RU2283149C1 - Module operating in dual-threshold mode and automatic fire-extinguishing system - Google Patents

Abstract

FIELD: fire-fighting, particularly powder fire-extinguishing modules used as self-triggered units or units activated by external signal and included in different fixed fire-extinguishing systems, as well as fixed fire-extinguishing systems having above modules.

SUBSTANCE: module comprises body filled with fire-extinguishant and provided with fastening members, as well as gas generation means at least partly arranged inside the body and at least one pair of heat-sensitive members located outside the body. The first heat-sensitive member is adapted to control pre-threshold temperature factor of fire, the second one is used to control threshold temperature factor of fire. Module also comprises control and alarm system linked to heat-sensitive members and gas generator. The control and alarm system comprises at least one ready unit and two triggering mode units. The first heat-sensitive member is connected to ready unit input and may generate ready signal. Ready unit output is linked to inputs of the first and the second triggering mode units. The second heat-sensitive member is connected to the first triggering unit input to generate triggering signal, which is common with ready signal. Outputs of the first and the second triggering mode units are linked to gas generation means to transmit triggering signal to the gas generation means. Automatic fire-extinguishing system is created by above modules distributed over object to be protected. The modules are connected with each other so that each module is associated with other ones by connecting the first triggering mode unit output of the first module with the second triggering mode unit inputs of adjacent modules.

EFFECT: increased ability of fire-extinguishment, possibility to estimate fire site dimensions, reduced number of false module and system operations, and, as a result, reduced property damage, possibility to use the system in rooms having false ceilings and to conceal the modules inside room.

5 cl, 6 dwg

Description

The invention relates to fire fighting equipment, in particular, powder fire extinguishing devices with a two-threshold operation mode, which can be used as self-contained units or triggered by an external signal or can be used as a component in stationary automatic fire extinguishing systems for various purposes, as well as stationary automatic fire extinguishing systems that use modules with a two-threshold mode of operation.

Known automatic fire extinguishing system containing irrigation devices with locks associated with sensitive elements, which are also associated with locks of adjacent irrigation devices, so that when opening one irrigation device in the system, adjacent irrigation devices are opened simultaneously with it (RF patent No. 2023457, class A 62 C 37/08, 1991). The disadvantage of the system is that when a fire source occurs, several irrigation devices will be opened at the same time, even if the fire source is very small and could be extinguished only with one irrigation device. In addition, the opening of the irrigation device, the ability to work the entire system in the above mode is determined by the material from which the thermosensitive elements are made, which in this case should have an additional property - shape memory. According to the patent, heat-sensitive elements are proposed to be made from nitinol. It is known that nitinol restores its form at temperatures above 90 ° C. The dependence of the threshold temperature of the onset of operation of the device on the material of the thermosensitive element limits the range of use of irrigation devices, since for some cases it is a sufficiently high temperature to start extinguishing a fire.

A known module of powder fire extinguishing, containing a sealed enclosure filled with fire extinguishing powder, a chamber with a gas-generating substance and an initiating device, as well as a heat-sensitive element mounted on the wall of the housing from the inside. Outside, a signaling and control system is mounted on the case — an energy-saving or supplying element and a device for generating a command for module operation connected with the initiating device. The thermosensitive element is connected to a device for generating a command for module operation (RF patent No. 2142837, class A 62 C 35/10, 1999).

From the same patent, a closed automatic fire extinguishing system is known, which is formed by modules distributed over the protected volume. Modules are sequentially connected in a closed circuit through a device for generating a command to activate a module, while the output of this device is connected to the input of the same device of a similar module.

The disadvantages of the module are that the location of the thermally sensitive element on the module housing on the inside increases the inertia of the module due to the fact that the thermally sensitive element will only respond to temperature increase after the housing has warmed up to the required temperature. In addition, with this arrangement of the temperature-sensitive element, it is not possible to expand the zone it controls, because A thermally sensitive element rigidly mounted inside the housing on its wall reacts to an increase in temperature in the area directly below the module. To increase the temperature, when the location of the fire is somewhat to the side, the heat-sensitive element will react with a delay, i.e. when the fire site itself expands or moves to the area under the module. Another disadvantage of the module is that it cannot be installed completely covertly in rooms with suspended ceilings, as the extinguishing powder from such a module occurs when the housing or part of it is opened. When it is installed, the drop-down part of the case, which has significant dimensions, should fully protrude relative to the suspended ceiling.

The disadvantage of the automatic system is that regardless of the size of the ignition zone, all modules connected in series in the circuit that are installed throughout the protected area are triggered, and as a result, for example, even with a small ignition area, the entire protected area will be exposed to fire extinguishing powder, thus applying Significant material damage, especially unpleasant if the system is false triggered. The design of the modules and their serial connection allows the system to work in this mode.

The aim of the invention is the creation of a dual-threshold operation mode module and an automatic fire extinguishing system using these modules, which provide effective fire extinguishing throughout the entire volume, as well as local extinguishing of the source of fire, the ability to extinguish newly occurring source of fire with their possible development with minimal material damage, and elimination of false alarms of modules and automatic system.

Another objective of the invention is to increase the efficiency of extinguishing a fire by expanding the zone controlled by heat-sensitive elements and reducing the time from the start of fire to the operation of the module by reducing its inertia.

Another objective of the invention is the possibility of almost completely hidden installation of the module and installation of the entire automatic system in rooms with suspended ceilings.

The goal is achieved in that in a two-threshold operation mode module comprising a housing filled with fire extinguishing means with fasteners, a gas generator installed at least partially inside the housing, a heat-sensitive element of the threshold value of the temperature factor of the fire, and an alarm and control system associated with the heat-sensitive element of the threshold values of the temperature factor of the fire and the gas generator, the module is additionally equipped with a heat-sensitive element of the prethreshold temperature value fire factor, and the thermosensitive elements are installed outside the module case, the alarm and control system contains at least a standby unit and two start-up units, while the thermosensitive element of the threshold value of the temperature factor of the fire is connected to the input of the standby mode unit with the possibility of generating a signal readiness, the output of the standby unit is connected to the inputs of the first and second blocks of the start mode, and the heat-sensitive element of the threshold value of the temperature the fire source is connected to the input of the first start-up unit with the possibility of generating a start signal common with the ready signal, and the outputs of the first and second start-up units are connected to the gas generator of the module with the possibility of transmitting a start signal to it.

The temperature-sensitive elements of the module of the prethreshold and threshold values of the temperature factor of the fire of the module are preferably installed in pairs. The installation of heat-sensitive elements in pairs increases the reliability of the module and reduces the likelihood of unauthorized starting. The module is equipped with at least one additional pair of thermally sensitive elements.

Pairs of thermosensitive elements are installed outside the housing on its opposite sides, preferably at an equal angular distance: either on the housing itself, or on the alarm and control system, or on its mounting element, or on remote elements inserted into the module at one of their ends and the other end installed on an alarm and control system with the ability to transmit information from heat-sensitive elements to a gas generator. The remote elements are made of a corrugated sleeve, inside of which an electric cable is laid connecting the temperature-sensitive elements to the alarm and control system.

In the automatic fire extinguishing system, formed by the modules distributed over the protected volume of the structure and connected through the alarm and control system, the above-mentioned modules of the two-threshold operation mode are used, each module of the automatic system is connected to adjacent modules by connecting the output of the first block of the start-up mode of one module to the input of the second block start mode adjacent to it modules.

The essence of the invention lies in the fact that when a fire occurs, only those modules that receive two signals from the outside will fire: the main module, which is located directly in the fire, will work when receiving information from two of its own heat-sensitive elements: the threshold and pre-threshold values of the temperature factor of the fire , and the modules adjacent to it, surrounding the source of ignition, from its own heat-sensitive element of the prethreshold value of the temperature factor of the fire and from alarm and control systems of the main module.

The execution of a module with a two-threshold operation mode and the connection of one module with its adjacent modules in an automatic system allows you to extinguish small fires with only one module or the main module and its adjacent modules, while all other modules will not be involved. In addition, the launch of the module in the presence of two signals simultaneously from two temperature-sensitive elements, providing two-level control of temperature increase, will significantly reduce false alarms of the system. Thus, local extinguishing of fires, reducing the possibility of false positives will allow extinguishing fires with minimal material damage.

An increase in the number of heat-sensitive elements, their location outside the housing from different sides, will increase the efficiency of fire extinguishing by eliminating the time required for heating the housing, and the possibility of fixing directly the ambient temperature; expanding the zone controlled by heat-sensitive elements, and the ability to control the temperature in the room from different sides of the module.

The installation of heat-sensitive elements on the remote elements also contributes to increasing the efficiency of fire fighting. Remote elements can be made of different lengths, so that the thermosensitive elements can be located closer or further from the module housing, creating the ability to regulate the size of the monitored area.

In addition, the installation of heat-sensitive elements on the remote elements will allow you to mount the modules and, accordingly, the entire fire extinguishing system in rooms with suspended ceilings, placing them between the ceiling and the suspended ceiling.

The invention is illustrated by drawings.

1 shows a powder fire extinguishing module;

figure 2 - the end of the remote element with a pair of heat-sensitive elements;

figure 3 is a top view of a module with external elements of different lengths;

figure 4 - installation of the module in rooms with suspended ceilings;

5 is a diagram of a signaling and control system of a module and its connection with other adjacent modules;

figure 6 - connection diagram of the modules in an automatic fire extinguishing system.

The powder module of the two-threshold operation mode contains a sealed enclosure 1, inside of which a fire extinguishing agent is placed - fire extinguishing powder 2. The module is equipped with a gas generator 3, which can be completely located inside the module housing in its upper or lateral part, or only part of the gas generator can be inside the housing. The gas generator 3 contains a gas generating composition 4 and an initiating device 5. The initiating device is an electric heater or electric igniter, capable of causing an increase in temperature of the gas generating composition 4 when voltage is applied to it, which releases a large amount of gas during heating to create pressure in the module case.

At the bottom of the module case, there is an exhaust nozzle 6 with a membrane for releasing fire extinguishing powder into the ignition zone when the module is triggered. Mounting elements 7 are provided on the module case for mounting it, for example, on the ceiling. The module is equipped with an alarm and control system 8, which is installed either on the housing, or inside the module housing, or on the mounting element and connected to the gas generator by any known means. The alarm and control system provides the reception of information about the temperature increase, the formation of the command and its transmission to the initiating device 5 of the gas generator and other modules, issuing a light and / or sound signal immediately before the module is activated and other functions. The module is also equipped with thermosensitive elements 9 and 10, one of which 9 is designed to control the threshold value of the temperature factor of the fire, the other 10 - for the threshold value of the temperature factor of the fire. The threshold value of the temperature factor of the fire corresponds to the maximum permissible temperature value for a particular object. The pre-threshold value of the temperature factor of the fire corresponds to a temperature value that is equal to or higher than the set temperature of the operating condition, but slightly below the maximum permissible value of the temperature factor of the fire. The heat-sensitive elements are preferably installed in pairs in the corresponding housing 11. Such a housing can be mounted on the module housing, on the alarm and control system (Fig. 1 on the right), as well as on the remote elements 12 inserted into the module. The remote elements 12 are a corrugated sleeve 13, inside which has an electric cable 14. A housing with heat-sensitive elements is installed at one end of the remote elements, and the remote elements are connected to the alarm and control system at the other end 8. Electric cable l 14 connects with the temperature sensors and an alarm system control. In addition to heat-sensitive elements, for example, an LED indicator 15, a diagnostic reed switch 16, and other functional elements can also be located in the housing.

The module can be equipped with at least two pairs of heat-sensitive elements, which are installed on different sides of the housing, preferably at an equal angular distance. Figure 3 shows a module equipped with four remote elements carrying four pairs of heat-sensitive elements.

On the module can be installed long or short remote elements (Fig.1 and 3) or at the same time long and short (Fig.3). The combination of long and short remote elements makes it possible to control small fires that occurred directly below the module, as well as fires that occurred somewhat away from the module with one module.

A module equipped with external elements can be installed in rooms with suspended ceilings in the space between the suspended ceiling 17 and the structural element of the structure 18. For hidden installation, the module is mounted on the structural element of the structure so that the outlet nozzles 6 are in one of the openings of the suspended ceiling, and remote elements - in other openings of the suspended ceiling (depending on the design of the suspended ceiling). Some remote elements with heat-sensitive elements can be positioned horizontally in the inter-ceiling space for the possibility of controlling the temperature increase in the inter-ceiling space.

The alarm and control system of module 8 includes at least a ready unit 19 and two start blocks 20 and 21. A heat-sensitive element of the threshold value of the temperature factor of the fire 9 is connected to the input of the ready unit 19 with the possibility of generating a ready signal for the module, and the outputs of the ready unit 19 are connected with the inputs of the first 20 and second 21 start blocks. The temperature-sensitive element of the threshold value of the temperature factor of the fire 10 is connected to the input of the first start-up block 20 to form, together with the ready signal from the ready-made block 19, a start signal. The outputs of the first 20 and second 21 start blocks are connected to the gas generator 3 of the module for supplying a start signal to it. Starting blocks can be made in the form of one block with the corresponding execution of the functions of two blocks.

The automatic fire extinguishing system contains distributed over the protected volume modules of the two-threshold operation mode in the required quantity, for example, 22-30 (Fig. 5). Each of the modules is associated with adjacent modules: module 22 is associated with modules 23, 24, 25 and 26, module 23 is associated with modules 22, 27, 28, etc. The modules are connected through alarm and control systems: the output of the first start-up block 20 of module 22 is connected to the input of the second start-up block 21 of adjacent modules 23, 24, 25, and 26; the output of the first start block of module 23 is connected to the input of the second start block 21 of modules 22, 27, 28, etc. Information can be transmitted in an automated system by any known means: using electrical connections, radio signals, etc. or a combination of these tools.

The fire extinguishing module operates as follows.

When a fire occurs, two zones conditionally form: a threshold value of the temperature factor of fire 31, where the temperature reaches the values at which the module should be triggered, and a zone of a prethreshold value of the temperature factor of fire 32, where the temperature is equal to or higher than the operating temperature, but below the threshold value temperature factor of the fire. The temperature-sensitive elements of the threshold value of the temperature factor of fire 9 of module 22, located in zone 31, transmits information about the temperature increase to the ready block 19 of the alarm and control system 8 of module 22. A ready signal is generated in the block and transmitted to the first 20 and second 21 start blocks. At the same time, the temperature-sensitive elements of the threshold value of the temperature factor of fire 10 of module 22 transmit information about the temperature increase to start blocks 20 and 21. In block 20, in which there is already a ready signal from the ready block 19, a common start signal is generated with the ready signal, which is transmitted to the gas generator 3. When a start signal is received in the gas generator 3 of the module, the gas-generating substance 4 is chemically decomposed with the release of gases that enter the module housing 1. Gases fill the interior of the module housing by loosening the extinguishing powder 2, and when the overpressure is reached inside the housing, the protective membrane of the nozzle 6 is destroyed. The extinguishing powder is thrown onto the surface to be protected.

Automatic fire extinguishing system operates as follows. The ready signal generated in the standby unit 20 of module 22 is transmitted to the second standby units 21 of adjacent modules 23, 24, 25, 26 located in the zone of the threshold value of the temperature factor of the fire. The temperature-sensitive elements of the threshold value of the temperature factor of fire 9 of these modules react to a temperature raised to a threshold value and transmit information to their own ready-made units 19. The ready-made units 19 generate a ready-made signal and transmit it to their own second start-up units 21. Two signals are encountered in the start-up units, one from which it is received from the start block 21 of the module 22, and common signals are generated, which are transmitted to the own gas generators 3, which start the modules.

If the source of ignition is small and the zone of the threshold value of the temperature factor of fire 32 does not reach the zone controlled by the heat-sensitive elements of the threshold value of the temperature factor of fire of adjacent modules 23, 24, 25, and 26, only module 22 will extinguish the fire, because adjoining modules will not receive information from their own thermosensitive elements of the prethreshold value of the temperature factor of the fire, due to the absence of an elevated temperature. In the case of expanding the source of ignition, for example, zone 31 will expand to zone 32, modules 23, 24, 25, and 26 will themselves generate a start signal and transmit it to the second start blocks of adjacent modules 27, 28, 29, and 30, which will be located in zone of the threshold value of the temperature factor of the fire, etc.

Thus, the dual-threshold operating mode module and the automatic fire extinguishing system formed by these modules allow you to effectively extinguish fires taking into account their size, significantly reduce the number of false alarms of the modules and system, and thereby significantly reduce material damage. In addition, the automatic system can be effectively used in rooms with suspended ceilings with the possibility of hidden installation of modules.

Claims (8)

1. The two-threshold operation mode module, comprising a housing filled with fire extinguisher with fastening elements, a gas generator installed at least partially inside the housing, a temperature-sensitive element of the threshold value of the temperature factor of the fire, and an alarm and control system associated with the temperature-sensitive element of the threshold value of the temperature factor of the fire and a gas generator, characterized in that the module is additionally equipped with a thermosensitive element of the prethreshold temperature value a fire factor, the heat-sensitive elements being installed outside the housing, and the alarm and control system contains at least a standby unit and two start-up mode blocks, while the heat-sensitive element of the threshold value of the temperature factor of the fire is connected to the input of the standby mode unit with the possibility of generating a ready signal , the output of the standby unit is connected to the inputs of the first and second blocks of the start mode, and the heat-sensitive element of the threshold value of the temperature factor the heat is connected to the input of the first start-up block with the possibility of generating a start signal common with the ready signal, and the outputs of the first and second start-up blocks are connected to the gas generator of the module with the possibility of transmitting a start signal to it. 2. The module according to claim 1, characterized in that the temperature-sensitive elements of the module of the prethreshold and threshold values of the temperature factor of the fire are preferably installed in pairs. 3. The module according to claim 1, characterized in that it is equipped with at least one additional pair of heat-sensitive elements. 4. The module according to claim 1, characterized in that the heat-sensitive elements are mounted on the housing or on the alarm and control system or on the housing mounting element. 5. The module according to claim 1, characterized in that the heat-sensitive elements are installed on opposite sides of the housing, preferably at an equal angular distance. 6. The module according to claim 1, characterized in that the thermosensitive elements are installed on the remote elements inserted into the module at one of their ends, and the other end is installed on the alarm and control system with the possibility of transmitting information from the thermosensitive elements to the gas generator. 7. The module according to claim 6, characterized in that the remote elements are made of corrugated sleeve, inside which is laid an electric cable connecting the thermosensitive elements to the alarm and control system. 8. An automatic fire extinguishing system formed by modules distributed over the protected volume of the structure, connected through an alarm and control system, characterized in that the system uses two-threshold operation mode modules according to any one of claims 1 to 7, with each of the modules of the automatic system associated with adjacent modules by connecting the output of the first block of the start-up mode of one module with the input of the second block of the start-up mode of adjacent modules.

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