RU2521097C2 - Thermal lithium current source - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to electrical engineering industry and can be used in production of thermal chemical sources. According to the invention in the thermal lithium current source between a capsular-type ignition device and Z-shaped pyrotechnical strip there is a metal disc with diameter equal to the diameter of the unit of electrochemical cells and with a central opening equal to 0.25-0.50 of width of the Z-shaped pyrotechnical strip.

EFFECT: installation between the capsule and unit of electrochemical cells of the above metal disc with diameter equal to the diameter of the unit and the central opening allows to exclude influence of kinetic energy of incandescent particles from the ignition device to the unit of electrochemical cells and to stabilise optimal delivery of incandescent gas to the pyrotechnical strip.

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Description

The present invention relates to the electrical industry, can be used in lithium thermal current sources.

Known thermal lithium current source [F.I. Kukoz and others. Thermal chemical current sources, p. 71. Publishing house of Rostov University, 1989], containing a block placed in a case and sealed with a lid, composed of electrochemical cells and pyrotechnic heaters arranged in series, the block is surrounded by heat-insulating gaskets, and in its central part there is an ignition channel communicating with the capsule-type ignition device .

When brought into operation, the capsule type ignition device creates a force of flame directed into the ignition channel of the block of electrochemical elements. Possessing high kinetic energy, the flow of flame forces deforms the extreme elements of the block, disrupting their stable operation. The incandescent particles of the force of the flame rush into the igniter channel at high speed. As a result, the pyrotechnic block heaters adjacent to the ignition device do not have time to warm up and ignite. Their ignition is carried out from neighboring heaters.

These factors reduce the stable time for the current source to go into operation, lead to voltage fluctuations at the initial stage of operation. The presence of an igniter channel reduces the working area of electrochemical cells, which leads to a decrease in the specific electrical characteristics of the current source.

The closest in technical essence and the achieved results is a thermal chemical lithium current source [Patent RU No. 3293591 C1, cl. Н01М 6/36, April 24, 2009], comprising a block placed in a housing and sealed with a lid, assembled from sequentially arranged electrochemical elements and pyrotechnic heaters, heat-insulating gaskets with grooves installed on the periphery and ends of the block; initiating quick-burning strips are diametrically installed on the side surface of the block in contact with the pyrotechnic strip of the Z-shape in the end part, laid along the diameter of the block between the heat-insulating gaskets and located in close proximity to the ignition device.

A disadvantage of the known current source is its low reliability due to unstable time to reach the operating mode and voltage fluctuations at the initial stage of operation, if a capsule type igniter is used to bring it into working condition.

This is because the capsule-type ignition device, when brought into operation, creates, unlike an electric igniter, a force flame directed towards the block of electrochemical elements, which has high kinetic energy. The shock wave of this flame deforms the electrochemical elements of the block adjacent to the capsule, which leads to inter-element short circuits, voltage fluctuations at the initial stage of operation, and, ultimately, to a low reliability of the current source. At the same time, the shock wave destroys the initiating pyrotechnic strip. This leads to its uncontrolled ignition and, as a consequence, to the instability of the time the current source goes to operating mode.

The aim of the present invention is to improve the reliability and stabilization of the time to go to the mode of a thermal lithium current source, brought into operation by an igniter capsule type.

For this purpose, a thermal chemical current source is proposed, comprising a block placed in a housing and sealed by a lid, assembled from sequentially arranged electrochemical elements and pyrotechnic heaters, heat-insulating gaskets installed at the periphery and ends of the block; initiating quick-burning strips are diametrically installed on the side surface of the block, adjoining in the end part with a pyrotechnic strip of a Z-shape, laid along the diameter of the block between the heat-insulating spacers with grooves and located in close proximity to the ignition device, characterized in that between the ignition device is a capsule type and A Z-shaped pyrotechnic strip has a metal disk with a diameter equal to the diameter of the block of electrochemical elements, with a central hole Trom equal width 0.25-0.50 pyrotechnic strip.

The installation between the capsule and the block of electrochemical elements of a metal disk with a diameter equal to the diameter of the block with the central hole eliminates the influence of the kinetic energy of the hot particles from the capsule-type ignition device on the block of electrochemical elements and helps to stabilize the flow of hot gases to the pyrotechnic strip.

The optimal stabilization of the ignition of the pyrotechnic strip and the transmission of the initiating pulse to the pyrotechnic heaters of the element block is achieved when the ratio of the diameter to the width of the pyrotechnic strip is 0.25-0.50.

When the ratio of the diameter of the central opening of the throttle disk to the width of the Z-shaped pyrotechnic strip is less than 0.25, the time for the current source to reach the operating mode is reduced by slowing down the ignition of the pyrotechnic strip.

When the ratio of the diameter of the hole to the width of the pyrotechnic strip is greater than 0.50, the uncontrolled effect of the kinetic energy of the force of the flame on the pyrotechnic strip occurs, leading to instability of the time the current source exits to the operating mode and deformation of the extreme electrochemical elements.

Figure 1 shows the proposed current source. A block of electrochemical elements is placed in the housing 1, recruited from sequentially arranged electrochemical elements 2 and pyrotechnic heaters 3, the ignition of which is carried out from pyrotechnic bands 4 diametrically located on the side surface of the block, in contact with the Z-shaped pyrotechnic strip 5, installed at the end of the block and separated from the capsule 6 is attached to the base of the housing 7 by a metal disk 8 with a hole 9 in the center. Thermal insulation 10 is installed at the ends and side surface of the block.

When the current source is brought into operation, the kinetic energy of the force of the flame of the ignition device is extinguished on the metal disk, which excludes its negative effect on the block of electrochemical elements. Penetrating a quantity of hot particles, penetrating through the central hole of the disk, ignites a Z-shaped pyrotechnic strip lying freely between heat-insulating gaskets with slots, ensuring its stable ignition, independent of the strength of the shock wave.

The fire pulse from this pyrotechnic strip through the side pyrotechnic strip is transmitted to the pyrotechnic heaters of the block of electrochemical elements.

Evaluation of the technical effect was carried out on current sources manufactured on the LiSi / KCl, LiCl / FeS ₂ electrochemical system. Tests have shown that the installation between the capsule and the block of electrochemical elements of a metal disk with a calibrated hole in the center made it possible to eliminate the failure of such current sources and stabilize their time to operating mode (deviation from the nominal value ± 4%).

Claims (1)

A thermal chemical current source containing a block placed in a sealed enclosure and sealed by a lid, assembled from sequentially located electrochemical elements and pyrotechnic heaters, heat-insulating gaskets installed at the periphery and ends of the block; initiating quick-burning strips are diametrically installed on the side surface of the block, adjoining in the end part with a pyrotechnic strip of a Z-shape, laid along the diameter of the block between the heat-insulating spacers with grooves and located in close proximity to the ignition device, characterized in that between the ignition device is a capsule type and a pyrotechnic Z-shaped strip has a metal disk with a diameter equal to the diameter of the block of electrochemical elements, with a central hole Trom equal width 0.25-0.50 pyrotechnic Z-shaped strip.