RU215570U1 - THERMAL CHEMICAL CURRENT SOURCE - Google Patents

Abstract

The utility model relates to thermal chemical current sources (THPS) with various methods of activation, the design of which provides for the use of two ignition devices at the same time: an electric igniter and a capsule sleeve, which makes it possible to activate the CHPS in a combined way: electrically (using an electric igniter) or mechanically (using capsule sleeve). The use of a combined activation method in the HPIT design allows, in case of failure or impossibility of using one of the ignition devices, to activate the HPIT with another ignition device, which increases the reliability of the current source activation.

Description

The utility model relates to thermal chemical current sources with various methods of activation.

According to the method of using thermal current sources are known [F.I. Kukoz, F.F. Trush, V.I. Kondratenkov. Thermal chemical current sources, p. 71. Rostov University Publishing House, 1989] two groups of ignition devices: electrical and mechanical action.

Known thermal chemical current sources (THIT) with an electrical activation method (for example, RF patent No. 2408113) or mechanical (for example, RF patent No. 2521097), the disadvantages of which is the possibility of failure of a single ignition device, leading to the failure of THIT.

The proposed utility model makes it possible to activate THIT in a combined way: electrically or mechanically.

The technical result of the utility model is to increase the reliability of the activation of the current source due to the use of two ignition devices in the design of the HPIT at the same time: an electric igniter (electric action) and a primer sleeve (mechanical action).

The essence of the utility model lies in the fact that the use of a combined activation method in the HPIT design in the event of failure or inability to use one of the ignition devices allows the HPIT to be activated by another ignition device.

The specified technical result is achieved due to the design of a thermal chemical current source containing a block of electrochemical elements placed in a housing and sealed with a lid, consisting of sequentially arranged electrochemical elements in the form of thin disks, pyrotechnic heaters, heat and electrical insulating gaskets, transverse and longitudinal initiating pyrotechnic strips, moreover, the cover contains an ignition device with an electrical activation method, and the body contains an ignition device with a mechanical activation method.

The THIT housing as an assembly is a stainless steel pipe and a stainless steel disk hermetically connected by argon-arc welding with a boss located along the axis of the disk, and is designed to accommodate a block of electrochemical cells (ECE). The boss has an external thread and a hole located along the axis of the boss. The lid assembly is a stainless steel disk with four hermetic terminals, made on the basis of soldering kovar rods and glass. On the cover there are sets of heat and electrical insulating gaskets, an electric igniter section (EI) and an ECE unit. The lid and the body are hermetically connected to each other by argon-arc welding, a primer sleeve (KB) is hermetically installed in the hole of the body boss with the help of a compound.

The EV section is a dielectric base with an EV mounted on it.

The ECE block contains electrochemical elements with tape current leads, pyrotechnic heaters, heat and electrical insulating pads. The block in the pressed state is fixed on the cover with the help of steel bands, insulated from the block with electrical insulating gaskets. Pyrotechnic heaters located between the elements are designed to heat the elements to operating temperature. Longitudinal initiating pyrotechnic strips are installed along the generatrices of the block from two diametrically opposite sides, designed to ignite pyrotechnic heaters. The fixing of the longitudinal initiating pyrotechnic strips was carried out with a bandage made of glass-varnished fabric LSKL-155. At the ends of the block there are transverse initiating pyrotechnic strips designed to transfer the fire impulse from the EV and HF to the longitudinal initiating pyrotechnic strips. Along the perimeter, the block, together with the longitudinal initiating pyrotechnic strips and ties, is wrapped with LES glass tape to ensure tight contact of the longitudinal initiating pyrotechnic strips with pyrotechnic heaters. The current collection from the ECE block is carried out using steel plates connecting the tape current collectors of the elements with the tape current collectors from the sealed terminals of the cover. The insulation of down conductors from the block is made of mica. The perimeter of the block is isolated from the metal case of THIT with heat-insulating materials.

The activation of the thermal chemical current source specified in the proposed utility model occurs as follows.

With the electrical activation method, at the required time from the activation system, current collectors of the EV located on the cover are supplied with current, from which an open flame arises, the force of which is directed to the transverse initiating pyrotechnic strip located opposite the EV. With the mechanical method of activation, at the required moment of time, using a shock-mechanical device, previously fixed on the boss of the THIT body using a threaded connection, the striker hits the primer sleeve, as a result of which an open flame occurs, the force of which is directed to the transverse initiating pyrotechnic located opposite the KB strip. Combustion from the EV or HF along the transverse initiating pyrotechnic strip extends to the longitudinal initiating pyrotechnic strips and reaches the pyrotechnic heaters, from the ignition of which the electrochemical elements are heated to the operating temperature. The current through the ECE tape down conductors passes to the current terminals of the THIT cover and to the power circuit.

Claims (1)

A thermal chemical current source containing a block of electrochemical elements placed in a housing and sealed with a cover, consisting of sequentially arranged electrochemical elements in the form of thin disks, pyrotechnic heaters, heat and electrical insulating gaskets, transverse and longitudinal initiating pyrotechnic strips, characterized in that the cover contains an ignition a device with an electrical activation method, and the housing contains an ignition device with a mechanical activation method.