KR880005704A - Battery electrolyte supply device - Google Patents

Abstract

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Description

Battery electrolyte supply device

Since this is an open matter, no full text was included.

1 is a front view showing, in cross section, a portion of an electrolyte container for a storage battery of a first embodiment according to the present invention.

3 is an enlarged cross-sectional view of a pouring bottle showing a state in which a pouring bottle is connected to a storage battery.

Claims (6)

Electrolytic solution for each cell unit of the battery is injected and connected to the sealed body part in the same number as the number of cells to form an electrolyte container, and a liquid filling container is provided for each body part, so that the interval between the liquid filling parts matches the spacing of the filling parts of the battery. In the battery electrolyte supply device for freely fitting the pouring container to the pouring part, a thin film part is formed at the tip of the pouring bottle, and the body parts are sealed by the thin film part to destroy the thin film part. The electrolyte solution supply device for a storage battery characterized by opening each fuselage part. Electrolytic solution for each cell unit of the battery is injected, and the sealed body part is connected to the same number as the number of cells to form an electrolyte container, and a pouring container is provided for each of the body parts, so that the interval between the pouring parts matches the spacing of the battery parts. A battery electrolyte supply apparatus for freely fitting a liquid container into a liquid injecting part, wherein a thin film part that can be opened is formed at the tip of the liquid container, and a sealing cap for the battery is fitted to the outer circumference of the liquid container. Electrolyte supply device for a storage battery, characterized in that. The electrolyte of each cell unit of the battery is injected into each other, and the sealed body portion is connected to the same number of cells to form an electrolyte container, and a liquid container is provided in each of the body parts, so that the interval between the liquid bottles is consistent with that of the battery part of the battery. In the battery electrolyte supply device for freely fitting the liquid container to the liquid injection part, a thin film part is formed at the tip of the liquid container, and each body part is sealed by this thin film part, and the negative angle of the battery A pouring hole for communicating with each cell is provided in the pouring portion, and each pouring hole portion has a freely sliding injection sling of the upper projection type which is freely fitted to the inner circumference of the pouring container of the electrolyte container and the opening of the pouring container. A battery is formed, and an air groove for supplying air to the electrolyte container is formed on the outer circumferential surface of the sleeve. Supply. Electrolytic solution for each cell unit of the battery is injected, and the sealed body part is connected to the same number as the number of cells to form an electrolyte container, and a pouring container is provided for each body part, so that the spacing between the filling bottles matches the spacing of the battery parts. In the battery electrolyte supply device for freely fitting the injection tank with the injection part, a thin membrane part is formed at the tip of the injection bottle, and the body parts are sealed by the thin membrane part, An injection hole is formed in the injection part to communicate with each cell, and each injection hole part is freely fitted to the inner circumference of the injection container of the electrolyte container and the injection container is freely opened. The eve is formed and an air flaw for supplying air to the electrolyte container is formed on the inner circumferential surface of the pour bottle. Device. Electrolyte solution of each cell unit of the battery is injected, and the sealed body part is connected by the same number of cells to form an electrolyte container, and an injection container is provided in each eastern part. In the battery electrolyte supply device in which the spacing between the respective injection cylinders is equal to the spacing of the battery parts of the storage battery, and the injection tank is fitted freely with the liquid injection part, a thin membrane part is formed at the tip of the injection bottle. Each body part is sealed by this thin film part, and a heat resistant polyester resin layer is formed in the both sides of an aluminum sheet main body layer by this thin film part, and the polyethylene resin layer of the same material as a container is formed in the innermost side of a container. Electrolyte supply device for a storage battery, characterized in that. A cutout portion is formed at the top end of the injection liquid sleeve, and an air groove is formed at a position deviated in the circumferential direction of the circle from the top end, and radially outwardly on the outer circumferential surface of the slim part corresponding to the bottom side of the air groove An electrolytic solution supply device for batteries according to claim 3, wherein ribs protruding toward the side are formed. ※ Note: The disclosure is based on the initial application.