RU180808U1 - MODULE SIGNAL-START STAND-ALONE EXTINGUISHING FIRE FIGHTING - Google Patents

Abstract

The self-extinguishing alarm and start-up module is designed to force the sprinkler sprinkler to be equipped with a glass thermo-bulb. printed circuit board, while the removable bracket is made with the possibility of installing it on the sprinkler sprinkler and with the ability to reset it at the moment of actuating the pyrotechnic drive, a compactly made electrical part, including a screw connector, a printed circuit board with an autonomous power source, with sensors, with light indicators, with an acoustic emitter, with a control button, is enclosed in a small-sized case, with windows made in it, moreover, the dimensions of the housing do not exceed the dimensions of the sprinkler.

Description

The autonomous fire extinguishing alarm module is designed to force the sprinkler sprinkler to be launched, equipped with a glass bulb as a heat-sensitive element.

Known utility model RU 171186 (signal-starting autonomous fire extinguishing module), configured to control the start-up of a sprinkler sprinkler with a pyrotechnic drive.

The known module has a housing with a base and a cover, with windows made in it, the base is made with a battery compartment and a compartment of an electronic multi-factor monitoring and control unit, in which the electrical part, powered by a battery, and made in the form of a printed circuit board with a microcontroller, which is connected with sensors, with control buttons, has outputs to light and sound sirens, while through the signal line connected to the electrical part it is possible to control the pyrotechnic drive introduced by means of a removable folding bracket on the sprinkler sprinkler, which is located at a certain distance from the module, and the module is connected via a clip to a pipeline connected to the sprinkler.

The disadvantages of the known model are poor protection against mechanical damage to the signal line made between the pyrotechnic drive mounted on the sprinkler and the module, as well as the placement of sensitive sensors remote from the sprinkler, which causes the protection zone to shift relative to the control zone of the sensors, which reduces the effectiveness of fire protection.

The objective of the utility model is the maximum possible combination of the protection zone with the sprinkler and the control zone of the module, thereby increasing the consistency of the processes of controlling the environment and extinguishing in the controlled zone, providing more effective protection against fire.

This goal is achieved due to the fact that the signal-starting autonomous fire extinguishing module is implemented, having a case with windows, a printed circuit board with an autonomous power source, with sensors, with a light indicator, with a sound emitter, and a control button, according to a utility model, a removable bracket with mounted on one side of the bracket by a pyrotechnic drive (squib), which is connected electrically and mechanically to the electrical part of the module by means of a screw connector, which is mounted on the furnace the circuit board, while the removable bracket is made with the possibility of installing it on the sprinkler sprinkler and with the possibility of resetting it when the pyrotechnic drive is triggered, a compactly made electrical part including a screw connector, a printed circuit board, with two thermal sensors, made in the form of a thermal relay with normally-open contacts with different thresholds of thermal sensitivity, enclosed in a small-sized case with windows made in it, and the dimensions of the case do not exceed the dimensions of the sprinkler.

The electrical part can be equipped with two light indicators “Chain” and “Fire”.

Based on the foregoing, it can be argued that the placement of the proposed device directly on the sprinkler sprinkler eliminates the need for long communication lines, ensures the coincidence of the control zone of the medium and the irrigation zone, which increases the efficiency of the connection of the module with the sprinkler, in addition, after starting by means of a pyrotechnic drive, the sprinkler is completely freed from component parts of the module and remains without any parts that could interfere with the extinguishing.

The operation of the module is explained in more detail using the general view of the sprinkler sprinkler assembled together with the module, shown in isometry in FIG. 1, and using the general view of the individual parts of the module shown in isometry in FIG. 2.

The autonomous fire-extinguishing alarm module is mounted on the arms 1 of the irrigator 2, by means of a removable plastic bracket 3 with a pyrotechnic drive 4 mounted on one side, which is connected to the electrical part of the module through the screw terminal 5, which is soldered into the board 6, mounted on the board thermal sensor with a low threshold of sensitivity 7 and a thermal sensor with a high threshold of sensitivity 8, mounted sound emitter 9, LED indicator "Chain" 10, light indie fire ator 11, control button “Control” 12, a battery element 13 is installed on the back side of the board, the board is installed in the base of the case 14 and closed with a cover 15, the bracket 3 is made in a known manner (see RU 155310) and when installed on the sprinkler 2 covers it by the arms 1, is fixed on it using the stops 16 and using the snap lock 17, made at the ends of the bracket, the thermal sensor 7 is made in the form of a thermal relay with normally open contacts with a threshold of 55 ° C, thermal sensor 8 is made in the form thermal relay with n rmalno - open contacts with a threshold of 60 ° C.

The module works as follows.

In standby mode, the device provides temperature control when the power is off (because the normally-open contacts of the first relay 7 are open and the "Control" button 12 is released).

When the “Control” button is pressed in standby mode, the integrity of the start circuit and the state of the battery 13 are monitored:

- with a working start-up circuit and a normal supply voltage, the device gives out a light-sound signal “Chain”;

- if the start-up circuit is violated, the device does not give a “Circuit” signal.

In case of temperature increase in the protected object (above the maximum normal 50 ° С) and reaching the level of 55 ° С, normally open contacts of the first relay (sensor 7) close and connect the battery to the module circuit, and a warning light-sound (intermittent sound and intermittent) is generated light) signal "Fire".

In the event of a temperature increase and reaching a limit level of 60 ° C in the protected object, the contacts of the second relay (sensor 8) are closed and the device generates a “Start” command with the output of the starting current to the output contacts of the terminal block 5.

Upon receipt of the “Start” command, the pyro-cartridge of the pyrotechnic actuator 4 is electrically ignited, under the cover of which there is an excess pressure of the powder gases and the decay of the drive parts, which leads to the destruction of the glass thermocouple of the sprinkler sprinkler 2 and its opening, the excess pressure and the flow of the extinguishing agent cause a tensile force throughout to the bracket 3, which leads to the opening of the snap lock 17, the bracket is reset together with the module and the remnants of the thermal bulb are removed, the sprinkler performs Roshen normally.

From the foregoing, it can be concluded that the task of combining the fire protection zone with the sprinkler and the control zone of the module as much as possible, which allows for more effective protection of the object from fire, has been completed, while nothing interferes with the regular operation of the sprinkler after the module has been triggered.

Claims (2)

1. The signal-starting autonomous fire extinguishing module having a case with windows, a printed circuit board with an autonomous power source, with sensors, with a light indicator, with a sound emitter, with a control button, characterized in that a removable bracket is made with a pyrotechnic mounted on one side of the bracket drive (squib), which is connected electrically and mechanically to the electrical part of the module by means of a screw connector, which is mounted on the printed circuit board, while the removable bracket is made with the possibility installing it on a sprinkler sprinkler and with the possibility of resetting it at the moment the pyrotechnic drive is triggered, a compactly made electrical part including a screw connector, a printed circuit board with two thermal sensors, made in the form of a thermal relay with normally open contacts with different thermal sensitivity thresholds, concluded in small-sized housing with windows made in it, and the dimensions of the housing do not exceed the dimensions of the sprinkler. 2. Autonomous fire-extinguishing alarm module according to claim 1, characterized in that the electrical part can be equipped with two light indicators “Chain” and “Fire”.

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