RU181243U1 - EXTINGUISHING EQUIPMENT STARTING DEVICE - Google Patents

Abstract

The device for launching fire extinguishing means is designed to initiate (start) fire extinguishing or powder fire extinguishing modules, as well as aerosol fire extinguishing generators and can be used both in stand-alone fire extinguishing means and as part of automated fire detection and extinguishing systems. by increasing the length of the force of the flame. The achievement of the specified result is achieved by the fact that the device for launching fire extinguishing means, including a non-metallic housing (1) with outgoing wires (2), the contacts (3) of which inside the housing are connected by a metal jumper (4), a pyrotechnic block (11) with an axial channel (12) is installed sequentially along the axis inside the housing, the side surface of the block is enclosed in a protective shell (13), the non-metallic body at the location of the checkers is squeezed from the outside with an aluminum glass (16) with an opening in the end to ensure the force of the flame to exit, a gasket (14) is placed between the checker and the glass end, while the contacts (3) with a jumper ( 4) will complement They are completely enclosed in a metal frame in the form of a steel cap (6), partially filled with a pyrotechnic composition (7), with which the jumper is in direct contact, the contacts inside the case are connected to the jumper through the corresponding metal plates (5), a part of the shell free of pyrotechnic composition is filled with a thermoplastic polymer (8), inside the case between the shell and the pyrotechnic checker, a chamber (9) is formed in the form of free space, which is partially filled with a pyrotechnic cord (10), and the output of the force flame Change is provided through two symmetrically made holes (15). 3 s.p. f-ly; 1 ill.

Description

The fire extinguishing device launch device is designed to initiate (start) powder or water extinguishing modules, as well as aerosol fire extinguishing generators, and can be used both in stand-alone fire extinguishing means and as part of automated fire detection and extinguishing systems.

It is known that the “Fireproof extinguisher launch device UZO-T” meets the technical specifications TU 7287-243-07513406-2006, and the manufacturer is FSUE Murom Instrument-Making Plant. This device is designed to ignite a charge from an aerosol-forming mixture at elevated operating temperatures when operating in vehicles.

UZO-T is a case made of AG-4V press material with wires leading outward, the contacts of which inside the case are connected by a tungsten jumper, a pyrotechnic block with an axial channel is installed along the axis inside the case, the non-metal case is crimped from the outside of the block with an aluminum glass with a hole in the end to exit the force of flame, a cardboard gasket is placed between the checker and the butt of the glass.

The disadvantages of the known device that impede its use include the small length of the force of the flame (less than 5 cm), which is not sufficient for reliable stable start-up of powder or water fire extinguishing modules, as well as aerosol fire extinguishing generators. It should be noted that the design feature of most generators (for example, the “DOPING”, “TOR” series, etc.) is that the charge in them is installed at a certain distance from any known starting device, which is also covered by a metal perforated sheet. This leads to the lack of a stable launch of fire extinguishing means, due to the short length of the force of flame.

It is known: “The longer the ray of fire (force of flame), the more reliable is the ignition of the powder charge. It must be borne in mind, however, that a fire ray does not have satisfactory saturation along its entire length, but only about the first quarter of the capsule. (Bubnov PF, Sukhov IP Means of initiation - Main edition of the literature on ammunition. Moscow., 1945, p. 29)

The closest technical solution for the combination of essential features and the achieved technical result is the specified device UZO-T, which is selected as a prototype.

The objective of the claimed utility model is the development of a launching device (US) of fire extinguishing means providing high stability (reliability) of launching fire extinguishing means, for example, powder or water extinguishing modules, as well as aerosol fire extinguishing generators.

The technical result is a high stability of launching fire extinguishing means by increasing the length of the force flame of the launch device.

Achieving the indicated technical result is ensured by the fact that the fire extinguishing means launching device, including a non-metallic casing with outgoing wires, the contacts of which inside the casing are connected by a metal jumper, a pyrotechnic checker with an axial channel is installed along the axis along the axis, the side surface of the checker is enclosed in a protective shell, non-metallic the casing at the location of the checkers is squeezed from the outside with an aluminum glass with a hole in the end to ensure the exit of force flame and, between the checker and the end of the glass there is a gasket, characterized in that the ends with the jumper are additionally enclosed in a metal shell in the form of a steel cap partially filled with a pyrotechnic composition, with which the jumper is directly in contact, the contacts inside the case are connected to the jumper through the corresponding metal plates, part a shell free of pyrotechnic composition is filled with a thermoplastic polymer, a chamber is formed inside the shell between the shell and the pyrotechnic block in the form of a space which is partially filled with a pyrotechnic cord, and the output of the flame Force is provided through two holes formed symmetrically.

It is preferable to perform the axial channel of the pyrotechnic checker with a more developed surface of the channel walls, for example in the form of a trefoil, which positively affects the provision of a more reliable start.

The gasket between the checker and the end of the glass can be made, for example, of polyethylene foam, which to some extent also increases the reliability of the launch.

As a material for the manufacture of the housing, structural polyamide can be used.

Design features of the claimed device are illustrated in the drawing.

In FIG. 1 shows a fire extinguishing means launch device; FIG. 2 is a view along arrow A, where:

1 - a case made, for example, from Technamide A-101 polyamide (TU 2224-004-11517367-2002), 2 - wires (for example, double, single-core wire), 3 - wire contacts inside the case, 4 - metal jumper, 5 - metal plates, 6 - metal frame in the form of a steel cap, 7 - pyrotechnic composition inside the shell (for example, KSK according to TU 7275-004-49737433-2009), 8 - thermoplastic polyethylene (for example, polyethylene 15803-020 GOST 16337 -77), which occupies a place free of pyrotechnic composition, 9 - a chamber with a combustion function, 10 - a pyrotechnic cord (for example, ShPO MU-40 according to TU 7275-001-51953776-00), 11 - a pyrotechnic checker (for example, the composition of BIF-P TU 7275-005-96286627-2011) with an axial hole 12, for example, in the form of a trefoil, 13 - a protective shell, in which encloses the side surface of the checker (11), 14 - a strip of polyethylene foam (for example, "IZOLON" TU 2244-017-00203476-98), 16 - an aluminum cup, compressing the housing 1, in the end of which there are two symmetrical holes -15.

The proposed device operates as follows.

When applying electric current to the wires 2 exiting the non-metallic casing 1, the electric current passing through the contacts 3 of the wires 2 and the metal plates 5, to which the contacts 3 of the wires 2 are soldered, enters the jumper 4 and heats it. The jumper 4 directly contacts and ignites the pyrotechnic composition 7, which partially fills the metal frame 6 in the form of a steel cap, and the space free of the pyrotechnic composition 7 inside the frame 6 is filled with thermoplastic polyethylene 8.

The pyrotechnic cord 10 is ignited from the pyrotechnic composition 7. Combustion takes place in the chamber 9, where the hot gases are concentrated, which are necessary for reliable ignition and increase the efficiency of the checker 11 with an axial hole 12 having a developed surface, for example, in the form of a trefoil. The lateral surface of the checker 11 is enclosed in a protective shell 13 to prevent deformation of the checker itself when the case 1 is squeezed by an aluminum cup 16. Then, the gasket 14, made of polyethylene foam, burns out and due to the gases formed in the chamber 9, and under their pressure, the force of the flame is ejected through two holes 15, symmetrically made at the end of the aluminum cup 16, which squeezed the housing 1 in the place of placement of the pieces 11. The implementation of two holes instead of one provides turbulence of the outgoing stream of hot gases, which also Property Force increased flame length.

The health check of the launch devices of the proposed and executed prototype was carried out by applying an electric current to comply with paragraph 1.1.3 of TU 7287-001-73591144-2016:

- the device must operate smoothly from a direct current source of voltage up to 30V, providing inrush current parameters of at least 0.5A;

- destruction of the housing of the launcher is not allowed;

- the length of the force of the flame with the horizontal position of the device is not less than 30 cm;

- guaranteed ignition of the gas-forming checkers or aerosol-forming composition of the fire extinguishing means (launching the fire extinguishing means) at a distance of 10 cm from the launching device.

Tests where the number of failures is zero are considered positive.

The place of testing is the test chamber V = 5m ³ (1.6 × 1.6 × 2.0m).

Test Objects:

1. the claimed startup device - 6 pcs. to determine the length of the force of flame;

2. the claimed startup device - 6 pcs. for tests as a part of fire extinguishing means;

3. UZO-T launch device (prototype) - 6 pcs. to determine the length of the force of flame;

4. UZO-T launch device (prototype) - 6 pcs. for tests as a part of fire extinguishing means.

The tests in paragraphs 1 and 3 were carried out visually on the basis of video footage and are shown in table 1. The tests in paragraphs 2 and 4 were carried out according to the appropriate methodology and are shown in table 2.

Placement of test objects in the test chamber: mounted on the wall of the chamber, installation height 1.6 ± 0.2 m from the base of the chamber to the upper part of the test object.

The tests were carried out in accordance with the procedure specified in paragraph 5.4 of TU 7287-001-73591144-2016. The launch was carried out from a direct current source with a voltage of up to 30 V, providing starting current parameters of at least 0.5A. The operability of the launch device was evaluated directly by their operation, as well as by the guaranteed launch of the corresponding fire extinguishing means.

The length of the force of the flame in a horizontal position was determined visually from the video.

The test results are presented in tables 1 and 2.

Samples numbered 1-6, 13-18 designs, made according to the formula of the proposed utility model. Samples number 7-12, 19-24 - according to the prototype "UZO-T".

“Buran” powder fire extinguishing modules (samples 13, 14 and 19, 20), “Buran TRV” finely sprayed water fire extinguishing modules (samples 15, 16 and 21, 22), as well as TOR fire extinguishing aerosol generators ( samples 17, 18 and 23, 24).

Ultrasonic samples of the proposed design (13-18) provide guaranteed ignition of the gas-forming substance of the powder fire extinguishing and water fire extinguishing modules, as well as the aerosol-forming composition of the fire-extinguishing aerosol generators, located at a distance of 10 cm from the launch device while ensuring a flame force length of 32 to 40 cm.

Three of the six samples of the prototype (No. 19-24) during the similar tests showed a negative result, which can be explained by the short length of the force of flame.

Thus, the proposed launcher is universal in use, ensures the stability of the launch of fire extinguishing means and meets all the eligibility criteria under current law.

Claims (4)

1. Fire extinguishing means launching device, comprising a non-metallic casing with outgoing wires, the contacts of which inside the casing are connected by a metal jumper, a pyrotechnic checker with an axial channel is installed sequentially along the axis inside the casing, the side surface of the checker is enclosed in a protective shell, the non-metallic casing is located outside the checker squeezed by an aluminum cup with a hole in the end to ensure the output of the force of the flame, between the checker and the end of the cup there is a gasket that differs that the ends with the jumper are additionally enclosed in a metal frame in the form of a steel cap partially filled with a pyrotechnic composition with which the jumper directly contacts, the contacts inside the frame are connected to the jumper through the corresponding metal plates, the part of the frame free from the pyrotechnic composition is filled with a thermoplastic polymer, inside a chamber in the form of free space, which is partially filled with a pyrotechnic cord, is formed between the shell and the pyrotechnic checker And the output of the flame Force is provided through two holes formed symmetrically. 2. The device according to claim 1, characterized in that the axial channel of the pyrotechnic checker is designed to provide a developed surface of the channel walls, for example, in the form of a trefoil. 3. The device according to p. 1, characterized in that the gasket between the checker and the end of the glass is made of polyethylene foam. 4. The device according to claim 1, characterized in that the housing is made of structural polyamide.

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