RU98618U1 - FIRE ALARM DEVICE - Google Patents

Abstract

 1. Fire alarm device, comprising a protective housing, a temperature relay, a battery, a transmitting unit, an antenna, characterized in that the protective housing is made in the form of a sealed enclosure with a temperature relay located inside with the ability to close the last circuit "battery - radio signal transmitter - antenna". ! 2. The fire alarm device according to claim 1, characterized in that the sealed enclosure is made of ferromagnetic of two halves with the possibility of a connector through a threaded connection. ! 3. The fire alarm device according to claim 1, characterized in that the temperature relay is made in the form of a bimetallic plate with the ability to close the terminals by means of a pusher. ! 4. The fire alarm device according to claim 1, characterized in that the active part of the antenna is made in the form of a steel cable and is fixedly mounted outside the airtight shell. ! 5. The fire alarm device according to claim 1, characterized in that the transmitter is made in the form of a radio signal generator RTFQ1-XXX. ! 6. The fire alarm device according to claim 4, characterized in that the cable of the active part of the antenna is made 0.155-0.2 m long.

Description

The utility model relates to fire alarm systems and can be used to detect an early stage of ignition (spontaneous combustion) in bulk materials, fuel, grain stored in stacks or in containers.

A temperature recording device is known, comprising a protective casing with a sensitive element located therein, responsive to temperature changes, characterized in that the sensitive element is made of crystalline fusible material with a known melting point, which preserves the state of the sugar sugar alloy after temperature reduction. / RU Patent 2356018, 2008 /.

The known device can only be used as a one-time temperature indicator, does not provide remote transmission of information, is not technologically advanced in use.

A temperature detector is known comprising a spring-loaded piston located in the housing under the cover, a heat-sensitive element, a pusher mounted on the piston and a signal tape located between the cover and the piston, characterized in that the temperature-sensitive element is made of an alloy with a shape memory effect in the form of a spring spring-loaded piston, and the additionally installed counter spring is rigidly fixed at one end to the piston, and with the other at the base of the housing and together with the spring-loaded piston forms a system evaya resultant force which, relative to the piston depends on the ambient temperature. / RU Patent 2201582, 2003 /.

The known device can be used only for visual control of temperature, does not provide remote transmission of information, is not technologically advanced in use when determining the temperature of the hidden masses of bulk material.

A fire alarm device is known comprising a group of sensor sensors of environmental parameters connected to one of the inputs of control equipment for detecting smoke or fire sources, having flexible adjustment of sensitivity levels and for comparing sensor sensor signals with predetermined threshold levels, calculating a rate of change of medium parameters and issuing control signals to the safety and life support unit of the facility, characterized in that the gas an analyzer and a statistical decision-making unit at an early stage of fire development, containing two identical modules - a module for monitoring conditional threshold levels and a module for monitoring the rate of change of environmental parameters, the outputs of which are connected to the inputs of an OR element, the output of which is connected to the input of a recording element, to the other input of which a fire alarm cancellation button is connected, and the gas analyzer outputs are connected to one input of the statistical decision-making unit at an early stage of the fire development, to other cat inputs The outputs of control and control equipment for early detection of smoke or fire sources are connected to transmit converted signals from sensor sensors of environmental parameters, and the output of the recording element is connected to another input of the mentioned control and control equipment to turn on the fire warning and life support facility and automatic fire extinguishing, and each of the mentioned modules contains a threshold element with a controlled threshold The inputs whose inputs are one and the other inputs of the module, and the output is connected to the control input of a clocked trigger, the output of which is connected to the control input of a sequential dynamic register, the clocked inputs of a clocked trigger and dynamic register are connected to the output of the clock generator, and the corresponding outputs of the dynamic register are connected two majority elements, the outputs of which are connected to the inputs of the element and, the output of which is the output of the mentioned module. / RU Patent 2324234, 2008 /.

The known device is structurally complex, not reliable enough in operation, does not allow to precisely determine the coordinates of the onset of ignition and transmit contactless information, it is limited applicable when determining the temperature of the hidden masses of bulk material.

The closest is the RFID tag of the automatic identification system containing a transceiver antenna (1), a matching device (2), a nonlinear element (3), a rectifying device (4) and a code generator (5), while the output of the rectifying device (4) is connected to the first the input of the code generator (5), the output of which is connected to the control input of the nonlinear element (3), and in this case, the transceiver antenna (1), made in the form of a symmetric half-wave emitter, is connected to the first one by the quarter-wave part and the second quarter-wave with the second inputs of the matching device (2), the first output of which is connected to the first output of the nonlinear element (3) and the first input of the rectifying device (4), and the second output of the matching device (2) is connected to the second output of the nonlinear element (3) , with the second input of the rectifying device (4) and the second input of the code generator (5), characterized in that an analog-to-digital converter (6), a current source (7) and a parameter sensor (8) are introduced into the RF tag, while the first input of the generator code (5) is connected to the input of the current source (7), and the output of the current source (7) is connected to the first output of the parameter sensor (8) and to the input of an analog-to-digital converter (6), the output of which is connected to the third input of the code generator (5), the second input of which is connected to the second output of the parameter sensor, transceiving the antenna is made as a directional antenna with a reflector, the parameter sensor is made in the form of a thermistor, the code generator and the analog-to-digital converter are made in the form of a serial microprocessor, and a supervisor is used as a limiter from below. / RU Patent 2342679, 2008 g.

The known RFID tag is limitedly applicable for controlling the heating of bulk materials stacked in stacks, does not have sufficient penetrating power of the signals, does not imply reliable physical protection against shock and crushing loads.

The objective of the utility model is to monitor, by means of RFID tags, the onset of a temperature increase above a predetermined value inside the bulk, for example, coal and prompt notification of an alleged endogenous ignition (spontaneous combustion).

The problem is solved in that in a fire alarm device including a protective housing, a temperature relay, a battery, a transmitting unit, an antenna, according to the solution, the protective housing is made in the form of a sealed enclosure with a temperature relay located inside with the possibility of closing the battery-radio-signal transmitter-antenna circuit ", While the sealed shell is made of ferromagnetic from two parts with the possibility of a connector through a threaded connection, the temperature relay is made in the form of a bimetallic plate, in the possibility of closing the terminals by means of a pusher, and the active part of the antenna is made in the form of a steel cable 0.155-0.2 meters long and is fixedly mounted outside the airtight shell, and the transmitter is made in the form of a RTFQ1-XXX radio signal generator.

Distinctive features are:

- the protective case is made in the form of a sealed enclosure with a temperature relay located inside with the possibility of closing the last circuit “battery - radio signal transmitter - antenna” (which ensures the location of the RFID tag at any point in the bulk volume of the bulk pile and the ability to promptly receive alerts about the alleged endogenous fire);

- the sealed shell is made of ferromagnetic of two parts with the possibility of a connector through a threaded connection (which allows you to reuse each device after removing from bulk material and subsequent recharging);

- the temperature relay is made in the form of a bimetallic plate, with the possibility of closing the terminals by means of a pusher, (which ensures reliability of control while reducing the manufacturing cost and expands technological capabilities when setting various critical heating values);

- the active part of the antenna is made in the form of a steel cable and is fixedly mounted outside the airtight shell, (ensuring the strength and reliability of the transmitting device);

- the cable of the active part of the antenna is made 0.155-0.2 meters long (which initiates work at a wavelength that provides the greatest signal throughput through the bulk of bulk materials).

- the transmitter is made in the form of a radio signal generator RTFQ1-XXX, (which allows compact placement inside the protective housing).

Comparison of the proposed solutions with analogues and other known solutions did not allow to identify in them the signs that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "novelty".

The utility model is illustrated by drawings, in which Fig. 1 shows a general view of a device with a section, and Fig. 2 is a functional diagram of a device.

The device comprises a protective housing 1, a transmitter 2, an antenna 3, a battery 4, a bimetallic plate 5 in contact with the pusher 6, terminals 7, 8, a connecting chip 9, a heat-conducting insert 10, an adjusting screw 11.

The fire alarm device is configured and operates as follows.

The temperature threshold of the relay is pre-set. The value is selected for each material and storage conditions to the extent determined by the temperature of self-heating (spontaneous combustion). The fire alarm device is heated in the thermostat to the required temperature and the guaranteed screw circuit of the “battery transmitter” circuit is set with the adjusting screw 11, after which the radiation power of the transmitter is checked.

Fire alarm devices in the required quantity are distributed in the volume of bulk material (coal, grain, wood chips, etc.) during the formation of the stack or backfill. The battery of each device is in a charged state, but the circuit connecting to the transmitter is open. With increasing temperature in the device zone, the heat-conducting insert 10 first warms up and heats the bimetallic plate 5 in contact with the pusher 6, which closes the terminals 7.8, supplying voltage to the transmitter 2, made on a standard modulator RTFQ1-XXX, which radiates through the antenna 3 radio signals in the VHF band of radio waves. It is known that such radio signals are least absorbed during propagation in solid inhomogeneous materials (at a distance of 500 m in bulk soils). When a RFID signal is recorded by a radio alarm control device for a fire alarm, the coordinates of the heating zone are determined by a directional portable antenna and the necessary actions are taken to reduce the temperature (inert gas purge, supply of extinguishing aerosols, powder) exactly to the heating zone. The fire alarm device when using granular mass is removed from the volume of the latter by electric magnets when pouring onto a feed conveyor or when moving on a conveyor. If necessary, the battery is replaced and reused.

The fire alarm device as a radio tag provides constant temperature control above a predetermined value inside the bulk, for example, coal and prompt notification of the alleged endogenous ignition, the risk of fire is reduced, the control technology is improved while costs are reduced.

Claims (6)

1. Fire alarm device, comprising a protective housing, a temperature relay, a battery, a transmitting unit, an antenna, characterized in that the protective housing is made in the form of a sealed enclosure with a temperature relay located inside with the ability to close the last circuit "battery - radio signal transmitter - antenna". 2. The fire alarm device according to claim 1, characterized in that the sealed enclosure is made of ferromagnetic of two halves with the possibility of a connector through a threaded connection. 3. The fire alarm device according to claim 1, characterized in that the temperature relay is made in the form of a bimetallic plate with the ability to close the terminals by means of a pusher. 4. The fire alarm device according to claim 1, characterized in that the active part of the antenna is made in the form of a steel cable and is fixedly mounted outside the airtight shell. 5. The fire alarm device according to claim 1, characterized in that the transmitter is made in the form of a radio signal generator RTFQ1-XXX. 6. The fire alarm device according to claim 4, characterized in that the cable of the active part of the antenna is made 0.155-0.2 m long.