RU2021634C1 - Pre-fire situation warning device - Google Patents

Abstract

FIELD: fire-fighting engineering. SUBSTANCE: device has crystal cavity 3 functioning as sensing element, pulse shaper 2, crystal cavity amplitude meter 4, comparator 5; crystal cavity 3 is connected with pulse shaper 2 and amplitude meter 4 and is placed inside bulb 7 under capsule filled with fusing crystal substance; bulb 7 is mounted directly on equipment under check; output of amplitude meter 4 of crystal cavity 3 is connected through comparator 5 to actuating unit 6. EFFECT: improved functional reliability of device. 2 dwg

Description

 The invention relates to techniques for monitoring pre-fire situations, fire warning devices, and can be used for automatic monitoring of pre-fire situations directly in rooms, objects of railway, sea and water transport, as well as other fire hazardous enterprises for quick and reliable monitoring and prevention about the fire.

 A device for extinguishing a fire containing a riser, a valve control mechanism, inlet and outlet pipes (ed. St. USSR N 1616686, class A 62 C 35/20, 1980).

However, this device has the following disadvantages:
low reliability of fire detection;
there is practically no possibility of warning about pre-fire situations.

 The closest in technical essence and the achieved effect is a device that is a fire extinguishing system (ed. St. USSR N 1614814, class A 62 C 35/00, 1980).

However, this device has the following disadvantages:
- low degree of reliability due to the fact that it does not have the ability to automatically control pre-fire situations;
- low reliability of determination of pre-fire situations.

 The aim of the invention is to increase the functional reliability of the device.

 The goal is achieved by the fact that the device as a sensor contains a quartz resonator, a generator, an oscillation amplitude meter of a quartz resonator, a comparator, while the quartz resonator is connected to an oscillator and an oscillation amplitude meter and placed inside a cell under a capsule with a fusible crystalline substance, and the cell is placed directly on controlled object, in turn, the output of the oscillation amplitude meter of the quartz resonator is connected through the input of the comparator to the actuator.

 In FIG. 1 shows a schematic diagram of the proposed device; figure 2 is a diagram of the resonator.

 The device contains a power source 1, a 2 pulse pulser, a quartz resonator 3, an oscillation amplitude meter 4, a comparator 5, an executive unit 6, a cuvette 7, and a capsule 8 with a fusible substance. A quartz resonator 3 is placed inside the cell 7 under the capsule with a fusible substance and is connected to the former 2 and the oscillation amplitude meter 4, and that, in turn, is connected to the comparator 5. The comparator 5 is connected to the executive unit 6.

 The device operates as follows.

 Quartz resonator 3 constantly generates at the resonant frequency and the amplitude of its oscillations is the maximum possible (figure 2). With increasing temperature (in the case of the formation of a pre-fire situation), the substance in the capsule 8 melts and drips onto the quartz resonator 3, as a result of which the oscillation amplitude of the resonator 3 changes sharply. This change in the amplitude of oscillations is recorded by the comparator 5 and it issues a command to the executive unit 6, which can give a signal to a signaling device or fire hydrant, etc.

Claims (1)

 DEVICE FOR SIGNALING ABOUT THE PRE-FIRE SITUATION, containing a temperature sensor located on the control object, a power source that is connected to the first input of the pulse shaper, a comparator, an executive unit, characterized in that, in order to increase the functional reliability of the device, an oscillation amplitude meter is introduced into it and the temperature sensor is made in the form of a quartz resonator, which is placed inside the cell, and a capsule with a fusible crystalline substance is placed above the quartz resonator, the output is quartz Vågå resonator is coupled to the control input of the pulse shaper whose output is connected to an input of measuring vibration amplitude, the output of which is connected to the data input of the comparator, whose output is connected to the execution unit.

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