RU2007789C1 - Submersible storage battery - Google Patents

Abstract

FIELD: storage batteries. SUBSTANCE: case of storage battery is filled with liquid dielectric which fills undercover space of each cell too. Gas discharge unit has filter to separate gas from liquid phase and branch pipes terminating in undercover space above level of electrolyte and made in the form of sleeves. Their side surfaces have through holes near bottoms. EFFECT: enhanced reliability of storage battery. 2 dwg

Description

 The invention relates to electrical engineering and can be used for rechargeable batteries designed to work under water at high hydrostatic pressures.

 Known submersible battery, which is housed in a housing with a dielectric. The housing has a gas outlet valve and a device for equalizing pressure with the environment, made in the form of a cylinder with elastic walls, filled with the same dielectric and connected to the housing by a pipeline.

 The disadvantage of such a submersible battery is the ingress of electrolyte from the battery tank into the dielectric through ventilation plugs during charges and discharges, which leads to a decrease in the dielectric properties of the dielectric.

 The closest in technical essence and the achieved effect is the well-known submersible battery, consisting of a case filled with hydrostatic pressure and filled with a dielectric with a gas outlet valve, in which batteries are located, the underwing space of which is filled with a dielectric, with ventilation plugs, with filters for separating them gas from the liquid phase and channels for the release of gas.

 A disadvantage of the known submersible battery is the occurrence of a pressure differential between the internal cavity of the battery and the environment with a rapid change in the immersion depth of the battery due to the hydraulic resistance of the filters. This leads to mechanical overload and destruction of the batteries.

 The aim of the present invention is to protect the battery housing and its components from mechanical overloads with a rapid change in the immersion depth of the battery. This goal is achieved by the fact that in the well-known submersible battery, consisting of a housing unloaded from hydrostatic pressure and filled with a dielectric, with a gas outlet valve, in which the batteries are located, the underwing space of which is filled with a dielectric, with ventilation plugs, with filters placed in them to separate them gas from the liquid and gas discharge channels, the ventilation plugs of each battery are equipped with nozzles ending in the underwing space and nnym in the form of a sleeve on the lateral surface of which are located at the bottoms of the through holes.

 The invention is illustrated in FIG. 1 and 2, which shows a submersible battery consisting of a housing 1 connected by a pipe 2 to an elastic cylinder 3 filled with a liquid dielectric 4, a gas outlet valve 5, batteries 6, ventilation plugs 7 having a channel 8 made in the form of a glass on the side the surface of which at the bottom there are through holes 9 connecting the channel 8 with the underwing space of the battery above the dielectric-electrolyte 10 line. Ventilation plugs 7 are equipped with filters 11 for separating gas bubbles from the liquid phase and a channel 12, through which gas is discharged from the gap 13, located above the filter 11, into the housing 1 and, then, through the gas outlet valve 5 into the surrounding space.

 With a rapid change in the immersion depth of the battery, the excess pressure that occurs inside the battery 6 is compared with the pressure in the housing 1 due to the flow of dielectric fluid through the hole 9 and channel 8 from the underwing space of the battery into the housing 1 or in the opposite direction.

 Thus, the battery tank and its components are protected from mechanical damage. In this case, the direct exit of gas bubbles through the channel 8 is excluded by the presence of radial channels 9, the axis of which is perpendicular to the axis of the channel 9.

 The use of this invention eliminates the destruction of the battery with a sharp change in the depth of immersion. (56) Japanese Application N 54-2367, cl. H 01 M 2/02, 1979.

 Japanese Application N 58-26777, CL H 01 M 2/12, 1983.

Claims (1)

 SUBMERSIBLE BATTERY, consisting of a body unloaded from hydrostatic pressure and filled with a dielectric with a gas outlet, in which batteries are located, the underwing space of which is filled with a dielectric, with ventilation plugs, with filters for separating gas from the liquid phase and gas discharge channels placed in them, characterized in that, in order to protect against mechanical overloads with a rapid change in immersion depth, the ventilation plugs of each battery are equipped with nozzles, approx ending in the axillary space and made in the form of a glass, through holes are located on the lateral surface of which at the bottom.

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