KR100821858B1 - No-welding Inserting Type Battery Pack - Google Patents

Abstract

The present invention is a cap assembly consisting of a base plate mounted on the open top of the battery case, a protective circuit module (PCM), and a top cap of an electrically insulating material, each of the two PCM is connected to the positive electrode and the negative electrode; Through holes (a, b) are formed, and the fastener and the through hole (c) is formed in a position corresponding to the through holes in the base plate, the fastener in the state in which the PCM is placed on the base plate It is inserted into the through hole (a) and through the through hole (b) and through the through hole (c) to provide a cap assembly characterized in that the connection and mechanical connection to form a connection.

In the case of manufacturing a battery pack using such a cap assembly, by eliminating the welding or soldering process that requires a lot of time and skill in the electrical connection of the battery cell and PCM, the battery pack assembly process and work time is shortened Ultimately, the manufacturing cost can be lowered, the assembly process can be automated, and the structural stability of the battery pack can be improved.

Description

No-welding Inserting Type Battery Pack

1 is an exploded perspective view of a cap assembly according to one embodiment of the present invention;

FIG. 2 is a perspective view before coupling the protection circuit module (PCM) to the base plate using fasteners of the rivet and base plate in the cap assembly of FIG. 1, and mounting such a combination to the top cap.

<Description of Major Symbols in Drawing>

110: base plate 120: PCM

130: top cap 140: rivet

112: fastener 150, 153: gasket

160: conductive plate

The present invention relates to a battery pack of a welding-free fastening method, and more particularly, a base plate mounted on an open top of a battery case, a protection circuit module (PCM) installed on the base plate, and the PCM in a wrapped state. It comprises a top cap of electrically insulating material coupled to the top of the battery case, the PCM is formed with two through-holes (a, b) connected to the positive and negative electrodes of the battery, respectively, the base plate A fastener and a through hole (c) are formed at positions corresponding to the through holes, and the fastener is inserted into the through hole (a) with the PCM positioned on the base plate, and the through hole (b) and Cap assembly characterized in that the electrical connection and mechanical connection by fastening the rivet through the through hole (c) and comprises such a cap assembly It provides a battery pack.

With the development of technology and increasing demand for mobile devices, the demand for secondary batteries is also rapidly increasing. Among them, lithium secondary batteries with high energy density, high operating voltage, and excellent storage and life characteristics are used for various mobile devices as well as various electronic products. It is widely used as an energy source.

However, the lithium secondary battery contains various combustible materials, and there is a danger of overheating or explosion due to overcharging, overcurrent, other physical external impact, etc., and thus has a serious safety drawback. Therefore, in the lithium secondary battery, a protection circuit module (PCM) capable of effectively controlling an abnormal state such as overcharge or the like is incorporated in a state connected to the battery cell.

PCM is composed of field effect transistor (FET) as a switching element to control current, and passive elements such as voltage detector, resistor and capacitor, and overcharge, overdischarge, overcurrent, short circuit, reverse By cutting off the voltage and the like, the battery is prevented from being exploded, overheated, leaked, and deteriorated in charge and discharge characteristics, and the reduction of electrical performance and physical and chemical abnormalities are suppressed, thereby eliminating risk factors and extending the service life.

In general, PCM is connected to a battery cell by a welding or soldering method through a conductive nickel plate. That is, the nickel plate is connected to the electrode tab of the PCM by welding or soldering, respectively, and then the nickel plate is welded or soldered to the electrode terminal of the battery cell, respectively, to connect the PCM to the battery cell to manufacture a battery pack.

In this case, a large number of welding or soldering is required in order to configure the battery pack, and such welding, etc., must be performed in a very precise work due to the small structure of the secondary battery, and thus the likelihood of defects is high. In addition, the addition of such a process during the manufacturing process of the product acts as a factor that increases the product cost.

Therefore, there is an urgent need for a method of assembling a PCM and a battery cell without undergoing a spot welding or soldering process.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above and the technical problems that have been requested from the past.

Specifically, the object of the present invention is to shorten the assembly process and work time of the battery pack by eliminating the welding or soldering process that requires a lot of time and skilled technology when the electrical connection between the battery cell and PCM, ultimately lower the manufacturing cost It is to provide a cap assembly that can implement the automation of the assembly process.

Still another object of the present invention is to provide a battery pack having improved structural stability including the cap assembly.

Cap assembly according to the present invention for achieving this object is a base plate mounted on the open top of the battery case, a protective circuit module (PCM) is installed on the base plate, and the top of the battery case in the state wrapped around the PCM It comprises a top cap of electrically insulating material to be coupled, the PCM is formed with two through holes (a, b) connected to the positive and negative electrodes of the battery, respectively, and the base plate corresponding to the through holes The fastener and the through hole (c) is formed at the position, and the fastener is inserted into the through hole (a) with the PCM placed on the base plate, and the through hole (b) and the through hole (c). It consists of making electrical and mechanical connections by fastening the rivets through.

Therefore, the cap assembly according to the present invention uses the fasteners and rivets protruding from one side of the base plate to electrically connect the PCM on the base plate and at the same time mechanically tighten, thereby reducing the manufacturing cost and further increasing the assembly process. It simplifies and eliminates the drawbacks of welding and soldering.

In one preferred example, the rivet is a plate having a predetermined thickness in the body having a circular columnar shape and a middle portion thereof so that the rivet can be spaced a predetermined distance between the PCM and the base plate and formed as a protruding terminal on the base plate. It consists of an upper body, the fastener is protruded from the base plate to a length corresponding to the separation distance between the PCM and the base plate while the rivet is fastened to the through hole (b) of the PCM and the through hole (c) of the base plate It consists of a cylindrical form.

Preferably, the through hole (c) of the base plate into which the rivet is inserted is provided with an electrically insulating gasket surrounding the top, bottom and inner surfaces thereof, and at the bottom of the gasket, an electrode terminal of the battery cell is provided. A conductive plate may be added that is connected and has an opening through which the lower end of the rivet is inserted and fastened. Due to this structure, the rivet can be electrically insulated by the gasket except for the specific portion of the conductive plate and the PCM located at the bottom when installed between the base plate and the PCM. That is, the rivet itself forms an upper protruding terminal insulated by a gasket with respect to the base plate serving as a positive or negative terminal, the protruding terminal being an electrode opposite to the base plate, that is, a negative electrode or It acts as the electrode terminal of the anode.

In the above structure, the length of the rivet may preferably be a size that can be rolled and fastened on the top surface of the PCM and the bottom surface of the conductive plate after sequentially passing through the PCM, the base plate, the gasket and the conductive plate.

Preferably, the through hole c of the base plate into which the rivet is inserted may have an indentation corresponding thereto to allow the plate-shaped body of the rivet to be seated. Here, the indentation portion preferably corresponds to the size of the gasket so that the plate-shaped body of the rivet can be seated via the gasket.

Specifically, the gasket includes a plate-shaped upper end portion and a cylindrical main body, and penetrates through an upper end portion thereof and the main body so that the gasket may be fastened to the through hole c of the base plate while the rivet is inserted. It is preferable that an insertion hole into which the main body of the rivet is inserted is formed. In addition, an indentation portion corresponding to the plate-shaped body may be formed on the upper end surface of the upper end thereof so that the plate-shaped body of the rivet can be seated.

The gasket may be joined, for example, from the top and bottom surfaces of the base plate as two members, or may be integrally formed by insert injection molding.

The present invention also provides a battery pack comprising the cap assembly. The battery pack according to the present invention is manufactured by coupling the cap assembly as described above to the open top of the battery case in which the electrode assembly of the positive electrode / separator / negative electrode is built. The battery pack may preferably be a so-called rectangular battery in which the electrode assembly is embedded in a rectangular metal can.

Hereinafter, the cap assembly according to the embodiment of the present invention will be described with reference to the drawings, but this is for easier understanding of the present invention, and the scope of the present invention is not limited thereto.

1 is an exploded perspective view of a cap assembly according to one embodiment of the present invention.

Referring to FIG. 1, the cap assembly 100 includes a base plate 110 mounted on an open top of a battery case (not shown), a PCM 120 installed on the base plate 110, and a PCM 120. Consists of the top cap 130 of the electrically insulating material coupled to the top of the battery case in a state wrapped.

In the center of the base plate 110 is a through hole (c: 114) for fastening the rivet 140 is connected to the negative electrode of the battery, and one side thereof is connected to the positive electrode of the battery and the PCM 120 is mounted Fasteners 112 protruding in the direction are provided.

A through hole (b) 124 through which the rivet 140 is fastened to a position corresponding to the through hole 114 of the base plate 110 is drilled in the center of the PCM 120, and on one side thereof, the base plate 110. The through hole (a) 122 into which the fastener 112 is inserted is drilled.

Accordingly, the fastener 112 is inserted into the through hole 122 while the PCM 120 is positioned on the base plate 110, and the rivet 140 is inserted into the through hole 124 and the through hole 114. By mounting, electrical and mechanical connections can be made.

The rivet 140 connected to the cathode of the electrode assembly (not shown) is spaced apart between the base plate 110 and the PCM 120 and is formed as a protruding terminal on the base plate 110. Rivet 140 having such a function consists of a cylindrical body (141a, 141b) and a plate-like body 142 having a predetermined thickness in the middle portion thereof. The upper end portion 141a of the rivet 140 is inserted into the through hole 124 of the PCM 120, and the lower end portion 141b is inserted into the through hole 114 of the base plate 110.

On the other hand, the fastener 112 of the base plate 110 connected to the anode of the electrode assembly is at a separation distance between the base plate 110 and the PCM 120 formed by the plate body 142 of the rivet 140. It protrudes to the corresponding length, and consists of a cylindrical shape so as to correspond to the through-hole 122 of the PCM (120).

Before the rivet 140 is inserted into the through hole 114 of the base plate 110, the through hole 114 is provided with an electrically insulating gasket. The gasket includes an upper gasket 150 and a lower gasket 153, and the upper gasket 150 is installed at the top of the base plate 110 and inserted into the through hole 114 to surround the inner surface thereof. Consists of the upper end 152 of the plate-shaped structure surrounding the body 151 and its upper surface. On the other hand, the lower gasket 153 is installed on the bottom of the base plate 110 and has a plate-like structure surrounding the bottom surface of the through hole (c) 114. Here, an insertion hole 154 is formed in the main body 151 and the upper end 152 of the upper gasket 150 to penetrate it in the vertical direction and to insert the lower end 141b of the main body of the rivet 140.

The lower end of the lower gasket 153 is provided with a conductive plate 160, the conductive plate 160 is a portion where the negative terminal of the electrode assembly (not shown) is connected by welding, etc., the lower end of the rivet 140 An opening 164 is formed that can be inserted into and fastened. In this case, the lower gasket 153 installed at the lower end of the base plate 110 may have a size larger than that of the conductive plate 160 to prevent the conductive plate 160 from contacting the base plate 110 or may have a top surface thereof. It consists of a structure surrounding the side.

When the rivet 140 is inserted into the through hole 114 of the base plate 110, the indentation 115 corresponding thereto is provided so that the plate-like body 142 of the rivet 140 can be seated. It is formed around. At this time, since the rivet 140 is inserted into the through hole 114 via the upper gasket 150, the indentation 115 of the through hole 114 is formed to have a size corresponding to the upper gasket 150. An indentation 155 corresponding to the upper surface of the upper gasket 150 is formed to allow the plate-shaped body 142 of the rivet 140 to be seated.

An assembly process of the cap assembly 100 will be described with reference to FIGS. 1 and 2.

The upper gasket 150 and the lower gasket 153 are fastened to the central through hole 114 of the base plate 110, respectively, and the rivet 140 is positioned with the conductive plate 160 positioned at the lower end of the lower gasket 153. The lower end portion 141b of the main body is inserted into the insertion hole 154 of the gaskets 150 and 153 and the opening 164 of the conductive plate 160. The lower end portion 141b of the rivet 140 has a length such that a part thereof protrudes from the opening 164 of the conductive plate 160 at the time of insertion, thus rolling the lower end portion (riveting). Fastening can be achieved.

In addition, the upper end portion 141a of the rivet 140 is inserted into the central through hole 124 of the PCM 120, and the upper end portion 141a of the main body also protrudes from the through hole 124 when inserted as described above. Since it has a length enough, it is possible to achieve the fastening by rolling the upper protrusion.

As described above, in the process of fastening the rivet 140 to the central through hole 124 of the PCM 120 and the central through hole 114 of the base plate 110, the protrusion protruding from the side of the base plate 110. The sphere 112 is inserted into the side through hole 125 of the PCM 120. Since the fastener 112 has a length such that one end thereof protrudes from the through hole (a) 115 during the insertion, the fastener 112 may be fastened by rolling the upper protrusion. However, since the method of forming the fastening of the PCM 120 and the base plate 110 using the rivet 140 and the fastener 112 may vary, the present invention is not limited thereto.

In the state where the PCM 120 and the base plate 110 are fastened, the base plate 110 is placed on the open upper end of the battery case (not shown), and the top plate 130 is finally joined by welding or the like. ) Will be installed.

In the assembling process as described above, the base plate 110 and the PCM 120 are mutually coupled in a state spaced apart by a predetermined distance by the plate body 142 of the rivet 140 interposed therebetween. The electrical connection is made by the rivet 140 and the fastener 112 protruding from the base plate 110.

Although described above with reference to the drawings according to an embodiment of the present invention, those of ordinary skill in the art will be able to perform various applications and modifications within the scope of the present invention based on the above contents.

As described above, the battery pack of the non-welding fastening method according to the present invention eliminates the welding or soldering process that requires a lot of time and skilled technology when the battery cell and the PCM are electrically connected to reduce the assembly process and the working time of the battery pack. By shortening it can ultimately lower the manufacturing cost, implement automation of the assembly process, as well as improve the structural stability of the battery pack.

Claims (10)

It comprises a base plate mounted on the open top of the battery case, a protective circuit module (PCM) installed on the base plate, and the top cap of the electrically insulating material coupled to the top of the battery case in a state wrapped around the PCM The PCM has two through holes (a, b) connected to the positive and negative electrodes of the battery, respectively, and the fastening hole and the through hole (c) are formed at positions corresponding to the through holes in the base plate. And inserting the fastener into the through hole (a) while the PCM is positioned on the base plate, and fastening the rivet through the through hole (b) and the through hole (c) to form an electrical connection and a mechanical connection. Cap assembly, characterized in that. The method of claim 1, wherein the rivet consists of a cylindrical body and a plate-shaped body having a predetermined thickness in the middle portion thereof so as to be spaced between the PCM and the base plate and formed as a protruding terminal on the base plate. Cap assembly. 3. The cap assembly of claim 2, wherein the fastener protrudes from the base plate at a length corresponding to the separation distance between the PCM and the base plate while the rivet is fastened to the through hole (a) of the base plate. . 3. The cap assembly according to claim 2, wherein the through hole (c) of the base plate into which the rivet is inserted is provided with an electrically insulating gasket surrounding the top, bottom and inner surfaces thereof. The cap assembly of claim 4, wherein a conductive plate having an opening connected to an electrode terminal of the battery cell and having an opening through which the lower end of the rivet is inserted is attached to the lower end of the gasket. 6. The cap as claimed in claim 5, wherein the rivet has a length that can be rolled and fastened on the upper surface of the PCM and the lower surface of the conductive plate after sequentially passing through the PCM, the base plate, the gasket, and the conductive plate. assembly. 3. The cap assembly according to claim 2, wherein the through hole (c) of the base plate into which the rivet is inserted is formed with an indent corresponding to the plate-like body of the rivet so as to be seated thereon. 5. The cap assembly as claimed in claim 4, wherein the gasket is two members respectively joined from the top and bottom surfaces of the base plate or integrally formed by insert injection molding. A battery pack having a structure in which a cap assembly according to any one of claims 1 to 8 is coupled to an open upper end of a battery case in which an electrode assembly is incorporated. The battery pack according to claim 9, wherein the battery case is a rectangular metal can.

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