RU216362U1 - THERMAL CHEMICAL CURRENT SOURCE - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to the assembly of thermal chemical current sources into batteries. Improving the reliability of fastening the electrode blocks on the metal base of the battery is the technical result of the utility model, which is provided by the protection of the protruding current-collecting contacts of the electrode blocks from the effects of vibration, shock and linear loads, for which purpose in a thermal chemical current source containing electrode cylindrical blocks made of stainless steel with current leads, fastening of the electrode blocks with screws to two metal bases is provided with the arrangement of current-collecting contacts of sealed cylinders in the internal cavity of each metal base, which are interconnected by bolts, while brackets are welded to the electrode blocks for fastening the battery as part of the object. On the metal base, intended for fastening the electrode blocks with contacts inside the bases, holes are provided for fastening the battery as part of the object. 1 w.p. f-ly, 1 ill.

Description

The thermal chemical current source consists of a housing, a cover with sealed terminals, an electrode block, heat and electrical insulating gaskets, and an EV section.

The utility model relates to the field of electrical engineering, specifically to backup thermal chemical current sources.

The technical result of the utility model is to increase the reliability and mechanical strength of the thermal chemical current source to external influences. The external view of the battery is shown in Fig. 1.

The battery consists of two electrode blocks pos. 1, attached with screws to the base pos. 7, one electrode block pos. 2 and one electrode block pos. 1, attached with screws to the base pos. 6. Electrode blocks pos. 1 and pos. 2 are sealed and attached to the bases pos. 6 and pos. 7 in such a way that their current-collecting contacts are directed into the internal cavity of the bases pos. 7 and pos. 6. The bases are interconnected by bolts, providing reliable protection of the current collector contacts of the battery from external influences. Brackets pos. 3, 4, 5, intended for fastening the battery as part of the object. Based on pos. 7 also provides holes for attaching the battery as part of the object. The method of fastening the electrode blocks on a metal base is not known. The closest is patent 0002653860 ampoule chemical current source (ACS) and method of its assembly, where the electrode blocks are located on one side of the base, and the entire structure is placed in a protective casing for protection from external influences.

The disadvantages of the well-known AHIT include the insufficiently high ease of assembly, and, therefore, the reliability of the installation of electrical connections, which is important when designing thermal chemical current sources (THIT), because. very high requirements are imposed on them in terms of weight and size characteristics and reliability.

The task of the authors of the utility model is to develop a scheme for fastening electrode blocks on a metal base of the THIT, which, with a minimum number of structural elements, ensures the simplicity of battery assembly, its reliability, mechanical strength to external influences with minimal weight and size characteristics.

When using the proposed utility model, the battery meets the requirements for reliability and strength to external influences, tk. The electrode blocks are a sealed cylinder made of stainless steel with current leads. Inside the cylinder there are electrochemical elements that are reliably protected from external influences. Also, when using the proposed utility model, it was possible to achieve the minimum possible weight and size characteristics.

Claims (2)

1. Thermal chemical current source containing electrode blocks. forming a battery, made of hermetic stainless steel cylinders with current leads, while the electrode blocks are screwed to two metal bases with the location of the current-collecting contacts of the hermetic cylinders in the internal cavity of each metal base, which are interconnected by bolts, and brackets for fastening are welded to the electrode blocks batteries in the object. 2. Thermal chemical current source according to claim 1, in which holes are provided on a metal base designed for attaching electrode blocks with contacts inside the bases for attaching a battery as part of an object.

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