RU137841U1 - FIRE ALARM DEVICE - Google Patents

Abstract

1. Fire alarm device containing a thermosensitive sensor and an actuator, characterized in that the housing is sealed and equipped with a sealed membrane, and the thermosensitive sensor is made in the form of a glass flask of sprinkler systems and is installed with the possibility of influencing the contacts of the actuator, made on the basis of a microswitch, in this case, the sealed membrane is made of an elastic elastic material that takes its original shape after removing the mechanical stress from lyannoy bulb as a result of its razrusheniya.2. The fire alarm device according to claim 1, characterized in that the housing is equipped with a pressure seal.

Description

The utility model relates to fire fighting equipment, in particular to automatic fire alarm systems, and can be used to fireproof various objects and transmit alarms to a remote station.

A fire alarm device is known (see RU 2315362, class IPC G08B 17/06, published January 20, 2008) containing a heat-sensitive element made in the form of a heat-resistant tube filled with a low-melting alloy, which goes into a liquid state in case of fire, as a result, by means of an acoustic system, a signal for activating the alarm means and the beginning of the fire extinguishing is generated.

The thermosensitive element of a fire detector is known (see RU 2172025, class IPC G08B 17/06, publ. 08/10/2001) containing a battery of differential thermocouples that, when exposed to a thermal pulse, give signals proportional to their thermal properties and convenient for recording secondary devices included in the fire detector.

A known fiber-optic linear fire detector (see RU 2467397, class IPC G08B 17/00, publ. 11/20/2012) containing an alarm unit, made in the form of a scattered radiation detector of a pulsed laser light source and including a sensitive element, which serves as a fiber -optical cable.

The disadvantages of the known technical solutions are the complexity and high cost of both the sensitive elements themselves and the secondary equipment that form the alarm.

Known sprinkler fire extinguishing installation (see Pakhomov VP, Bylinkin VA Modern aspects of designing sprinkler fire extinguishing installations. Fire safety, No. 1, 2008), containing a sprinkler sprinkler, which includes a housing, a glass shut-off flask and a stop screw. The flask is a heat-sensitive element and collapses under the influence of temperature, while freeing the irrigation outlet.

A disadvantage of the known installation is the possibility of using a thermosensitive flask only in the form of a locking device, while their production at a low cost has been widely mastered.

The closest technical solution to the claimed object analogue (prototype) is a device for destruction or fire alarm (see RU 2106693, class IPC G08B 17/04, publ. 10.03.1998), containing a sensor in the form of a filled fluid under high pressure a sealed tube made of fusible elastic polymer material, and an executive body made on the basis of contacts that operate when pressure drops and generates a signal in the alarm circuit.

The disadvantages of the known technical solutions are the complexity of the individual nodes and the device as a whole, increased requirements for operation, both during normal operation and during replacement, the high cost of the product.

The task to which the utility model is directed is to create a fire alarm device in which these shortcomings are eliminated, namely, a fairly simple design, convenient to use, low cost.

These tasks are solved in the fire alarm device according to a utility model containing a thermosensitive sensor and an actuator, in which the housing is sealed and equipped with a sealed membrane, and the thermosensitive sensor is made in the form of a glass flask of sprinkler systems and is installed with the possibility of influencing the contacts of the actuator made on the base of the microswitch, while the sealed membrane is made of an elastic elastic material that takes its original shape after removal Ia mechanical action of the glass bulb by its destruction, the housing is provided with a pressure seal.

The essence of the utility model consists in the fact that the implementation of a heat-sensitive sensor in the form of a glass flask of sprinkler systems, which has passed multiple operability tests and proved the reliability of operation in a real fire, and its installation with the possibility of affecting the contacts of the actuator made on the basis of the microswitch, provide short circuit / opening of the microswitch contacts as a result of thermal destruction of the glass bulb, while the mechanical force from the glass bulb is given to the contacts of the microswitch through an elastic elastic membrane, ensuring the tightness of the housing in which the actuator is installed. The supply of the case with a hermetic lead provides hermetic protection of the executive body, which is a necessary element in the design of the product operated in rooms with dangerous working conditions ..

The applicant does not know the fire alarm device, which is characterized by essential features in the independent clause of the utility model formula, which confirms the compliance of the claimed utility model with the patentability criterion of “novelty”.

The proposed utility model is illustrated by drawings, in which Fig. 1 shows a general view of the device in a “charged" state, and Fig. 2 shows a general view of the device in position after the glass bulb has been destroyed.

The fire alarm device contains a temperature-sensitive sensor 1, made in the form of a glass flask of sprinkler systems, an actuator 2, made on the basis of a micro switch having a button 3, a housing 4, a sealed membrane 5 and a pressure seal 6. The temperature-sensitive sensor 1 is installed in the holder 7, equipped with a clamp 8 and a union nut 9. The hermetic membrane 5 is made of an elastic elastic material.

The fire alarm device operates as follows. In FIG. 1 shows a general view of the device in a “charged” state, i.e. a thermosensitive sensor 1 is installed in the holder 7, which, through the clamp 8 and the union nut 9, acts through the sealed membrane 5, deformed in this case, on the button 3 of the microswitch, closing the contacts (not shown conventionally) of the actuator 2 - microswitch, while maintaining the tightness of the housing 4. In the secondary network, a normal operation signal is generated. In the event of a fire due to thermal action, the glass bulb collapses (see Fig. 2), and the stubborn action of the glass bulb on button 3 is eliminated through the sealed membrane 5, which, due to its elastic properties, returns to its original flat state, freeing the return stroke of button 3 and disconnecting the contacts of the actuator 2 - microswitch. An alarm is generated in the secondary network with its subsequent processing.

The technical result when using the utility model is to simplify the design, expand operational capabilities, increase manufacturability, reduce the cost of the product.

Claims (2)

1. Fire alarm device containing a thermosensitive sensor and an actuator, characterized in that the housing is sealed and equipped with a sealed membrane, and the thermosensitive sensor is made in the form of a glass flask of sprinkler systems and is installed with the possibility of influencing the contacts of the actuator, made on the basis of a microswitch, in this case, the sealed membrane is made of an elastic elastic material that takes its original shape after removing the mechanical stress from lyannoy bulb as a result of its destruction. 2. The fire alarm device according to claim 1, characterized in that the housing is equipped with a pressure seal.

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