JPS61294754A - Sealed storage battery - Google Patents

Abstract

PURPOSE:To make a system compact and light weight by printing an electronic control circuit on a synthetic resin laminated film which is a storage battery container. CONSTITUTION:A plate group is composed of a positive plate 1 using lead oxide as active material, and a positive terminal 2, a negative plate 3 using spongy lead as active material, and a negative terminal 4, and a separator 5 mainly comprising glass fiber with a diameter of 5mum. Dilute sulfuric acid electrolyte exists inside the plate group. The plate group is accommodated in a container, comprising synthetic resin laminated film, outer which an electronic control circuit 6 is printed and a resistor 7 and an IC 8 are mounted. The periphery 11 of the laminated film 9 is bonded by heat-sealing except a safety vent 10 to form a sealed lead-acid battery.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a sealed storage battery in which an electronic control circuit is integrated into an exterior film that envelops battery components. It is widely used as a power source for equipment, and the technology trend is toward smaller size and lighter weight. On the other hand, the material of the battery case is polyethylene instead of ABS resin.

An example of using a laminate film of synthetic resin such as polyester for containers has been proposed.

Problems to be Solved by the Invention However, in the conventional method of use, storage batteries were used to store electricity, and the energy output from them was used in two steps via a control circuit provided elsewhere. . For this reason, separating the two systems into separate systems in order to utilize them comprehensively and effectively would put a limit on the technological trend toward miniaturization and weight reduction. Similarly, when controlling the charging of storage batteries, in order to select the optimal charging method, it is necessary to match the unique characteristics of the battery, and there are cases where problems arise when each system is developed independently and combined. .

The present invention aims to solve such problems and to make portable devices and chargers using storage batteries smaller and lighter, which are the technical trends.

means to try to solve the problem In order to solve this problem, the present invention provides a positive electrode plate.

An electrode plate group consisting of a negative electrode plate, a separator, and an electrolyte is housed in a container made of a synthetic resin laminate film, and an electric circuit is printed on the outside of the container to form an electronic control circuit together with chip components. It is characterized by

Effects The present invention has the above-described configuration, and since the storage battery itself is provided with a circuit that sets discharge conditions, etc. of devices using the storage battery, and sets conditions for individual characteristics of the storage battery, portable devices and charging devices using the storage battery are provided. This means that the device can be made smaller and lighter, and its reliability can be improved.

EXAMPLE Hereinafter, a sealed lead acid battery will be described as an example of the present invention based on the drawings. FIG. 1 is a partially cutaway perspective view of the battery of the present invention. A positive electrode plate 1 using lead dioxide as an active material and its terminal 2. Negative electrode plate 3 with spongy lead as active material and its terminal 4. The electrode plate group is composed of a separator 5 mainly made of glass fiber with a diameter of 6 μm or less. The dilute sulfuric acid of the electrolyte is substantially present in this electrode group. This electrode plate group is housed in a container made of a synthetic resin laminate film 9 on which an electronic control circuit 6 is printed and chip components such as a resistor y and ICs are attached. They are welded using methods such as ultrasonic waves or heat sealing to form a sealed lead-acid battery.

FIG. 2 is an enlarged cross-sectional view of a laminate film on which an electronic control circuit is printed. A polyethylene film 12 with a thickness of 100μ is placed on the side in contact with the electrode plate group, that is, on the left side in the figure.
On the right side, a polyethylene terephthalate film 13 with a thickness of 1Qμ is placed on the right side for the purpose of lowering water vapor permeability and oxygen permeability, and a thickness of 30.
This is a film obtained by laminating three layers of polyimide film 14 of /I. In order to provide a circuit on the outer surface of the laminate film, polyparabanic acid, glass epoxy, etc. are used in addition to polyimide, and the circuit is printed on the surface so that the copper foil 15 is exposed. It is attached to the polyimide film 14 with an epoxy adhesive or a cyanoacrylate adhesive, and its terminal portion is positioned on the circuit.

Next, by immersing this circuit part in a solder bath for one second, a solder part 16 is generated on the copper circuit part, and the chip components 8 are electrically connected.

Moreover, a battery that is thin and uses a polyester film like this can be used not only for lead-acid batteries but also for other battery systems such as nickel-cadmium batteries and lithic cum batteries.

Effects of the invention In this way, by printing electronic control circuits on the synthetic resin laminate film that is the storage battery container, it becomes possible to share a part of the equipment that uses them, making portable equipment and chargers smaller and lighter. In addition to making it possible to control the battery itself, reliability has improved.

Furthermore, it is possible to directly connect the terminal portion to the electronic circuit on the film, thereby reducing diimpedance.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a sealed lead-acid battery according to an embodiment of the present invention, with a section cut away, and FIG. 2 is an enlarged sectional view of a laminate film on which an electronic control circuit is printed. 1... Positive electrode plate, 3... Negative electrode plate, 5...
...Separator, 6...Electronic control circuit, 7
, 8... Chip parts, 9... Laminate film.

Claims (2)

[Claims] (1) The electrode plate group, which consists of a positive electrode plate, a negative electrode plate, a separator, and an electrolyte, is stored in a container made of a synthetic resin laminate film, and an electric circuit is printed on the outside of the container, and the chip components are A sealed storage battery characterized by comprising an electronic control circuit. (2) The sealed storage battery according to claim 1, wherein the electronic control circuit is a battery charging control circuit.