JP2002015716A - Battery pack - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a battery pack in which secondary cells are joined with short lead plates to make voltage drop due to the lead plates small and the lead plates are connected to secondary cells integrally combined by potting. SOLUTION: The battery pack has a plurality of secondary cells arrayed in parallel with both end faces positioned on the same plane joined together with lead plates 2. The reed plates 2 connect exterior cans 1A of adjoining secondary cells 1 with terminal electrodes 5. The lead plates 2 are provided with the first lead parts 2A connected with the terminal electrodes 5 and the second lead parts 2B branched from the first lead parts 2A and joined with the exterior can 1A. The first lead parts 2A have their tips connected to the terminal electrodes 5 and are bent along the end faces of the secondary cells 1 and the side faces of the exterior cans 1A at the boundary with the second lead parts 2B. The branched two second lead parts 2B are extended along the surfaces of the exterior cans 1A opposing the circumferential direction and join and fix the tip parts on the surfaces of the exterior cans 1A.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a battery pack in which a plurality of secondary batteries are connected by a lead plate.

[0002]

2. Description of the Related Art In a battery pack containing a plurality of secondary batteries, the secondary batteries are electrically connected by a lead plate.
The battery pack has a structure in which a plurality of secondary batteries are linearly connected and arranged, and a structure in which both end surfaces of the secondary batteries are arranged side by side so as to be flush with each other. In the former battery pack, since the positive and negative electrodes of the secondary batteries are arranged to face each other, the secondary battery can be connected between the secondary batteries by a dish-shaped connection metal made by processing a metal into a dish shape. However, as shown in FIG. 1, the battery pack in which the secondary batteries are arranged side by side so that both end faces are flush with each other, as shown in FIG.
Need to be connected through. In particular, as shown in the figure, a battery pack in which the positive electrode, which is the protruding electrode 5A of the secondary battery 1, is aligned and arranged on the same plane is a long lead plate 10A.
Need to be connected through. In particular, in order to connect both ends of the lead plate 10 to two electrodes of the secondary battery 1 by welding or the like in a state where the secondary batteries 1 are arranged in the arrangement shown in FIG. Connection and the other end to the bottom electrode of the battery.

[0003]

The battery pack having this structure requires an extremely long lead plate.
There is a disadvantage that the electrical resistance of the lead plate increases and the voltage drop increases. Further, in the battery pack having this structure, since lead plates are welded to both ends of the secondary battery, for example, the lower portion of the secondary battery 1 in FIG. This is because if the lead plate breaks inside the potted portion, the disconnection cannot be determined, and if the lead plate generates heat, the potted resin is deformed or damaged by the heat. Further, the long lead plate has a disadvantage that the adjacent secondary batteries cannot be connected firmly and reliably, and also has a disadvantage that the connection strength by the lead plate is weakened.

The present invention has been developed with the object of solving the above drawbacks. An important object of the present invention is to reliably connect a secondary battery with a short lead plate and to reduce the voltage generated by the lead plate. It is an object of the present invention to provide a battery pack which can reduce a drop and can securely and resiliently connect a secondary battery with a lead plate.

A further important object of the present invention is to provide a battery pack which can connect a lead plate to a secondary battery which is connected by potting to form an integral structure.

[0006]

In the battery pack of the present invention, a plurality of secondary batteries 1 are connected by a lead plate 2,
In addition, it has all the following configurations. (A) A plurality of secondary batteries 1 are arranged in parallel with both end faces located on the same plane. (B) The lead plate 2 connects the outer can 1 </ b> A of the secondary battery 1 arranged adjacent to the end electrode 5. (C) The lead plate 2 has a first lead portion 2A connected to the end electrode 5, and a second lead portion 2B branched from the first lead portion 2A and connected to the outer can 1A. (D) The first lead 2A is connected at its tip to the end electrode 5 and bends the boundary with the second lead 2B from the end surface of the secondary battery 1 along the side surface of the outer can 1A. I have. (E) The two branched second leads 2B are located opposite to the surface of the outer can 1A, and are extended in the circumferential direction along the surface of the outer can 1A. It is connected and fixed to the surface of 1A.

In the battery pack according to the present invention, preferably, the end electrode 5 is a convex electrode 5A, an insulating ring 8 is provided around the convex electrode 5A, and the first lead is provided on the insulating ring 8. Section 2A is provided. In this battery pack, the insulating ring 8 can effectively prevent the first lead portion 2A from contacting the sealing plate and short-circuiting.

Further, in the battery pack of the present invention, preferably, the surface of the outer can 1A of the secondary battery 1 is insulated with a cylindrical insulating sheet 9, and the insulating sheet 9 is placed outside the second lead portion 2B. Arrange. In this battery pack, short circuit between the outer can 1A of the adjacent secondary battery 1 and the second lead portion 2B can be effectively prevented by the insulating sheet 9. Further, the insulating sheet 9 is provided with an extension 9A that extends from the lower surface of the first lead 2A, and the extension 9A is disposed between the first lead 2A and the end face of the secondary battery 1. Can be. In the battery pack having this structure, the first lead portion 2A and the sealing plate can be prevented from being short-circuited by the extension portion 9A.

Further, in the battery pack of the present invention, preferably, a plurality of secondary batteries 1 are connected and fixed to each other by potting to a resin. This battery pack
For example, a resin for potting is filled between the case 3 containing the secondary battery 1 and the secondary battery 1, and the lower part of the secondary battery 1 can be potted and fixed to the case 3.
The battery pack of the present invention does not connect the upper and lower sides of the secondary battery with a lead plate as in the related art, so that the connection can be made without embedding the lead plate 2 in the resin. Therefore, it is possible to easily determine the disconnection of the lead plate 2 to be connected, and to effectively prevent the potting resin from being thermally deformed or damaged due to heat generation of the lead plate 2. As described above, the battery pack in which the plurality of secondary batteries 1 are connected to each other by potting with a resin and fixed to each other can securely and easily fix the plurality of secondary batteries 1 to predetermined positions.

Further, in the battery pack of the present invention, preferably, the entire length of the second lead portion 2B is longer than half of the entire circumference of the secondary battery 1. The lead plate 2 of this shape can reliably connect both sides of the secondary battery 1 with the two branched second lead portions 2B.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. However, the following embodiments illustrate a battery pack for embodying the technical idea of the present invention, and the present invention does not specify the battery pack as follows.

Further, in this specification, in order to make it easier to understand the claims, the numbers corresponding to the members shown in the embodiments will be referred to as "claims" and "claims". In the column of “means”.
However, the members described in the claims are not limited to the members of the embodiments.

The battery pack shown in FIG. 2 contains a plurality of secondary batteries 1, a lead plate 2 connecting the secondary batteries 1 in series, and a secondary battery 1 connected by the lead plates 2. And a potting resin 4 which pots the secondary battery 1 to the case 3.

The secondary battery 1 is a cylindrical battery such as a nickel-hydrogen battery, a nickel-cadmium battery, and a lithium ion secondary battery. In the battery pack shown in the figure, all the secondary batteries 1 are arranged in parallel with each other such that both end faces are located on the same plane. The battery pack shown is 6
In a posture in which the secondary batteries 1 are set up vertically, the upper and lower end faces are arranged on a horizontal surface, and are arranged in a horizontal row adjacent to each other in parallel. In the illustrated battery pack, all the secondary batteries 1 are connected in series by a lead plate 2. Therefore, all the secondary batteries 1 are arranged side by side with the convex electrode 5A, which is the positive electrode, facing upward. In this battery pack, all the secondary batteries 1 are arranged in one horizontal row, but it is not always necessary to arrange all the secondary batteries 1 in one horizontal row. For example, although not shown, a number of secondary batteries are arranged with both end surfaces aligned on the same plane,
They can also be arranged side by side in multiple rows.

FIGS. 3 and 4 show a state in which a lead plate 2 is connected to an adjacent secondary battery 1. FIG. The lead plate 2 shown in these figures connects the outer can 1 </ b> A of the secondary battery 1 arranged adjacent to the end electrode 5. FIG. 5 shows a perspective view of the lead plate 2. The lead plate 2 in this figure is manufactured by cutting a metal plate and then pressing it into the shape shown in the figure. The metal plate is a metal plate such as an iron plate or a copper plate plated with a metal such as nickel, or a nickel plate. The lead plate 2 shown in these figures includes a first lead portion 2A connected to the end electrode 5 of the secondary battery 1 and the first lead portion 2A.
And a second lead portion 2B that is branched into two and connected to the outer can 1A.

The first lead 2A has a leading end connected to the end electrode 5 and, at a boundary with the second lead 2B, extends perpendicularly from the end face of the secondary battery 1 along the side face of the outer can 1A. It is bent. The first lead 2 </ b> A has a length that allows the tip to be located on the upper surface of the end electrode 5 because the tip is welded to the end electrode 5 and connected.

The two branched second leads 2B are:
The outer can 1A is located opposite to the surface of the outer can 1A.
Along the surface of A, it is extended in the circumferential direction, and the front end is connected and fixed to the surface of the outer can 1A. In the illustrated battery pack, since the secondary battery 1 is a cylindrical battery, the second lead portion 2B is curved in an arc shape and has a shape along the surface of the outer can 1A. In the illustrated lead plate 2, the entire length of the second lead portion 2 </ b> B is longer than half of the entire circumference of the secondary battery 1. The lead plate 2 of this shape can be temporarily fixed to the secondary battery 1 securely by elastically sandwiching both sides of the secondary battery 1 between the two branched second lead portions 2B. The second lead portion 2B preferably has a length of 50 to 75% of the entire circumference of the secondary battery 1.

Further, the second lead portion 2B, which is branched into two, is preferably provided to be curved along the secondary battery 1 so that the secondary battery 1 can be elastically clamped. The lead plate 2 having this structure is composed of the secondary battery 1 and the second lead portion 2B.
Is attached while elastically sandwiching the second lead plate 2.
B is pressed against the outer can 1A of the secondary battery 1 and closely adheres without any gap. Therefore, when spot welding the second lead portion 2B, the portion to be welded of the second lead portion 2B can be reliably brought into contact with the surface of the outer can 1A. Prevention can be performed safely and with high reliability.

The lead plate 2 shown in the figure is an outer can 1 of a cylindrical battery.
The second lead portion 2B is curved in an arc shape along the surface of A. However, the second lead portion does not necessarily need to be curved in an arc shape. For example, although not shown, the second lead portion may be formed into a polygonal shape substantially along the surface of the outer can of the cylindrical battery. In addition, a battery pack containing a rectangular battery or an elliptical battery as a secondary battery is a second battery pack.
The lead portion has a shape conforming to the outer can of a square battery or an elliptical battery.

The tips of the first lead 2A and the second lead 2B are connected to the end electrode 5 and the outer can 1A by spot welding. The tip portion to be spot-welded is provided with a slit 6 vertically in order to reduce the reactive current, and projections 7 are provided on both sides of the slit 6. The first lead portion 2A and the second lead portion 2B press the projections 7 against the end electrodes 5 and the outer can 1A with welding electrodes, and apply a large current to weld the tips.

In order to insulate between the lead plate 2 and the secondary battery 1, an insulating ring 8 is disposed around the protruding electrode 5A which is the end electrode 5. The insulating ring 8 is located between the first lead 2A and the sealing plate of the secondary battery 1 to prevent the first lead 2A from contacting the sealing plate. The insulating ring 8 is made of a plastic sheet or insulating paper. The insulating ring 8 has a protruding electrode 5A, which is an end electrode 5.
Is inserted around the through hole into which the battery is inserted, and has an outer shape substantially equal to the outer shape of the end of the secondary battery 1. The structure in which the insulating ring 8 is provided can effectively prevent the first lead portion 2A from contacting the sealing plate and short-circuiting.

The battery pack shown in FIG.
The surface of A is insulated by a cylindrical insulating sheet 9. The insulating sheet 9 is formed by molding a plastic sheet such as insulating paper or a heat-shrinkable tube into a tubular shape. The illustrated insulating sheet 9 has upper and lower ends open. The insulating sheet 9 may be shaped so as to close the bottom surface. The insulating sheet 9 is
The second lead 2B is disposed outside the lead 2B to insulate the surface of the second lead 2B. The insulating sheet 9 prevents the outer can 1A of the adjacent secondary battery 1 and the second lead portion 2B from short-circuiting. Furthermore, the illustrated insulating sheet 9 has an extension 9A that extends to the lower surface of the first lead 2A. The extension 9A is provided between the first lead 2A and the end face of the secondary battery 1 to prevent the first lead 2A from contacting the sealing plate. In the battery pack having this structure, both the insulating sheet 9 and the insulating ring 8 can double prevent the first lead portion 2A and the sealing plate from being short-circuited.

The case 3 includes an upper case 3A and a lower case 3B.
The upper case 3A and the lower case 3B are connected at the periphery. The upper case 3A and the lower case 3B are formed of plastic in a box shape capable of storing the secondary battery 1. In the illustrated battery pack, the secondary battery 1 is potted and fixed to the lower case 3B. The upper case 3A is connected to the lower case 3B to which the secondary battery 1 is fixed, and the secondary battery 1 is stored in the case 3. The upper and lower cases 3 are connected by welding or bonding the peripheral walls.

The battery pack having the above structure is assembled in the following steps. (1) Both ends of the second lead portion 2B of the lead plate 2 are fixed to the outer can 1A of the secondary battery 1 by spot welding. (2) An insulating ring 8 is provided on the end face of the secondary battery 1 and the outer can 1A is inserted into a tubular insulating sheet 9 to cover the same. (3) The secondary batteries 1 are placed in the lower case 3B to which the upper case 3A is not connected, and are arranged. At this time, the first lead portion 2 </ b> A of the lead plate 2 connected to the secondary battery 1 is located above the end electrode 5. (4) Fill the paste potting resin 4 into the lower case 3B. The potting resin 4 cures and fixes the secondary battery 1 to the lower case 3B. (5) The first lead portion 2A of the lead plate 2 is connected to the end electrode 5 of the secondary battery 1 by spot welding. (6) Connect upper case 3A to lower case 3B
Close.

In the above assembling method, the first lead 2A is spot-welded to the end electrode 5 after the secondary battery 1 is fixed to the lower case 3B.
In the state where the secondary battery 1 is connected to the lower case 3B,
And fixed with the potting resin 4.

[0026]

According to the battery pack of the present invention, the secondary batteries can be reliably connected with a short lead plate, the voltage drop caused by the lead plate can be reduced, and the secondary batteries can be securely connected with the lead plate. There are features. That is, the battery pack of the present invention connects a plurality of secondary batteries arranged in parallel with both end faces located on the same plane by a lead plate,
This is because this lead plate has a unique structure and connects the end electrodes of the adjacently arranged secondary batteries and the outer can. The lead plate has a first lead portion and a second lead portion branched from the first lead portion, and the first lead portion is provided on an end electrode of a secondary battery arranged adjacent to the first lead portion. The second lead is connected to the outer can. As described above, in the battery pack in which the end electrode of the adjacent secondary battery and the outer can are connected and connected by the lead plate, the lead plate can be shortened to reduce the electric resistance and reduce the voltage drop due to the lead plate. Features can be realized. Further, in the battery pack having this structure, the lead plates are not welded to both ends of the secondary battery as in the related art, so that the lower portion of the secondary battery can be embedded in resin and fixed by potting.

Further, in the battery pack according to the present invention, the two branched second leads of the lead plate are positioned opposite to the surface of the outer can and extend circumferentially along the surface of the outer can. Since the tip is connected to and fixed to the surface of the outer can, the secondary battery can be connected securely and firmly, and the connection strength of the lead plate can be increased.

[Brief description of the drawings]

FIG. 1 is a side view showing a state in which a secondary battery of a conventional battery pack is connected with a lead plate.

FIG. 2 is a sectional view showing the internal structure of the battery pack according to the embodiment of the present invention.

FIG. 3 is a sectional view showing a state in which a lead plate is connected to an adjacent secondary battery;

FIG. 4 is a plan view showing a state where a lead plate is connected to an adjacent secondary battery;

FIG. 5 is a perspective view of the lead plate shown in FIGS. 3 and 4;

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Secondary battery 1A ... Outer can 2 ... Lead plate 2A ... 1st lead part 2
B: 2nd lead part 3: Case 3A: Upper case 3
B: Lower case 4: Potting resin 5: End electrode 5A: Convex electrode 6: Slit 7: Projection 8: Insulating ring 9: Insulating sheet 9A: Extension 10: Lead plate

Claims (7)

[Claims] 1. A battery pack comprising a plurality of secondary batteries (1) connected by a lead plate (2) and having all of the following configurations. (A) A plurality of secondary batteries (1) are arranged in parallel with both end faces located on the same plane. (B) The lead plate (2) connects the outer can (1A) and the end electrode (5) of the secondary battery (1) arranged adjacently. (C) The first lead plate (2) is connected to the end electrode (5).
It has a lead part (2A) and a second lead part (2B) branched from the first lead part (2A) and connected to the outer can (1A). (D) The first lead portion (2A) has a tip connected to the end electrode (5), and a boundary between the second lead portion (2B) and the secondary battery (1).
Is bent along the side surface of the outer can (1A) from the end surface of the outer can. (E) The two branched second leads (2B) are located opposite to the surface of the outer can (1A), and extend in the circumferential direction along the surface of the outer can (1A). , The outer can at the tip
Connected and fixed to the surface of (1A). 2. An end electrode (5) is a convex electrode (5A), and an insulating ring (8) is provided around the convex electrode (5A). The battery pack according to claim 1, further comprising a first lead portion (2A). 3. A surface of an outer can (1A) of a secondary battery (1) is insulated by a cylindrical insulating sheet (9), and the insulating sheet (9) is provided outside a second lead portion (2B). The battery pack according to claim 1, wherein the battery pack is disposed in a battery pack. 4. An insulating sheet (9) having an extension (9A) extending from the lower surface of the first lead (2A), and the extension (9A) is connected to the first lead (2A). 4. The battery pack according to claim 3, wherein the battery pack is disposed between the secondary battery and the end face of the battery. 5. The battery pack according to claim 1, wherein a plurality of secondary batteries (1) are potted to a resin and connected and fixed to each other. 6. The battery pack has a case (3) accommodating a secondary battery (1), and a space between the case (3) and the secondary battery (1) is filled with a potting resin. , Secondary battery (1)
The battery pack according to claim 5, wherein the lower part of the battery pack is fixed to the case (3) by potting. 7. The secondary battery according to claim 1, wherein the second lead portion has a total length of 2 B.
The battery pack according to claim 1, wherein the battery pack is longer than half of the entire circumference of (1).