JPS62219458A - Sealed lead-acid battery - Google Patents

Abstract

PURPOSE:To reduce the size and cost of a sealed lead-acid battery, by putting an electrode plate group in a case made of a synthetic resin frame and a plurality of metal plates, and by exposing the outside surfaces of the metal plates to use them as terminal plates. CONSTITUTION:An electrode plate group, which comprises a positive electrode plate 2 made of lead dioxide or the like as the main constituent, a negative electrode plate 4 made of spongy lead or the like as the main constituent and a separator 3 made of fiberglass or the like, is put in a synthetic resin frame 5. Metal plates 1a, 1b, to which polyethylene 10 or the like is melt-sprayed at the edges of the metal plates, are prepared. One side of the metal plate 1a is tightly fitted on the positive electrode plate 2 and one side of the other metal plate 1b is tightly fitted on the negative electrode plate 4 so that they are stacked together. The metal plates 1a, 1b are fuse-bonded to the frame 5 by the polyethylene 10 or the like so that the other sides of the metal plates are exposed to use them as terminal plates. A sealed lead-acid battery of reduced size and cost and facilitated assembly is thus constituted.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an improvement in the case of a sealed lead-acid battery, which is widely used for voltaic equipment or for disaster prevention.

BACKGROUND OF THE INVENTION Conventionally, batteries of this type have used cases and covers made of ABS resin or polypropylene resin, and separately prepared metal materials for terminals.

Problems to be Solved by the Invention However, in cases made of ABS resin or the like, the wall thickness is as thick as 1.5 to 2 rra, making it difficult to miniaturize the case.

Furthermore, preparing and using the terminal member as a separate component also increases costs.

Means for Solving the Problems The present invention uses the same number of positive and negative electrode plates and combines them with separators to form a group of electrode plates, and a case for storing the group of electrode plates is made of a frame made of synthetic resin and a plurality of metals. It consists of multiple metal plates that are not electrically connected to each other, but one side of which is electrically connected to the active material of the outermost plate of the electrode plate group, and the other side is exposed to the outside of the battery. This serves as both a terminal board and a case.

In addition, in a monoblock battery that combines multiple cells, the active material of the outermost electrode plate of another electrode plate group is electrically connected to the surface of the metal plate exposed to the outside of the battery to connect the cells. It doubles as a connector and a case.

Function: By adopting such a structure, the wall thickness of the case can be reduced, and by sharing the terminal plate, a small and low-cost battery can be provided.

Example Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a sealed lead-acid battery according to the present invention, 1&.

Reference numeral 1b denotes a metal plate that also serves as a terminal and constitutes a case together with a synthetic resin frame described later.

On the other hand, a positive electrode plate 2 mainly composed of lead dioxide and a negative electrode plate 4 mainly composed of spongy lead are combined via a separator 3 made of glass fiber to form an electrode plate group 6, which is made of polyethylene. After inserting this electrode plate group 6 into the frame 5 of the polyethylene frame 6, a lead or lead alloy crack of 0.4 mm is inserted into the opening of the polyethylene frame 6. A metal plate I which is coated with polyethylene 10 in a edging shape only on the peripheral edge that is thermally welded to the polyethylene frame 6.
L.

1b are heat welded. At this time, the positive electrode plate 2, the negative electrode plate 4
The metal plates 1a and 1b facing each other are pressed and brought into contact with each other to establish an electrical connection. The metal plates 11L and 1b have one side exposed to the outside of the battery and serve as a terminal. Reference numeral 7 designates a sheet-like valve, 8 designates a cushion material for fixing the valve, and 9 designates a valve fixing cover. Fig. 2 shows a method of forming a plurality of cells into a monoblock, and after assembling the single cells in the same manner as in Fig. 1, a polyethylene frame containing electrode plate groups 6 of cells adjacent to the outer surface of the metal plate 1b is assembled. 6t - heat weld and fix 1C to the pond surface of the frame 6 by welding. By doing so, a plurality of cells can be easily assembled in sequence. The material of the metal plate may be lead or a lead alloy only on the surface in contact with the active material, and iron, stainless steel, or other metal may be used as the core material to increase the strength.

Effects of the Invention As described above, according to the present invention, it has become possible to provide a battery that is small in size, low in cost, and easy to assemble.

[Brief explanation of drawings]

FIG. 1 is a perspective view of a unit cell before assembly according to an embodiment of the present invention, and FIG. 2 is a perspective view before assembly of a plurality of batteries integrated according to the present invention. 1a, 1b, 1c...metal plate, 2...
Positive electrode plate, 3... Separator, 4... Negative electrode plate, 6... Frame, 6... Electrode plate group. Name of agent: Patent attorney Toshio Nakao and one other name
1 figure

Claims (4)

[Claims] (1) An electrode plate group with the same number of positive and negative electrode plates combined with a separator, and a case that houses this electrode plate group are composed of a synthetic resin frame and multiple metal plates, and a plurality of metal plates A sealed lead-acid battery characterized in that the metal plate is not electrically connected but is electrically connected to the outermost electrode plate active material of the electrode plate group, and the outer surface of the metal plate is exposed to the outside of the battery. (2) The metal plate exposed to the outside of the battery is electrically connected to the active material of one of the outermost electrodes of the electrode plate group of the separate battery, and the structure is such that a plurality of batteries are integrated. Claim 1 Sealed lead-acid batteries as described in section. (3) Claim 1 in which the metal plate is lead or lead alloy
Sealed lead-acid battery according to paragraph 2 or paragraph 2. (4) The sealed lead-acid battery according to claim 1 or 2, wherein the metal plate is made of a metal other than lead or a lead alloy, and one or both sides of the metal plate are coated with lead or a lead alloy.