RU2492892C1 - Flaming ignition device with two-directional jet for aerosol fire extinguisher - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: ignition device with two-directional jet for the fire extinguisher with hot aerosol comprises a holder (5) and a cap (6) fixed on it. In the cap (6) the igniter (3) and the shooting head (4) mounted in the centre of the igniter (3) and connected to the current-carrying cable (1) are located.

EFFECT: compared to the known devices the suggested ignition device with two-directional jet has good tightness and moisture resistance, which enables to prevent effectively vibration when charging and to synchronise two-directional inflammation.

9 cl, 2 dwg

Description

FIELD OF TECHNOLOGY

The present invention relates to the field of fire extinguishing, in particular to a flaming ignition device generating a bi-directional stream for an aerosol fire extinguisher.

BACKGROUND

In aerosol fire extinguishers, the design and reliability of a flame ignition device are of fundamental importance for the operation of the entire fire extinguisher, while taking into account the type and amount of reagent in the ignition cap, air tightness, water resistance, impact resistance, installation of an initiating explosive, the process of forming explosive and ignition characteristics, and in addition to Moreover, it is necessary to prevent the possibility of vibration of the reagent in the ignition cap. In particular, for a fire extinguisher emitting aerosol jets in two directions, it is necessary to ensure ignition synchronization in both directions.

Patent Application No. JP 56165832 (A) describes a bidirectional piezoelectric flame ignition device designed to reduce the number of failures during electrical ignition of a fire extinguisher. The piezoelectric flame ignition device has the following design features: it has a cam with two control parts and a control lever that actuates the igniter firing pin twice in one ignition operation to ensure double discharge and ignition. However, such an ignition device only partially reduces the number of ignition failures, but does not provide a solution to security and synchronization problems and has a complex and bulky design. At present, in the domestic market of aerosol fire extinguishers with a horizontal bi-directional stream, the ignition element still uses an ignition cap fastened with a transparent tape, with an igniting reagent sealed in a bag with a zipper. Ignition using such an ignition cap has many disadvantages, for example, an indefinite amount of reagent in the ignition cap, insufficient airtightness of the ignition cap, possible damage to the bag with a zipper during thermal tests, non-synchronous ignition, low ignition efficiency, etc. In addition, during transportation, the ignition cap can move from a central position or break due to vibrations and, as a result, cannot successfully operate a fire extinguisher. As a result, a fire extinguisher cannot be used in a timely manner. In 37 patent documents found in the literature on this subject, flame ignition devices are mainly used for gas airbags (e.g. CN 86203126, CN 200520011152.8, 8610332, 200610022391.2) or rocket engines (e.g. CN 03218960.5; 200320103882.1, 200620147019.X ), etc., with the use of electric ignition of hot lithium (CN 96236373.1) or ignition using a shock wave (CN 00261694.7), etc. All of these documents do not describe the reagents and designs of flame ignition devices for aerosol fire extinguishers.

SUMMARY OF THE INVENTION

Based on the current situation in this technical field, the aim of the invention is to provide a flaming ignition device that creates a bi-directional jet for an aerosol fire extinguisher, which has a simple structure, is safe, reliable and convenient in operation and does not have the disadvantages inherent in known flame ignition devices for aerosol fire extinguishers such as poor airtightness, failure during thermal tests, etc.

The technical solution according to the invention is as follows:

A flaming ignition device generating a bi-directional stream for an aerosol fire extinguisher includes a holder and a cap fixed to it, containing an igniting reagent and an ignition head fixed in the center of the reagent and connected to a current-carrying wire.

A tubular rivet is fixed at one end of the cap, and the lead wire of the ignition head is fixed motionless relative to the tubular rivet.

Outside the cap, a connecting part is installed, and the current-carrying wire of the ignition head is fixed motionless relative to the connecting part.

An external thread is made on the cap wall for screwing a connecting part onto it.

The volume of the cap is from 4 cm ³ to 10 cm ³ .

Two fuse heads connected in parallel with a common electrical resistance ranging from 1.2 ohms to 1.8 ohms are provided.

A cap is attached to the end of the cap from the side of its opening, and nozzles are made on the cap and cap.

From 1 to 100 nozzles with a diameter of 0.1 mm to 20 mm are made on the cap and cap.

From 5 to 30 nozzles with a diameter of 1 mm to 5 mm are made on the cap.

Compared to known ignition devices, the flame ignition device according to the invention has good air impermeability and moisture resistance and can effectively protect the igniting reagent contained therein from vibration. In addition, the flame ignition device provides synchronous bi-directional ignition.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to make these advantages of the invention easier to understand, a flame ignition device according to the invention, which creates a bi-directional stream, for an aerosol fire extinguisher, made according to the invention, is described below with reference to the drawings.

Figure 1 schematically depicts an embodiment of a flaming ignition device generating a bi-directional jet for an aerosol fire extinguisher according to the invention, and

Figure 2 is another embodiment of a flaming ignition device generating a bi-directional jet for an aerosol fire extinguisher according to the invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

The invention will now be described in more detail with reference to the drawings.

Figure 1 schematically depicts an embodiment of a flame ignition device that creates a bi-directional stream for an aerosol fire extinguisher. The ignition device comprises a holder 5 and a cap 6 attached to it, made of metal, such as copper. The cap is filled with a certain amount of flammable reagent 3, in the center of which there is an ignition head 4 having a certain electrical resistance. In this embodiment, the ignition head consists of two ignition heads connected in parallel with a total resistance of 1.2 ohms. In the center of the upper side of the cap 6, a tubular rivet 2 is fixed, through which parallel current-conducting wires 1 pass, connected to the ignition head 4 and fixed motionless relative to the tubular rivet 2. In this embodiment, the distance from the ignition head 4 to the tubular rivet 2 is 16 mm. The lead wires 1 are attached to the tubular rivet 2 with glue AB and with the same glue the tubular rivet 2 is attached to the cap 6.

On the side of the cap 6 and the cover 7 of the ignition device, 30 nozzles with a diameter of 1 mm are made. The cover 7 is connected to the cap 6 by covering the mold.

In the event of a fire in the protected area, the control element of the aerosol fire extinguisher detects the presence of fire, the detector automatically issues an alarm and quickly turns on the power supply, as a result of which the ignition head 4 ignites the reagent 3. As a result, under the influence of gas pressure, the flame breaks out of the limited space inside the cap 6 at high speed through nozzles made on it, forming a narrow and long stream with a length of more than 30 cm, and ignites the reagent that generates an aerosol in an aerosol fire extinguisher that creates zontally bidirectional stream; thereby extinguishing the fire extinguisher.

Figure 2 schematically depicts another embodiment of a flaming ignition device generating a bi-directional jet for an aerosol fire extinguisher according to the invention. The ignition device includes a holder 5 and a cap 6 with an external thread for connection with the connecting part 9. The lead wire 1 of the ignition head is fixed motionless relative to the connecting part 9.

The cap 6 of the ignition device may be made of metal, such as stainless steel. The cap 6 is filled with a certain amount of flammable reagent 3, in the center of which there is an ignition head 4 having a certain electrical resistance. In this embodiment, the ignition head is formed by two parallel ignition heads with a total resistance of 1.8 ohms.

On the upper side of the cap 6, 30 nozzles with a diameter of 1 mm are made, and the inlet of the cap is hermetically sealed with a moisture-proof tin foil plate.

In the event of a fire in the protected area, the control element of the aerosol fire extinguisher detects the presence of fire, the detector automatically gives an alarm and quickly turns on the power supply, as a result of which the ignition head 4 ignites the reagent 3. As a result of the gas pressure, the flame breaks through the tin foil plates at both ends of the ignition ignition device, leaves the limited space inside the cap 6 and ignites the reagent generating the aerosol, simultaneously at the two ends of the aerosol fire extinguisher, with creating a horizontal bi-directional stream; thereby extinguishing the fire extinguisher.

The cap of the ignition device has a volume of 4 cm ³ to 10 cm ³ .

Specialists can propose various modifications or changes to the described embodiments of the invention without violating its essence and within its scope. The presented description is intended only to illustrate the invention and does not limit it.

The scope of the invention is determined by its formula, and the elements indicated in the formula can be replaced by their equivalents.

Claims (9)

1. A flaming ignition device generating a bi-directional jet for an aerosol fire extinguisher, comprising a holder (5) and a cap (6) fixedly mounted on the holder and containing an igniting reagent (3) and an ignition head (4) fixed in the center of the reagent (3) and connected to the lead wire (1). 2. A flaming ignition device that generates a bi-directional stream for an aerosol fire extinguisher according to claim 1, characterized in that a tubular rivet (2) is attached to one end of the cap (6), and the lead wire (1) of the ignition head is fixed motionless relative to the tubular rivet ( 2). 3. A flaming ignition device that generates a bi-directional jet for an aerosol fire extinguisher according to claim 1, characterized in that the connecting part (9) is located outside the cap (6), and the current supply wire (1) of the ignition head is fixed motionless relative to the connecting part (9) . 4. A flaming ignition device that creates a bi-directional stream for an aerosol fire extinguisher according to claim 3, characterized in that the cap (6) has an external thread for screwing a connecting part (9) onto it. 5. A flame ignition device that creates a bi-directional jet for an aerosol fire extinguisher according to claim 1, characterized in that the cap (6) has a volume of 4 cm ³ to 10 cm ³ . 6. A flaming ignition device generating a bi-directional jet for an aerosol fire extinguisher according to claim 1, characterized in that the ignition head (4) consists of two ignition heads connected in parallel with a common electrical resistance in the range from 1.2 Ohms to 1.8 Ohms . 7. A flaming ignition device generating a bi-directional jet for an aerosol fire extinguisher according to claim 1, characterized in that a cap (7) is attached to the cap (6) from the side of its opening, and nozzles are made on the cap (6) and the cap (7) (8). 8. A flaming ignition device that creates a bi-directional jet for an aerosol fire extinguisher according to claim 7, characterized in that from 1 to 100 nozzles with a diameter of 0.1 mm to 20 mm are made on the cap (6) and the cover (7). 9. A flaming ignition device that creates a bi-directional jet for an aerosol fire extinguisher according to claim 1, characterized in that from 5 to 30 nozzles with a diameter of 1 mm to 5 mm are made on the cap (6).

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