RU2781652C1 - Self-contained fire extinguishing device with din rail fixing and electrical initiation - Google Patents

Abstract

FIELD: fire extinguishing.

SUBSTANCE: invention relates to the field of fire extinguishing, namely to an autonomous fire extinguishing device (AFED) with a node for mounting on a DIN rail, the device includes a housing inside which is placed a fire extinguishing aerosol generator (EAG) with an initiation node, a temperature-sensitive device (t1) and a sensor smoke (d2), while the EAG contains a housing with an aerosol-forming composition (AFC) placed in it, the initiation unit is made in the form of a thermal initiator and an electric initiator connected to it, connected in turn to an external voltage source, and a smoke sensor (d2) and a temperature-sensitive device (t1), connected to an external power supply by means of wires and a connecting block, are capable of initiating EAG through an electric igniter, while the smoke sensor (d2) is additionally configured to be connected via a control board. The invention can be used for prompt extinguishing of electrical panels or cabinets when exposed to high temperatures, for example, in case of fire.

EFFECT: increasing the efficiency of primary fire extinguishing with an increase in the efficiency of preventing the spread of fire in a confined space, in particular, such as an electrical panel, while issuing a signal to initiate the same fire extinguishing devices or an information signal to emergency control panels.

4 cl, 1 dwg

Description

Technical field

The invention relates to autonomous fire extinguishing installations based on aerosol-forming or gas-forming compositions and can be used to prevent fires in electrical switchboards, safes, cabinets with electrical equipment, cabinets for telecommunications and other electronic equipment located in confined spaces and technical compartments.

During the operation of electrical equipment, fires are not uncommon, the causes of which are: overloading of electrical installations and wiring, short circuit, ignition of combustible materials near the equipment connected to the network, increased contact resistance in the electrical wiring contact groups.

It is necessary to timely suppress the sources of such fires without removing the voltage, automatically, without human intervention, eliminating the possibility of electric shock and saving expensive equipment.

State of the art

The following fire extinguishing agents are known from the prior art, designed to suppress fire in electrical installations.

Autonomous fire extinguishing installation based on a thermally activated agent contained in microcapsules (patent RU 179466), made in the form of a polymer composite plate with a regular surface relief and containing microcapsules with a fire extinguishing agent placed in a special organosilicon compound. The backing of the plate on the reverse side has a heat-resistant self-adhesive layer for its fastening in the protected volume. As a fire extinguishing agent (agent), microcapsules 50-400 μm in size are used, having a core of an ozone-friendly fire extinguishing liquid placed inside a spherical polymer shell (patent RU 2469761). Microcapsules are capable of explosive destruction upon reaching a temperature of 90°C. This fire extinguishing installation is characterized by a low fire extinguishing capacity and a short service life (from the practice of application - no more than two years), which is a significant drawback.

Autonomous gas fire extinguishing installation (patent RU 139678), which in its composition contains a cylinder with a gas fire extinguishing agent (for example, freon), which communicates with a line for supplying a fire extinguishing medium to the protected volume, made of low-melting polymer material. The line is connected to the cylinder by means of a shut-off and starting device with a pressure gauge and a ball valve, and is also provided with an elastic outer shell in the form of a metal spiral. This fire extinguishing installation is characterized by multicomponent and high complexity of installation in the protected volume.

A means of fixing a fire extinguishing cord in an electrical cabinet is known (patent RU 190409). A fire extinguishing cord or pyrocord is a self-contained fire extinguishing installation with a thermally activated microencapsulated fire extinguishing agent, designed to protect against fires in large fire hazardous objects with electrical equipment, such as switchboards, control cabinets, electrical cabinets, safes, etc. The technical solution according to this patent is a device that holds a fire extinguishing cord in an electrical cabinet, has a support for fixing to the inner walls of the electrical cabinet and is made in the form of a flexible mount with a groove for holding the cord, and the mount base has an adhesive layer. The disadvantage of this technical solution is the complexity of mounting the fire extinguishing cord, associated with the need to install the proposed fastening means on the inner walls of the electrical cabinet along its perimeter, after which the fire extinguishing cord is fixed in the mount.

Known self-actuating fire extinguishing device (patent RU 184841), which contains a housing made of foam, inside which is placed an explosive device and a fire extinguishing agent. The explosive device is connected to a igniter cord that goes out through a hole in the housing and is placed in a closed recess made on the outer side of the housing along its perimeter, and the width of the recess exceeds the width of the igniter cord. To facilitate the rupture of the body when the explosive device is triggered, grooves are made on the inside of the body. This device is suspended on a bracket or placed on a flat surface and automatically fires when the flame of the igniter cord touches. The disadvantage of this technical solution is that the fire extinguishing device is placed in a protected room with electrical equipment using a bracket or installed on a flat surface, which limits the options for its location and leads to a decrease in the efficiency of extinguishing fires.

Known automatic fire extinguishing device for telecommunications equipment, placed in a standard telecommunications rack (TCS) closed type (patent RU 190222). The device is a single structure containing a housing in which a flame-extinguishing agent generator (GPA) is located, consisting of two containers that are connected to a system for delivering a flame-extinguishing agent to the source of ignition, consisting of pipelines and GPA nozzles. The device initiation unit is made in the form of an external linearly extended sensor, which is laid through the most heat-loaded zones of the TCS and connected to the device input, which, in turn, is connected inside the device to a temperature threshold excess sensor. Additionally, this device includes a trigger signaling device, which is a light and sound indicator that indicates the fact that the generator has produced a flame-extinguishing agent. In this automatic fire extinguishing device, standard flame-extinguishing agents are proposed for use, which are characterized by insufficient fire-extinguishing ability and are unsafe in their chemical composition, which reduces the extinguishing efficiency, the presence of pipelines and nozzles for supplying a flame-extinguishing agent to a protected room increases the complexity of manufacturing the device, as well as installing the device in other types of premises with electrical equipment is characterized by increased labor intensity due to the use of standard methods of fastening to the TCS.

It is known Autonomous fire extinguishing device with fixation on a DIN rail (Patent RU 204767) consisting of a housing inside which is placed a fire extinguishing aerosol generator (GOA) with an initiation unit, GOA is made in the form of a housing made of a slow-burning material with an outlet nozzle, in which an aerosol-forming or gas-forming composition (AOS), moreover, nozzle holes are made in the AUPT body for the exit of an aerosol-forming or gas-forming composition and a groove for attaching the body with GOA to a DIN rail, and the initiation unit is made in the form of a self-igniting thermal cord, while, in the preferred embodiment, the initiation unit is made in the form of a spontaneously igniting a thermal cord with a temperature-sensitive element, the activation temperature of which is lower than the activation temperature of the thermal cord. The disadvantage of this device is that it uses a temperature-sensitive element with high response temperatures, namely, it is known that such temperature-sensitive initiators are triggered by a temperature of at least 150°C-180°C, which does not allow you to quickly respond to temperature rise during ignition and greatly delays the start of the quenching cycle. This technical solution is the closest analogue to the claimed utility model and can act as a prototype.

Disclosure of invention

The technical problem to be solved by the claimed solution is the creation of a compact autonomous fire extinguishing device for electrical equipment located in switchboards, electrical cabinets, telecommunication equipment cabinets, etc., with high fire extinguishing capacity, a wide range of operational capabilities with the possibility of mounting the proposed device on a DIN rail, which has the ability to be triggered by an external electrical signal or triggered from an internal or external temperature-sensitive device (t1), a smoke sensor (d2), and also capable of generating an information signal for triggering the device s3.

The technical result of the claimed patent consists in solving the indicated technical problem and implementing the claimed autonomous fire extinguishing device with fixation on a DIN rail and electrical initiation of its purpose.

The achievement of the specified technical result is carried out by means of an autonomous fire extinguishing device (AUPT) with fixation on a DIN rail. The device includes a housing inside which a fire-extinguishing aerosol generator (GOA) with an initiation unit is located, the GOA is made in the form of a housing with an outlet nozzle, in which an aerosol-forming or gas-forming composition (AOS) is placed, moreover, nozzle holes are made in the AUPT housing to exit the aerosol-forming or gas-forming composition and a groove for attaching the housing with GOA to a DIN rail, and the initiation unit is made in the form of a thermal initiator and an electric initiator connected to it with the possibility of initiating by electric voltage.

In an alternative version of the AUPT, the DIN-rail mount is a slot for a DIN-rail located on the rear side of the AUPT housing, in which a latch-mount is installed to fix the housing on the DIN-rail.

In an alternative version of the AUPT, it contains a temperature-sensitive device (t1) connected via a terminal block and wires to the initiating voltage, capable of operating in the event of a fire in the electrical cabinet and, using an electric igniter and a thermal initiator, initiate the GOA to extinguish the fire in the electrical panel.

In an alternative version of the AUPT, it contains a smoke sensor (d2), (can be connected via the control board) and a temperature-sensitive device (t1) connected via a terminal block to the initiating voltage, capable of starting an electric igniter in the event of a fire in the electrical cabinet and, using a thermal initiator, initiate GOA for extinguishing a fire in an electrical panel.

Alternatively, the AUPT may contain a trigger sensor s3 of the fire-extinguishing aerosol generator (GOA) for generating and outputting a signal to external devices about the start of the fire extinguishing process.

In the preferred embodiment, the initiation unit is made in the form of a thermal initiator and an electric initiator connected to it, which in turn is connected to a triggering temperature-sensitive device (t1).

The proposed fire extinguishing device is an assembly unit made in a single housing, and has a functional and structural unity, therefore, it can be claimed as a patent. The housing can be made in the form of standard electrical equipment installed in an electrical cabinet.

The possibility of mounting the proposed fire extinguishing device, including GOA with a solid propellant aerosol-forming or gas-forming composition, inside confined spaces with electrical equipment on a DIN rail allows suppressing fires with high fire extinguishing efficiency without requiring the installation of additional attachment points.

The execution of the node for mounting on a DIN rail in the form of a slot located on the back side of the AUPT case, in which a latch-mount is installed for fixing the case on the DIN rail, is ergonomic - convenient for installing and removing the AUPT, which makes it possible to install it in various places (including hard-to-reach) switchboards or cabinets, which in turn increases the efficiency of autonomous fire extinguishing in case of fires in electrical equipment.

Taking into account that the DIN rail is widely used for fastening various modular electrical equipment (for example, circuit breakers, RCDs, etc.) in cabinet-type rooms, and also that the aerosol-forming composition, compared with powder, carbon dioxide and foam compositions , has no restrictions on its use (in terms of the power of the protected electrical equipment and the presence of voltage) and does not adversely affect the electrical equipment, the proposed fire extinguishing device can be installed anywhere in the protected object equipped with a DIN rail.

The presence of an initiation unit, in the form of a thermal initiator and an electric igniter connected to it, which are triggered using a temperature-sensitive device (t1) or a smoke sensor (d2), as well as using an external signal, makes it possible to initiate the device at lower response temperatures, for example 50 °C, which gives greater versatility and allows the use of AUPT as an element that expands the possibilities of extinguishing large volume electrical cabinets by combining several similar devices. When any of the group of devices installed in different parts of electrical cabinets is triggered, all devices are simultaneously initiated.

The use of the AUPT case from standard electrical equipment, the use of GOA with a solid propellant aerosol-forming or gas-forming composition, makes it possible to mount the AUPT on a DIN rail and reduces the complexity in the manufacture of the device.

The aerosol-forming or gas-forming composition is a low-temperature solid propellant composition.

Implementation of the invention

On (Fig. 1) a view of the proposed AUPT is presented, where 1 - GOA, 2 - a housing for mounting on a DIN rail, 3 - a groove for attaching a housing with GOA to a DIN rail, 4 - a temperature-sensitive device (t1) for starting an electric igniter, 5 - latch-mount, 6 - GOA thermal initiator, 7 - electric igniter, GOA 8 - nozzle holes for the exit of an aerosol-forming or gas-forming composition, 9 - GOA outlet nozzle, 10 - contact group for connecting external wires for an electric igniter and an initiating thermal sensor, 11 - sensor triggering GOA s3, 12 - contact group for connecting external wires for the triggering sensor, 13 - smoke sensor (d2) to start the electric igniter (may be absent in the device).

AUPT includes a fire extinguishing aerosol generator (GOA) (1) and a compact housing (2) for mounting on a DIN rail. GOA (1) is installed and fixed in the body (2), in which nozzle holes are made for the exit of an aerosol-forming or gas-forming composition (8) and a groove (3) for attaching the body (2) with GOA (1) to a DIN rail.

In the preferred version of the AUPT, a slot is made in the back of the housing (2), in which a latch-mount (5) is installed, designed to fix the housing (2) with the GOA (1) on a DIN rail.

The AUPT housing can also be fixed on a DIN rail using a screw connection, however, fastening with a DIN rail assembly with a latch (5) is advantageous, because makes it possible to install AUPT in a wider range of places in a panel or cabinet, which leads to an increase in the efficiency of fire extinguishing.

The aerosol-forming fire-extinguishing composition comes from the outlet nozzle (8) of the GOA (1) into the housing (2), filling its volume, in connection with which additional nozzle holes can be made in the housing (2) for a more uniform supply of the fire-extinguishing composition into the protected room with electrical equipment.

The GOA initiation unit is a thermal initiator (6) and an electric igniter (7).

In the case of applying voltage through the contact group (10) and wires (14) (15) to the electric igniter (7), the GOA (1) is started, which allows you to remotely initiate the AUPT using an external signal.

Also, the electric igniter (7) can be started by an initiating temperature-sensitive device (t1) (4) connected to the contact group (10) connected simultaneously to the wires (16) and (14) to which the electric igniter actuation voltage is preliminarily applied. When the initiating temperature-sensitive device (t1) (4) is triggered, the voltage is directly applied to the electric igniter (7), which in turn initiates the GOA (1).

Also, the electric igniter (7) can be started by a smoke detector (d2) (13), with or without a control system (not shown in the figure), connected to the contact group (10) connected simultaneously to the wires (16) and (14) on which are pre-applied with the triggering voltage of the electric igniter (7). When the smoke sensor (d2) (13) is triggered, the voltage is directly applied to the electric igniter (7), which in turn initiates the HOA (1).

The GOA actuation sensor s3 (11) serves to generate the GOA actuation signal and is connected by information wires (17) to the contact group (12).

In the preferred version of the AUPT, the AUPT is mounted on a DIN rail as follows. The fastening latch (5) is moved down, the body (2) with the GOA installed in it (1) is placed on a DIN rail, clinging to the upper protrusions of the groove (3), after which the fastening latch (5) closes, fixing the AUPT on the DIN rail. rail. Removing the AUPT from the DIN rail is carried out in the reverse order. Thus, the use of the proposed AUPT, with its simple and compact design, autonomy and reliability of operation, ease of mounting it on a DIN rail, makes it possible to suppress fires of electrical equipment located in cabinet-type rooms with high efficiency.

Claims (4)

1. Autonomous fire extinguishing device (AUPT) with a unit for mounting on a DIN rail, characterized in that it includes a housing inside which is placed a fire extinguishing aerosol generator (GOA) with an initiation unit, a temperature-sensitive device (t1) and a smoke sensor (d2) , while the GOA contains a housing with an aerosol-forming composition (AOS) placed in it, the initiation unit is made in the form of a thermal initiator and an electric initiator connected to it, connected in turn to an external voltage source, and a smoke sensor (d2) and a temperature-sensitive device (t1), connected to an external power supply by means of wires and a connecting block, are capable of initiating GOA through an electric igniter, while the smoke sensor (d2) is additionally configured to be connected via a control board. 2. Autonomous fire extinguishing device according to claim 1, characterized in that the aerosol-forming composition is a low-temperature solid fuel composition. 3. Autonomous fire extinguishing device according to claim 1, characterized in that the assembly for mounting on a DIN rail is a slot for a DIN rail located on the rear side of the AUPT housing, in which a latch-mount is installed to fix the housing on a DIN rail. 4. An autonomous fire extinguishing device according to claim 1, characterized in that it contains a GOA actuation sensor to generate a signal about the actuation of the device.

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