KR101119399B1 - Secondary battery with the cap plate compressed into a can body and manufacturing method thereof - Google Patents

Abstract

PURPOSE: A secondary battery with cap plate compressed into can body is provided to improve adhesion and air tightness because an insulative cap plate assembly is hot-pressed or insert injection molded to a can body. CONSTITUTION: A secondary battery with cap plate compressed into can body(10) comprises a can body consisting of metal material and using for a case, and a cap plate assembly(20) in which electrodes are fixed to close the opened upper part of the cap body, and coupling piece(21) is projected along the peripheral surface vertically, thereby attaching the upper part of the can body to the coupling piece. The cap plate assembly consists of insulating resin material, is bonded to the can body through hot pressing, and is vertically projected along the bottom circumference to separate a pair of coupling piece each other, thereby being inserted of the top of the can body into an insert groove.

Description

Secondary battery with the cap plate compressed into a can body and manufacturing method

The present invention relates to a cap plate compression bonding type secondary battery and a method of manufacturing the same, and more specifically, the cap plate assembly is made of an insulating resin material, which is thermocompression-bonded or inserted into a can body to improve adhesiveness and airtightness. The present invention relates to a cap plate compression bonding type secondary battery in which a can body and a cap plate assembly are easily bonded to each other.

Cells or batteries that generate electric energy through physical or chemical reactions of materials and supply power to the outside cannot obtain AC power supplied to buildings according to the living environment surrounded by various electric and electronic devices. It is used when DC power is needed.

Among such batteries, a primary battery and a secondary battery, which are chemical cells using chemical reactions, are generally used. The primary battery is a consumable battery, commonly referred to as a battery.

In addition, the secondary battery is a rechargeable battery that is manufactured using a material that can be repeated a number of times the redox process between the current and the material, the power is charged when the reduction reaction to the material by the electric current, the oxidation reaction to the material When this is performed, the power is discharged, and as such charge-discharge is repeatedly performed, electricity is generated.

Such a secondary battery is composed of a can body (can body) used as a case of the battery and a cap plate assembly (closed top of the can body and the electrode is fixed) is combined, such a secondary battery As related technologies, Korean Patent Publication No. 10-0973309 "Insulation Case for Secondary Battery and Secondary Battery Having the Same", Registration No. 10-0882912 "Cap Assembly, Secondary Battery Having the Same, of the Cap Assembly Manufacturing method and method for manufacturing the secondary battery ", Registration No. 10-0467703" Cap assembly and secondary battery employing the same ", Publication No. 10-2010-0066860" Cap assembly for secondary battery and secondary using the same Battery ", Publication No. 10-2007-0082943" cap assembly of the improved structure and a secondary battery comprising the same "and the like have been devised.

Here, the conventional secondary battery 100 'as described above is the can body 10 and the cap plate assembly 20' made of a metal material as shown in Figure 1 after the top of the can body 10 and the cap in contact with each other The edge of the plate assembly 20 'is welded by argon welding, laser welding, or the like, and is permanently sealed. Accordingly, the time required for the work for coupling the can body 10 and the cap plate assembly 20 'is increased to reduce productivity, and welding is required to a certain thickness or more for strength, thereby limiting material cost. There was a problem that the cost is increased. In addition, the weight is increased by the input of the filler metal according to the welding, and the material of the can body 10 and the cap plate assembly 20 'is changed due to the high heat during welding, thereby degrading the material properties of the material. In addition, product defects (leakage of electrolyte material inside the battery due to gap formation, etc.) due to poor welding due to the characteristics that depend on the welding skill of the operator were high, and the cleanliness of the work space was impaired by sparking during welding. There was a risk of safety accidents due to fire hazards. In addition, when the quality inspection after the completion of the welding work, the X-ray inspection is required to detect the weld defect beads, which also increases the inspection cost.

Meanwhile, as the cap plate assembly 20 'is made of a conductive metal material, the positive electrode terminal 30 and the negative electrode terminal 40 are fixed to the cap plate assembly 20' via the insulator 50. Therefore, the conventional secondary battery 100 ′ is cumbersome to additionally have an insulator 50, and is inconvenient in installing the positive electrode terminal 30 and the negative electrode terminal 40 through the insulator 50. There was a lot of trouble.

The present invention has been made to solve the above problems, so that the electrode terminal is directly fixed to the cap plate assembly made of an insulating resin material, there is no need for a separate insulator can simplify the configuration and assembly work of the cap plate assembly An object of the present invention is to provide a cap plate press-bonding secondary battery of a new form and a method of manufacturing the same.

In addition, the present invention is a cap plate assembly made of an insulating resin material to be thermo-compression or insert injection molding on the can body, the coupling between the can body and the cap plate assembly is made simple and easy, can body and the cap plate It is an object of the present invention to provide a new type of cap plate press-bonding secondary battery and a method of manufacturing the same to improve the airtightness and adhesion.

Cap plate compression bonding type secondary battery of the present invention for achieving the above object is used as a case of the battery, can body made of a metal material; The electrode is fixed, and comprises a cap plate assembly for closing the open upper portion of the can body, the cap plate assembly is made of an insulating resin material is characterized in that it is pressed and bonded to the top of the can body .

In the cap plate crimping-bonded secondary battery according to the present invention, the cap plate assembly may be formed to protrude vertically along the periphery of the bottom of the cap plate assembly such that the upper inner circumferential surface of the can body is in close contact with the coupling piece.

In the cap plate compression bonding type secondary battery according to the present invention, the coupling piece is formed to be spaced inwardly from the end of the cap plate assembly so that the cap plate assembly forms a coupling groove to the outside of the coupling piece, the coupling The depth d of the groove may correspond to the thickness t of the can body.

In the cap plate compression bonding type secondary battery according to the present invention, the coupling piece forms a locking groove horizontally on an outer circumferential surface, and the can body forms a protrusion toward the upper end, and the can body is a locking groove of the coupling piece. The protrusion of the can body and the cap plate assembly may be coupled to each other.

In the cap plate pressurized junction type secondary battery according to the present invention, the cap plate assembly may be formed in a fitting groove formed between the pair of fixing pieces to protrude vertically to be spaced apart from each other along a peripheral edge of the bottom of the can. The top of the body can be fitted.

In the cap plate compression bonding type secondary battery according to the present invention, the width w of the fitting groove may correspond to the thickness t of the can body.

In the cap plate crimp-bonded secondary battery according to the present invention, the pair of fixing pieces may be formed such that the inner fixing piece is formed longer than the outer fixing piece so that the upper inner circumferential surface of the can body is in close contact with the inner fixing piece.

In the cap plate compression bonding type secondary battery according to the present invention, the cap plate assembly bonding surface of the can body may be surface treated by any one selected from plating treatment, etching treatment, and chemical surface treatment.

In the cap plate compression bonding type secondary battery according to the present invention, the upper inner surface of the can body to which the cap plate assembly is bonded may be nickel plated to a thickness of 4 to 10 μm.

In the cap plate crimp bonded secondary battery according to the present invention, the cap plate assembly is the cap plate assembly is PPS resin, PBT resin, PI resin, LCP resin, PEEK resin, PEK resin, EPDM resin, ACM resin, PP resin , Polypropylene and Ethylene Propylene (PP + EPDM) may be made of any one resin material selected from the group of resins.

In addition, the manufacturing method of the cap plate compression bonding type secondary battery of the present invention for achieving the above object comprises the steps of: forming a case of the battery, comprising a can body made of a metal material; And a step of allowing the can plate assembly made of an insulating resin material to be coupled to the upper end portion of the can body, wherein the insert injection molding process of the resin material with respect to the upper end of the can body and the cap plate assembly are performed on the can body. The cap plate assembly is characterized in that coupled to the can body by any one process selected from the process of pressing and placing at the top of the.

In the method of manufacturing a cap plate press-bonded secondary battery according to the present invention, the cap plate assembly is thermocompressed on the upper end of the can body to be coupled to the can body, and the top of the can body to which the cap plate assembly is joined. A lower portion of the cap plate assembly may be inserted inward, and the cap plate assembly may be pressed onto the upper portion of the can body by pressing the upper portion of the can body into which the cap plate assembly lower portion is inserted.

Cap plate compression bonding type secondary battery of the present invention made as described above and the manufacturing method thereof, the cap plate assembly is made of a resin material having an insulating property as the thermocompression bonding or insert injection molding to the can body, the configuration and assembly of the cap plate assembly The operation is simplified to reduce the manufacturing cost and operation cost, while the adhesiveness and airtightness between the can body and the cap plate assembly are increased, thereby improving product quality and minimizing defect rate during manufacturing. In addition, as the joining workability of the can body and the cap plate assembly is improved, manufacturing productivity is increased.

In addition, by replacing the welding work, the work safety of the manufacturing site is improved, and the risk of an accident is also minimized.

1 is a view for showing a conventional secondary battery consisting of a can body and a cap plate assembly;
2 is a view for showing a cap plate compression bonding secondary battery according to an embodiment of the present invention;
3 (a) to (c) is a view for showing a configuration in which the can body and the cap plate assembly constituting the cap plate compression bonding secondary battery according to an embodiment of the present invention;
Figure 4 is a view showing a configuration in which the upper inner surface of the can body constituting the cap plate compression bonding secondary battery according to an embodiment of the present invention is plated and bonded to the cap plate assembly.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 to 4. Meanwhile, in the drawings and the detailed description, illustrations and references to structures and operations easily understood by those skilled in the art from ordinary batteries, secondary batteries, can bodies, cap plate assemblies, thermocompression bonding, plating processes, etc., are briefly or omitted. It was. In particular, in the drawings and detailed description of the drawings, detailed descriptions and illustrations of specific technical configurations and operations of elements not directly related to technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly shown or described. It was.

2 is a view showing a cap plate compression bonding secondary battery according to an embodiment of the present invention.

Referring to FIG. 2, the cap plate crimp bonded secondary battery 100 according to the embodiment of the present invention includes a can body 10 and a cap plate assembly 20.

The can body 10 is used as a case of a battery, and an electrolyte material, an electrode body, or the like for operating as a battery is disposed therein. The can body 10 is made of a metal material such as aluminum (Al) and copper (Cu).

The cap plate assembly 20 is an electrode, such as the positive terminal 30 and the negative terminal 40 is fixed, and closes the open upper portion of the can body 10. The cap plate assembly 20 is made of a resin material having insulation. Here, the cap plate assembly 20 is the cap plate assembly is PPS resin, PBT resin, PI resin, LCP resin, PEEK resin, PEK resin, EPDM resin, ACM resin, PP resin, Polypropylene and Ethylene Propylene (PP + EPDM) It may be made of a resin material such as resin. Of course, the material forming the cap plate assembly 20 is not limited thereto.

As described above, the cap plate assembly 20 is made of a resin material and pressed to the upper end of the can body 10 to be joined. Alternatively, the cap plate assembly 20 may be molded by a resin material which is injected into the top of the can body 10. Here, the cap plate assembly bonding surface of the can body 10 may be plated, etched, or chemically treated to allow the cap plate assembly 20 to be firmly and stably bonded.

Meanwhile, the cap plate assembly 20 according to the embodiment of the present invention vertically protrudes the coupling piece 21 along the bottom edge of the cap so that the upper inner circumferential surface of the can body 10 is in close contact with the coupling piece 21. .

Cap plate crimp bonded secondary battery 100 according to an embodiment of the present invention configured as described above is provided with a can body 10 and the can plate assembly 20, the can plate assembly 20 can body 10 It is manufactured to include a step to be coupled to the top portion of the), the cap plate assembly 20 is thermally pressed to the top of the can body 10 is coupled to the can body 10. To this end, the bottom of the cap plate assembly 20 is inserted into the upper end of the can body 10 to which the cap plate assembly 20 is joined, and the upper portion of the can body 10 into which the cap plate assembly 20 is inserted. Press the cap plate assembly 20 is pressed to the top of the can body 10 to be bonded. Here, when pressing the upper portion of the can body 10, the bottom of the cap plate assembly 20 is applied to heat the upper portion of the can body 10 is inserted so that the thermocompression is made.

On the contrary, the cap plate crimp-type secondary battery 100 of the present invention inserts a resin material into the upper end of the can body 10 to form the cap plate assembly 20 and the cap plate assembly 20 and the can body ( 10) may be made to be bonded at the same time.

As described above, the cap plate press-bonded secondary battery of the present invention and a method for manufacturing the cap plate assembly 20 are made of an insulating resin material, which is thermocompression-bonded or inserted into the can body 10, thereby forming a cap plate. The configuration and assembly work of the assembly 20 is simplified, and adhesion, airtightness and workability between the can body 10 and the cap plate assembly 20 are increased.

3 (a) to (c) is a view showing a configuration in which the can body and the cap plate assembly constituting the cap plate compression bonding secondary battery according to an embodiment of the present invention.

Referring to Figure 3 (a), the cap plate compression bonding secondary battery 100 according to an embodiment of the present invention protrudes the coupling piece 21 vertically around the bottom edge of the cap plate assembly 20 You can do that. Here, the coupling piece 21 is formed to be spaced inward from the end of the cap plate assembly 20 so that the cap plate assembly 20 forms the coupling groove 22 to the outside of the coupling piece 21. The depth d of the coupling groove 22 corresponds to the thickness t of the can body 10, and the depth d of the coupling groove 22 is equal to the thickness t of the can body 10. It is preferably formed. Accordingly, the upper end of the can body 10 is inserted into the coupling groove 22 of the cap plate assembly 20, and the inner peripheral surface of the upper end of the can body 10 is brought into close contact with the coupling piece 21 so that the can body 10 and Bonding and coupling of the cap plate assembly 20 is made firm and stable.

Referring to FIG. 3B, in the cap plate crimp bonded secondary battery 100 according to the embodiment of the present invention, a pair of fixing pieces 24 are spaced apart from each other along a circumference of the bottom edge of the cap plate assembly 20. It can be made to protrude vertically. The fitting groove 25 is formed between the pair of fixing pieces 24 such that the upper end of the can body 10 is fitted into the fitting groove 25. As such, the upper end of the can body 10 is fitted into the fitting groove 25, so that the assembly of the can body 10 and the cap plate assembly 20 can be easily and easily made.

Here, the width w of the fitting groove 25 corresponds to the thickness t of the can body 10, and the width w of the fitting groove 25 is equal to the thickness t of the can body 10. It is preferable to form the same. Accordingly, the upper end of the can body 10 is fitted into the fitting groove 25 of the cap plate assembly 20, and the inner and outer circumferential surfaces of the upper end of the can body 10 adhere to the pair of fixing pieces 24 so that the can body ( 10) and the bonding and coupling of the cap plate assembly 20 is made to be firm and stable.

On the other hand, the pair of fixing pieces 24 are formed so that the inner fixing piece 24a is formed longer than the outer fixing piece 24b so that the upper inner circumferential surface of the can body 10 is tightly supported by the inner fixing piece 24a. do.

Referring to Figure 3 (c), the cap plate compression bonding secondary battery 100 according to an embodiment of the present invention is a coupling piece which is formed to protrude vertically around the bottom edge of the cap plate assembly 20 ( The locking groove 23 may be horizontally formed on the outer circumferential surface of the 21. Correspondingly, the can body 10 forms a protrusion 11 inside the upper end. Accordingly, the can body 10 and the cap plate assembly 20 are coupled to each other while the protrusion 11 of the can body 10 is fitted into the locking groove 23 of the coupling piece 21. Since the projection 11 is fixed to the structure, the cap plate assembly 20 is prevented from being pulled out of the can body 10 by external force or vibration in the vertical direction, and the can body 10 and the wet plate assembly 20 are prevented. ) The bonding strength and bonding strength are improved.

Figure 4 is a view showing a configuration in which the upper inner surface of the can body constituting the cap plate compression bonding secondary battery according to an embodiment of the present invention is plated and bonded to the cap plate assembly.

Referring to FIG. 4, in the cap plate crimp bonded secondary battery 100 according to an exemplary embodiment of the present invention, the inner surface of the upper end of the can body 10 to which the cap plate assembly 20 is bonded is plated and plated layer 12. Can be formed. Here, the upper inner surface of the can body 10 to which the cap plate assembly 20 is bonded may be nickel plated to a thickness of 4 to 10 μm. As described above, the upper inner surface of the plated can body 10 improves adhesion when combined with the cap plate assembly 20.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10: can body 11: projection
12: plating layer 20, 20 ': cap plate assembly
21: coupling piece 22: coupling groove
23: locking groove 24, 24a, 24b: fixed piece
25: fitting groove 30: positive terminal
40: negative electrode terminal 50: insulator
100, 100 ': secondary battery

Claims (12)

A can body, which is used as a battery case and is made of a metal material;
The electrode is fixed, and closing the open top of the can body, the coupling piece is formed to protrude vertically along the edge circumference is made to include a cap plate assembly to be in close contact with the top of the can body,
The cap plate assembly is made of an insulating resin material and is thermocompression-bonded to an upper end of the can body, and a pair of fixing pieces protrude vertically to be spaced apart from each other along a circumference of the bottom surface, so that the pair of fixing pieces are formed therebetween. Cap plate crimping-type secondary battery, characterized in that the upper end of the can body is inserted into the fitting groove is formed. The method of claim 1,
Cap plate compression bonding type secondary battery characterized in that the upper inner circumferential surface of the can body is in close contact with the coupling piece formed around the bottom edge of the cap plate assembly. The method of claim 2,
The coupling piece is formed to be spaced inward from the end of the cap plate assembly so that the cap plate assembly to form a coupling groove to the outside of the coupling piece,
Cap plate compression bonding type secondary battery characterized in that the depth (d) of the coupling groove to correspond to the thickness (t) of the can body. 4. The method according to claim 2 or 3,
The coupling piece forms a locking groove horizontally on the outer peripheral surface,
The can body is formed with a protrusion inside the upper end,
Cap plate compression bonding type secondary battery, characterized in that the can body and the cap plate assembly is coupled to each other while the projection of the can body is fitted into the engaging groove of the coupling piece. delete The method of claim 1,
Cap plate compression bonding type secondary battery, characterized in that the width (w) of the fitting groove to correspond to the thickness (t) of the can body. The method of claim 1,
The pair of fixing pieces are formed such that the inner fixing piece is formed longer than the outer fixing piece so that the upper inner circumferential surface of the can body to be in close contact with the inner fixing piece, the cap plate compression bonding type secondary battery. The method of claim 1,
Cap plate assembly bonding surface of the can body cap plate compression bonding type secondary battery, characterized in that the surface treatment by any one selected from plating treatment, etching treatment, chemical surface treatment. The method of claim 8,
Cap plate compression bonding type secondary battery, characterized in that the upper inner surface of the can body to which the cap plate assembly is bonded is nickel plated with a thickness of 4 to 10㎛. The method of claim 1,
The cap plate assembly is any one resin material selected from PPS resin, PBT resin, PI resin, LCP resin, PEEK resin, PEK resin, EPDM resin, ACM resin, PP resin, Polypropylene and Ethylene Propylene (PP + EPDM) resin group Cap plate compression bonding type secondary battery, characterized in that consisting of. Forming a case of the battery and including a can body made of a metallic material;
The electrode is fixed, and the coupling piece is formed to protrude vertically along the edge circumference so that the top of the can body is in close contact with the coupling piece, and a pair of fixing pieces are formed to protrude vertically apart from each other along the bottom edge of the pair. Comprising the step of allowing the top of the can body is fitted in the fitting groove formed between the fixing piece of, and the cap plate assembly made of an insulating resin material is coupled to the top portion of the can body,
The cap plate assembly is coupled to the can body by one of a process selected from a resin injection molding process for the upper end of the can body and a process of placing the cap plate assembly on the top of the can body and compressing the cap plate assembly. Method of manufacturing a cap plate crimping-bonded secondary battery, characterized in that. 12. The method of claim 11,
The cap plate assembly is thermally compressed on the top of the can body is coupled to the can body,
A lower portion of the cap plate assembly is inserted into an upper end of the can body to which the cap plate assembly is joined;
And pressing the upper portion of the can body into which the cap plate assembly lower part is inserted such that the cap plate assembly is thermocompressed and joined to the top of the can body.

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