therein, the upper body is opened; And an upper cover covering an open upper portion of the main body, wherein the height of the main body is formed higher than the height of the battery so that the battery and the upper cover are spaced apart from each other, and a cooling passage is provided between the battery and the upper cover inside the main body. An inlet port is formed at a position facing the one side of the cooling flow path to allow external air to flow into the cooling flow path, and an outlet port is formed at a position opposite to the other side of the cooling flow path from the main body to discharge air introduced into the cooling flow path to the outside. Further comprising at least one auxiliary case having a support portion located on both sides of the main body, and a connection portion that is in close contact with the lower side of the main body and which is connected to the lower side of the support portion located on both sides of the main body, the guide portion of the elevating unit is provided outside the support portion of the auxiliary case. It is a battery case for the formed electric vehicle,

Patent Document 4 is a battery case of an electric vehicle provided with a plurality of battery cells, the fixed plate disposed on both outer surfaces of the battery cell; It is a battery case of an electric vehicle comprising; and a deforming member formed to be deformable in the expansion direction of the battery cell when the swelling of the battery cell is combined with both ends of the fixing plate at both ends and the fixing plate.

Various battery cases have been developed as described above, but a method of manufacturing them is a method of extruding a rim and arranging and welding rolled or extruded plate-shaped bottom plates in a longitudinal direction and at right angles to correspond to each other.

When the rim and the bottom plate are combined by welding as described above, as CO ₂ welding is performed, a lot of heat is generated in the welding well, and there is a lot of deformation due to asymmetry.

In addition, as the entire bottom plate and the rim are joined by welding, there is a disadvantage that a large amount of welding takes a lot of time, such as welding time and calibration work.

In addition, the welding method uses a water cooling device or a jig for suppressing deformation in a welding jig to suppress or remove warping in the cooling process as warping occurs due to shrinkage in the process of cooling the case assembled by welding. There is also a disadvantage that it takes a lot of manpower and time to install and demolish the devices.

Republic of Korea Registered Patent No. 10-1185720 Republic of Korea Registered Patent No. 10-1356200 Republic of Korea Registered Patent No. 10-1328010 Republic of Korea Patent Publication No. 10-2018-0068379

The present invention has been developed to solve the problems of the prior art as described above, and provides a battery case and a method for manufacturing the same, which minimizes the warpage caused by welding or the post-treatment process after welding by minimizing the welding part. It aims to do.

Particularly, the present invention not only reduces the time required for the manufacturing process by reducing the welding work as it is prefabricated by extruding the bottom and side plates, but forming the assembly structure in the parts that are joined to each other, so that it is generated in the welding process. It is an object of the present invention to provide a battery case and a method for manufacturing the battery case which can reduce the time required for the post-treatment process by minimizing deformation including distortion.

The battery case according to the present invention for solving the above object is a battery case having a side plate at the edge of the bottom plate, the engaging projection is formed with a serrated wedge at the edge end of the bottom plate; It is formed at the bottom of the inner wall opposite to the bottom plate of the side plate and has a coupling groove formed in a serrated shape into which the coupling protrusion is fitted, and is characterized in that the coupling protrusion is fitted into the coupling groove.

It is preferable that a reinforcing border is further formed at an edge end of the bottom plate, the engaging projection is formed in a reinforcing border portion, and an edge supporting groove for supporting the reinforcing frame is formed outside the engaging groove of the side plate.

A method of manufacturing a battery case according to the present invention includes: extruding a bottom plate and a side plate so that a coupling protrusion is formed at an edge end of the bottom plate and a coupling groove is formed at an inner bottom of the side plate; Arranging the side plate on the edge of the bottom plate so that the coupling groove of the side plate faces the coupling protrusion of the bottom plate; An assembly step of pushing the side plate toward the bottom plate to engage the coupling protrusion of the bottom plate in the coupling groove of the side plate; It is characterized by consisting of.

In the assembling step of the side plate and the bottom plate assembled in the assembling step, a spot welding step may be further performed to prevent separation of the assembling portion.

In addition, an airtight agent may be further coated on the assembly portion of the side plate and the bottom plate assembled in the assembly step.

The battery case and its manufacturing method according to the present invention can reduce deformation due to welding by minimizing the welding part, and can minimize the post-welding process, thereby simplifying the manufacturing process and reducing the cost of manufacturing. It has an effect.

In addition, the present invention has an effect capable of preventing the bottom plate and the side plate from being inadvertently disassembled because the coupling groove and the coupling protrusion are combined and assembled more firmly.

In addition, the present invention also has the effect of perfectly catching up to airtightness and watertightness by applying an airtight agent such as silicone.

1 is a perspective view of an example of a battery case according to the present invention
Figure 2 is an exploded perspective view of an example of the bottom plate and the side plate of the battery case according to the present invention
Figure 3 is a cross-sectional view of an example of the bottom plate and the side plate of the battery case according to the present invention
4 is an enlarged view of part A of FIG. 3, and an enlarged view of an assembly part of the bottom plate and the side plate.

The present invention can be applied to various changes and can have various embodiments, and specific embodiments are illustrated in the drawings and will be described through detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing each drawing, similar reference numerals are used for similar components. In the description of the present invention, when it is determined that a detailed description of related known technologies may obscure the subject matter of the present invention, the detailed description will be omitted.

The present invention can minimize the post-processing process that occurs after welding or distortion caused by welding by minimizing the welding portion.

The battery case according to the present invention, as shown in Figure 1, a battery case having a side plate 20 on the edge of the bottom plate 10, as shown in Figures 2 to 4, the edge of the bottom plate An engaging projection (10d) having a serrated wedge formed at the end; It is formed at the bottom of the inner wall opposite to the bottom plate of the side plate and has a coupling groove (20g) formed in a serrated shape to which the coupling protrusion is fitted and coupled, so that the coupling protrusion is fitted into the coupling groove.

The bottom plate 10 has the shape of a flat plate material, as shown in FIG. 1, various components can be installed on the top, and when the width is constant, it can be made of one plate, and the width When the length is different or longer, two or more plates can be combined with each other in the longitudinal direction to form a bottom plate, and the coupling between the plates can be combined with each other by friction stir welding (FSW).

As shown in FIGS. 2 to 3, the bottom plate 10 has coupling protrusions 10d at its edges.

The engaging projection (10d) is formed in a sawtooth shape as shown in enlarged in FIG.

That is, the attachment is formed to be inclined toward the inside of the bottom plate so that it is easily fitted along the broken inclined surface to be fitted into the coupling groove (20g) formed in the side plate, but when fitted into the coupling groove, the attachment is caught in the coupling groove so as not to be disassembled.

Of course, the coupling groove formed in the side plate is also inclined so that the attachment is toward the center of the case.

As described above, the bottom plate is formed of a plate body, and when such a plate material is thin, it is difficult to form the engaging projection 10d at the edge end, and the contact area with the side plate is narrow, so the bonding force may be insufficient.

Accordingly, a reinforcement border 10s is further formed at an edge end of the bottom plate 10, and the engaging projection 10d is formed on the reinforcement border.

In addition, an edge support groove 20s for supporting the reinforcement frame was further formed outside of the coupling groove of the side plate.

That is, as shown in Figure 3, the coupling groove (10g) of the bottom plate is inserted and fixed to the coupling groove (20g) of the side plate, and the reinforcement frame (10s) of the bottom plate is fitted into the edge support groove (20s). By this, the contact area between the side plate and the bottom plate is widened, so that the coupling is more firmly maintained.

Of course, as shown in FIG. 1, a plurality of reinforcing plates 30 may be further installed, forming coupling protrusions at the ends of the reinforcing plates 30, and forming coupling grooves in the side plates and the bottom plate to force interference. Can be assembled.

Hereinafter, a method for manufacturing a battery case of the present invention configured as described above will be described.

The method of manufacturing the battery case is to minimize welding, extruding the bottom plate and the side plate so that a coupling protrusion is formed at an edge end of the bottom plate and a coupling groove is formed at an inner bottom of the side plate; Arranging the side plate on the edge of the bottom plate so that the coupling groove of the side plate faces the coupling protrusion of the bottom plate; It consists of an assembly step of pushing the side plate toward the bottom plate so that the coupling protrusion of the bottom plate is fitted into the coupling groove of the side plate.

The extruding step is a step of producing a bottom plate and a side plate by extruding the material of the bottom plate and the side plate in the same way as in the normal extrusion process. In the side plate, a coupling groove is formed in the longitudinal direction of the side plate.

Before placing the side plate on the edge of the bottom plate, the step of joining and bonding two or more bottom plates to each other may be further performed.

That is, when the length of the battery case of the present invention is long or different in width, two or more bottom plates can be assembled to form one bottom plate. At this time, two or more bottom plates are combined with each other, and the methods for combining the bottom plates As it is made by friction stir welding, it is possible to minimize heat generation in the welding process.

In the state in which the side plate is arranged around the bottom plate, the side plate is pushed toward the bottom plate so that the coupling protrusion of the bottom plate is coupled to the coupling groove formed in the side plate.

The combined bottom plate and side plate are not firmly coupled to each other by the shape of the engaging projection and the engaging groove, and if necessary, spot welding is performed on a part of the coupled portions to prevent the assembly portion from being separated.

Of course, when the reinforcement is further installed inside the battery case, it is possible to assemble the side plate after further placing the reinforcement on the upper surface of the bottom plate.

An airtight agent may be further coated on the assembly portion of the side plate and the bottom plate assembled in the assembly step.

As the hermetic holding material, a sealing material containing silicone may be used.

10: bottom plate
10d: binding projection 10s: reinforcement frame
20: shroud
20g: Coupling groove 20s: Edge support groove
30: reinforcement

Claims (5)

In the battery case having a side plate (20) at the edge of the bottom plate (10),
A coupling protrusion (10d) having a serrated wedge formed at an edge end of the bottom plate;
It is formed at the bottom of the inner wall opposite to the bottom plate of the side plate and has a coupling groove (20g) formed with a serrated wedge groove into which the wedge formed in the coupling protrusion is fitted, so that the coupling protrusion has a wedge groove of the coupling groove between the wedges. To fit into it,
A reinforcement border (10s) is further formed at an edge end of the bottom plate, and the engaging projection is formed in the reinforcement border portion,
A battery case characterized in that an edge support groove (20s) for supporting the reinforcement frame is formed outside the coupling groove of the side plate. delete As a method of manufacturing the battery case of claim 1,
Extruding the bottom plate and the side plate so that the engaging projection is formed at the edge end of the bottom plate, the coupling groove is formed in the inner bottom of the side plate;
Arranging the side plate on the edge of the bottom plate so that the coupling groove of the side plate faces the coupling protrusion of the bottom plate;
In the method of manufacturing a battery case consisting of; assembly step of the side plate to the bottom plate,
In the assembling step, the wedge groove formed in the coupling groove of the side plate is engaged by the wedge of the wedge protrusion of the bottom plate while the side plate is aligned with the side plates on both sides, and the side plate is pushed to the bottom plate layer, and the edge support groove of the side plate is bottom. Let the reinforcement border of the plate be pressed,
In the assembling part of the side plate and the bottom plate assembled in the assembling step, a spot welding step is further performed to prevent separation of the assembling part,
Method for manufacturing a battery case, characterized in that the airtight holding agent is further coated on the assembly portion of the side plate and the bottom plate assembled in the assembling step.
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