RU2104724C1 - Automatic fire-extinguisher - Google Patents

Abstract

FIELD: fire-extinguishing equipment. SUBSTANCE: automatic fire-extinguisher has container for fire-extinguishing substance, working gas source for container pressure charging, fire-extinguishing substance discharge system, starting mechanism with temperature-sensitive member and striker. Temperature-sensitive member has casing, which is broken under the action of predetermined temperature. Striker has spring and step, which is brought into contact with spring-loaded retainer supported by temperature-sensitive member casing. In preferable versions of fire-extinguisher, temperature-sensitive member casing is made in the form of glass retort filled with liquid having high linear expansion coefficient. Casing may be equipped with electric heater connected through control panel with fire detector, or with electric wire connected through control panel with electric heaters of other fire-extinguishers. Gas generator may serve working gas source. EFFECT: increased efficiency and enhanced reliability in operation. 3 cl, 1 dwg

Description

 The invention relates to fire fighting equipment, namely, to the design of an automatic fire extinguisher.

 A known installation of automatic fire extinguishing, containing installed in the supply line of the fire extinguishing composition shut-off and starting device in the form of a cable system with refractory locks (AS N 988301, A 62 C 35/34, publ. 15.01.83, bull. N 2) .

 The prototype of the proposed technical solution is an automatic powder fire extinguisher (AS 955954 A 62 C 35/50, publ. 07.09.82, bull. N 33).

 Known automatic powder fire extinguisher contains a container for a fire extinguishing agent, a source of working gas for pressurizing the tank, a fire extinguishing agent discharge system, a trigger mechanism including a heat-sensitive element and a hammer.

 The disadvantage of the prototype is the design complexity and, as a result, the insufficient reliability of the fire extinguisher. These shortcomings are due to the presence of a complex cable system with the inclusion of hot-melt elements in it.

 The aim of the proposed technical solution is to simplify the design of the fire extinguisher and increase the reliability of its operation.

 The essence of the proposed technical solution lies in the fact that in an automatic fire extinguisher containing a container for a fire extinguishing agent, a source of working gas for pressurizing the container, a fire extinguishing agent discharge system, a trigger mechanism including a heat-sensitive element and a firing pin, the heat-sensitive element contains a housing that is destroyed under the influence of a given temperature , and the firing pin is equipped with a spring and a ledge in contact with a spring-loaded clamp, resting on the body of the heat-sensitive element.

 In addition, the fire extinguisher includes a thermosensitive element housing made in the form of a glass flask filled with a liquid with a large coefficient of linear expansion.

 In addition, the fire extinguisher comprises a housing of a destructible thermosensitive element equipped with an electric heater connected via a control panel to a fire detector.

 In addition, the fire extinguisher comprises a housing of a destructible heat-sensitive element, equipped with an electric conductor connected via a control panel to electric heaters of other fire extinguishers.

 In addition, the fire extinguisher contains a gas generator as a source of working gas.

 Distinctive features of the proposed solution.

 1. The temperature-sensitive element contains a housing that is destroyed under the influence of a given temperature.

 2. The striker is equipped with a spring and a ledge in contact with a spring-loaded latch.

 3. The spring-loaded latch rests on the body of the heat-sensitive element.

 4. The case of the thermosensitive element is made in the form of a glass flask filled with liquid with a large coefficient of linear expansion.

 5. The housing of the destructible heat-sensitive element is equipped with an electric heater connected via a control panel to a fire detector.

 6. The housing of the destructible heat-sensitive element is equipped with an electric conductor connected via a control panel to electric heaters of other fire extinguishers.

 7. A gas generator was used as a source of the working gas of the fire extinguisher.

 The essence of the proposed technical solution is as follows.

 The implementation of a heat-sensitive element with a housing that is destroyed under the influence of a given temperature (sign 1), provided that a spring-loaded clamp is supported on this case (sign 3), it allows to increase the reliability of the fire extinguisher by simplifying the design and reducing the details of the fire extinguisher.

 The striker equipment with a spring and a ledge in contact with the spring-loaded clamp (sign 2), provided that the clamp is supported on the body of the heat-sensitive element (sign 3), ensures that the working pressure source is activated after the striker is exposed to it.

 The implementation of the body of the heat-sensitive element in the form of a glass flask filled with a liquid with a large coefficient of linear expansion (feature 4), ensures reliable operation of the fire extinguisher with small dimensions.

 The equipment of the body of the thermosensitive element to be destroyed by an electric heater connected via a control panel to a fire detector (feature 5), allows to increase the reliability of the fire fighting process, as allows you to use a fire extinguisher from a fire detector.

 The equipment of the body of the thermosensitive element being destroyed by an electric conductor connected via a control panel with electric heaters of other fire extinguishers (feature 6) allows several fire extinguishers to be activated in parallel.

 The use of a gas generator as a working gas source (feature 7) improves the reliability of the fire extinguisher, as Compared to a gas cylinder, gas leakage during storage is not possible.

 The drawing shows a General view of a fire extinguisher in a section. The fire extinguisher contains a housing (1) filled with a fire extinguishing composition (2), a source of working gas (gas generator) (3), a membrane assembly (4), a trigger mechanism including a spring-loaded striker (5), made with a step in contact with the spring-loaded lock (6 ), which rests on the body of the thermosensitive element (7) (glass flask filled with liquid with a large coefficient of linear expansion). Around the glass bulb is wound an electric heating element (8), which is connected to the control panel. In addition, an electric conductor (9) is mounted in the glass flask, which, in turn, is connected to the control panel.

 A fire extinguisher operates as follows.

 A fire extinguisher is installed in a fire hazardous area. When a fire occurs, the air warms up in the room and the liquid in the bulb of the thermosensitive element is heated (7). At a given temperature, the flask ruptures. The spring-loaded latch 6, which holds until the destruction of the bulb of the firing pin by the ledge, moves and releases the spring-loaded firing pin. Under the action of the spring, the firing pin moves and acts on the gas generator (3) and activates it. Gases flowing from the gas generator pressurize the extinguisher body. At a given pressure, the membrane of the membrane unit breaks and the extinguishing agent, for example, the extinguishing powder, flows to the fire. When the flask is destroyed, the conductor mounted in the flask is destroyed. At the same time, a signal about the operation of the fire extinguisher is supplied to the control panel and a signal can be sent to activate other fire extinguishers of the same type. If necessary, a signal can be sent from the control panel to the electric heating element (8), by means of which the bulb of the thermosensitive element (7) is heated and a fire extinguisher is activated.

Claims (3)

 1. An automatic fire extinguisher containing a container for a fire extinguishing agent, a source of working gas for pressurizing the container, a fire extinguishing agent discharge system, a trigger mechanism including a heat-sensitive element and a firing pin, characterized in that the heat-sensitive element contains a casing that is destroyed by a given temperature, and the firing pin is equipped a spring and a ledge in contact with a spring-loaded clamp, resting on the body of the thermosensitive element, made in the form of a glass flask filled with liquid Strongly with a large linear expansion coefficient, and as the process gas source is a gas generator.  2. A fire extinguisher according to claim 1, characterized in that the destructible heat-sensitive element is additionally equipped with an electric heater connected via a control panel to a fire detector.  3. A fire extinguisher according to claim 1, characterized in that the destructible heat-sensitive element is additionally equipped with an electric conductor connected via a control panel to electric heaters of other fire extinguishers.