SU723634A1 - Fire alarm - Google Patents

Description

one

The invention relates to fire-fighting automation and is intended to detect the appearance of various fire-hazardous materials in the presence of dust in the viewing windows of sensors and can be used in fire extinguishing systems used primarily for closed process equipment.

Fire detection and alarm systems are known that contain sensing elements connected to amplifying and converting units, the outputs of which are connected to actuators 1.

The disadvantage of these devices is the lack of the ability to automatically control their operation directly during the technological process, which reduces the effectiveness of fire automatics devices.

Closest to the invention is a fire detection device comprising a combustion simulator optically coupled to a sensing element that is connected to one input of an amplifier-converter unit, the output of which

connected to one input of the execution unit, the other input of which is connected to one output of the command unit 2.

The drawback of the device is a decrease in sensitivity when operating in dusty environments due to a decrease in the transparency of the viewing windows of sensitive elements during

loosening dust on them, which may cause the device to fail when a fire occurs. In this case, testing with the help of a simulator of combustion does not give a complete picture of the operability of the device, since .e allows one to estimate the degree of dustiness of the observation windows and to adjust the sensitivity of the device so that its threshold remains unchanged. These drawbacks reduce the reliability of the device.

The purpose of the invention is to increase the reliability of the device.

This is achieved by introducing a linearly varying voltage generator, a setting block, three comparison units, three coincidence blocks, three indication blocks,

5LOCK sensitivity adjustment

and a NOT element, another output of the command unit is connected to one generator input, a linearly varying voltage, the output of which is connected to the input of the combustion simulator and the first inputs of each comparison unit, the second inputs of which are connected to the corresponding outputs of the setting blocks, the outputs of each comparison unit are connected with the first inputs of the corresponding matching blocks, the output of the execution unit is connected to another generator input of a linearly varying voltage to the second inputs of the first and second matching blocks and the black Without an element NOT to the second inputs of the third matching unit, the outputs of the first and third matching units are connected to the inputs of the corresponding display units, and the output of the second matching unit is connected to the third display unit and to the input of the sensitivity adjustment unit, the output of which is connected to another input of the amplifier and converter unit.

This allows you to test the operability of the device with a dust-free viewing window, determine the value of the supply voltage of the combustion simulator at which the device operates, with the dusty viewing window and with a known (determined experimentally or theoretically) dependence of the supply voltage of the simulator required for operation of the device, and therefore, changing the sensitivity of the device from the degree of dustiness of the viewing window, adjust the sensitivity so that the threshold is The stall of the device remained unchanged. In addition, it is possible to detect a device failure if, when a certain critical value of the simulator power supply is reached, the device does not trigger.

The schematic diagram of the proposed device is shown in the drawing.

The device for signaling a fire contains a sensing element 1 protected by a viewing window 2, an amplifier-converter unit 3, an executive unit 4 connected to the generator inputs. 5 linearly varying voltage, the other input of which is connected to the command block b, a simulator of the burning 7, a comparison unit 810, one of which inputs are connected to the outputs of the setting block 11, a matching block 12-14, which are connected to the display blocks 15-17, the element NOT 18 and block 19 sensitivity adjustment.

 The device works as follows.

In standby mode, it monitors the state of the protected object by a device, the signal at the output of the execution unit 4 is absent. Periodically, the signal from the command unit 6 starts a generator 5 of linearly varying voltage. In this case, from the command unit 6, a signal is issued to shut off the executive bodies of the fire extinguishing system for the duration of the inspection. The voltage from the generator 5 linearly varying voltage is supplied to the combustion simulator 7 and to the comparison blocks 8-10. With increasing supply voltage, the simulator emits radiation intensity 7

5, at a certain value of which, depending on the degree of dustiness of the viewing window, the device triggers. In this case, from the output of the execution unit 4, a command is issued to the generator 5 of linearly varying voltage in order to remove the supply voltage from the simulator 7 of the burner. In the comparison blocks 8–10, the voltage taken from the generator 5 of the linearly varying voltage is compared with the voltage taken from the setting unit 11. The setting unit 11 produces a voltage of several levels corresponding to the values (determined experimentally or theoretically). ), at which the device should operate with a clean viewing window, with different degrees of dustiness and voltage, upon reaching which

5, failure of the device is considered a failure.

When the voltages at the inputs of any of the comparison blocks 0 are equal, the signal from its output is sent to the corresponding matching block, to the second input of which a signal is issued that the execution unit triggers. Thus, on the matching blocks, a signal is generated that corresponds to a specific state of the fire alarm device (in the devil, the match block 12 corresponds to the Failure state, the Q block matches 13 - Norm, the match block 14 - Dustiness), which goes to the corresponding block indications 15, 16, or 17. In addition, the output from the output of the match block located in the channel.

forming a signal on the degree of dustiness of the viewing window (on hell, coincidence unit 14), goes to sensitivity sensitivity unit 19, which adjusts the sensitivity of the device, for example, by connecting or disconnecting the resistance of certain ratings in the output elements of the amplifier-converter unit 3.

Claims (1)

Claim A device for signaling a fire containing a simulator of combustion, optically coupled to a sensing element, which is connected to one input of the amplifier-converter unit, the output of which is connected to one input of the executive unit, the other input of which is connected to one output of the command unit, characterized in that, in order to increase the reliability of the device, a linearly varying voltage generator, a setting block, three comparison blocks, three coincidence blocks, three indication blocks, a sensitivity adjustment block are introduced into it of power and the element is NOT, the other output of the command unit is connected to 5 one input of a ramp generator, the output of which is connected to the input of the combustion simulator and to the first inputs of each comparison unit, the second inputs of which are connected to the corresponding outputs of the settings block, the output of each comparison unit is connected to the first inputs of the respective coincidence blocks, the output of the Executive unit is connected to another input 15 of the ramp generator, with the second inputs of the first and second blocks coincide and through the element NOT with the second input of the third coincidence unit, the output 20 of the first and third coincidence units are connected to the inputs of the corresponding display units, and the output of the second coincidence unit 'is connected to the third display unit and to the input 25 of the sensitivity adjustment unit, the output of which is connected to another the input of the amplifier-conversion unit.