RU2245730C1 - Autonomous fire-extinguishing and alarm system - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: system has heat-sensitive members made of thermomechanical shape memory material and is provided with two pairs of constant magnets connected by like poles. Each constant magnet pair is located in corresponding case and secured to rod loaded towards magnets and having head. Each constant magnet pair is adapted to cooperate with corresponding inductance coil installed on magnetic conductive support and with reed switch assemblies. Each reed switch assembly is located so that reed switches thereof are under the influence of respective constant magnet pair. Each normally opened contact of the first and the second reed switches of the first assembly is connected with one contact of inductive coil of the second constant magnet pair. Each normally opened contact of the first and the second reed switches of the second assembly is connected with one contact of inductive coil of the first constant magnet pair. Outputs of the first and the second reel switches are in pairs connected to fire-extinguisher contacts. Each the third reel switch of above assemblies is in-circuit with one stub through normally closed contact and reel switch output. Each heat-sensitive member is installed in corresponding case and is adapted to release rod head.

EFFECT: prevention of false actuation.

13 cl, 3 dwg

Description

The invention relates to fire fighting equipment, in particular to automatic fire alarm systems and subsequent fire extinguishing measures, and can be used for fire protection of remote rarely visited objects.

The level of technology.

A known installation of pulse fire extinguishing, comprising a device for spraying a substance, including a barrel, and a shooting device, including a combustion chamber, bolt assembly, trigger mechanism (Application for the grant of a patent of the Russian Federation No. 2000111626, IPC A 62 C 19/00, 2002 (analogue)) .

Closest to the claimed combination of features is an autonomous fire extinguishing device containing a housing with radiation detectors mounted on it, each of which is made in the form of a parabolic specular reflector, in the focal plane of which there is a thermosensitive element made of a material with a thermomechanical shape memory in the form of a curved plate, this plate is mechanically connected with electrical switches and pistons that overlap the pneumatic system for supplying a fire extinguishing medium, rotary nozzles pozharogasyaschey medium supply pipe in the fire zone and electrically connected with the electrical switches mains power and fire risk object fire alarm circuits (RF Patent №2198007, IPC A 62 C 37/08, 2003 (prototype)).

SUMMARY OF THE INVENTION

When creating the invention, the problem of expanding the arsenal of autonomous fire extinguishing and signaling devices was solved.

The technical result consists both in expanding the arsenal of autonomous fire extinguishing devices and alarms, and in eliminating false alarms.

The specified technical result is achieved due to the fact that an autonomous fire extinguishing and signaling device containing thermosensitive elements made of a material with thermomechanical shape memory, according to the invention, is equipped with two pairs of permanent magnets connected by the same poles, each of which is placed in a corresponding housing, mounted on its corresponding loaded to its side having a stock head of non-magnetic material and is installed with the possibility of interaction with the corresponding coil of inductance located in the magnetic support and two corresponding pairs of permanent magnets by reed switch blocks, each of which is mounted with the possibility of its reed switches falling into the range of the corresponding pair of permanent magnets, while each of the normally open contacts of the first and second reed switches of the first reed switch block is connected to one from the contacts of the inductor of the second pair of permanent magnets, each of the normally open contacts of the first and second reed switches of the second block of reed switches is connected one of the contacts of the inductance coil of the first pair of permanent magnets, the outputs of the first and second reed switches are connected in pairs to the contacts of the fire extinguisher, and each of the third reed switches of the units is integrated through a normally closed contact and output into one of the loops, and each of the thermosensitive elements is installed in the corresponding housing with the possibility releasing the head of the corresponding rod covered by it.

Moreover, according to the invention, the heat-sensitive element of a material with a thermomechanical shape memory is made of titanium nickelide in the form of an open ring.

Moreover, according to the invention, the stem head has a through hole.

Moreover, according to the invention, each of the rods is equipped with a fuse installed in the through hole of the rod head.

Moreover, according to the invention, the fuse is made in the form of a cotter pin.

Moreover, according to the invention, the housing is made of heat-resistant and impact-resistant material, for example, aluminum, glass-filled polyamide, etc.

Moreover, according to the invention, the magnets are connected by the north poles.

Moreover, according to the invention, the rod is loaded with a spring installed in the guides of the housing.

Moreover, according to the invention, the inductor has a frame made of non-magnetic material.

Moreover, according to the invention, the frame of the inductor is further provided with a skirt.

List of figures of drawings and other materials

The invention is illustrated by the description of a specific example of its implementation and the accompanying drawings, where:

figure 1 shows a General view of a stand-alone fire extinguishing device and alarm and circuit diagram of the connection (in statics);

figure 2 - view of the device when triggered by one heat-sensitive element;

figure 3 - view of the device when triggered by two heat-sensitive elements.

Information confirming the possibility of carrying out the invention

The self-contained fire extinguishing and alarm device contains two thermosensitive elements 1 and 2 of material with a thermomechanical shape memory, a first pair of permanent magnets 3 located in the housing 4, mounted on a rod 5 loaded in its direction and installed with the possibility of interaction with the inductor 6 located in magnetic support 7, a second pair of permanent magnets 8, placed in the housing 9, mounted on a rod 10 loaded to its side and installed with the possibility of interaction with the inductor coil 11 tivities located in the magnetic support 12, the first block 13 reed switches, the second block 14 reed switches (figure 1).

Each of the thermally sensitive elements 1 and 2 is made of a material with thermomechanical shape memory, for example titanium nickelide, in the form of, for example, an open ring.

Each of the permanent magnets 3 of the first pair and of the permanent magnets 8 of the second pair is made in the form of a thick-walled cylinder, and in each of the pairs of permanent magnets are connected by the same poles, for example the north.

Permanent magnets 3 of the first pair are fixed to the stock 5, and permanent magnets 8 of the second pair are fixed to the stock 10.

Each of the rods 5 and 10 is a two-stage axis, having a head 15 on the side of the larger diameter step, in which a through hole 16 is made to accommodate the fuse 17.

Each of the rods 5 and 10 has a neck with a tapered transition to the head 15. Each of the rods 5 and 10 is made of non-magnetic material, such as brass, bronze, etc.

The fuse 17 may be made in the form of, for example, a cotter pin.

Permanent magnets are fixed on the steps of a smaller diameter of the corresponding rod in the traditional way, for example by means of a washer and nut.

Fixed on the rod 5, the permanent magnets 3 of the first pair are installed with the possibility of interaction with the inductor 6.

Fixed on the rod 10, the permanent magnets 8 of the second pair are installed with the possibility of interaction with the inductor 11.

Each of the coils 6 and 11 of the inductance is made in the form of a torus with a through hole in its frame for the passage of permanent magnets 3 of the first pair and permanent magnets 8 of the second pair fixed on the corresponding rod.

Each of the coils 6 and 11 of the inductance has a traditional frame made of non-magnetic material, for example polyamide.

The frame in the upper part may have a skirt 18 to prevent the permanent magnets from leaving the inductance coil and prevent the stem from skewing both during assembly and when the temperature-sensitive element is triggered.

The frame of the inductor has hollow cylindrical protrusions, which serve to output the input and output ends of the wire of the corresponding inductor outside the magnetic conductors.

Each of the magnetic supports 7 and 12 is made of steel, for example, electrical.

Each of the magnetic supports 7 and 12 is made in the form of a cup, in the bottom of which a hole is made for the passage of permanent magnets 3 of the first pair fixed to the respective rods 5 and 10 of the second pair of permanent magnets 8, two openings for the exit of the hollow cylindrical protrusions of the frame with input and output the ends of the wires of the corresponding inductance coils 6 and 11 and two screw holes for attaching the magnetic support to the flange of the corresponding housing 4 or 9.

Each of the inductance coils located in the corresponding magnetic support 7 and 12 is clamped on top by a sealed cover.

Fixed on the rod 5 permanent magnets 3 of the first pair and the magnetic support 7 with an inductor 6 are placed in the housing 4.

In the upper part of the housing 4, as in the guides, a spring 19 is placed, with which the rod 5 is loaded towards the permanent magnets 3 of the first pair.

Fixed on the rod 10, the permanent magnets 8 of the second pair and the magnetic support 12 with the inductor 11 are placed in the housing 9.

In the upper part of the housing 9, as in the guides, a spring 20 is placed, with which the rod 10 is loaded towards the permanent magnets 8 of the second pair.

Each of the cases 4 and 9 is made in the form of a cap with two eyes on the lower end for mounting on the flange 21 (figure 2) and with an opening for the passage of the corresponding rod in its upper part.

Each of the housings 4 and 9 has a slot for fixing a corresponding heat-sensitive element 1 and 2 located outside the housing, covering the head 15 of the corresponding rod and resting on the bottom 22 of the slot on the housing (Fig. 1).

The housing 1 can be made of heat-resistant and impact-resistant material, for example, aluminum, glass-filled polyamide, etc.

From the bottom, each of the housings is closed by a flange 21 with an opening to ensure full passage of the permanent magnets of the corresponding inductance fixed to the corresponding rod. The bottom of the flange can also play the role of a limiter to the movement of the stroke of the rod.

Below the flange 21 of the housing there is a cavity into which the traditionally made contacts 23 and 24 of the inductance coil 6 and the contacts 25 and 26 of the inductance coil 11, and two channels for the passage of wires, respectively, exit.

One of the contacts located on the flange 21 is connected, for example, by soldering to the input end of the wire of the corresponding inductance coil, and the output end of the wire of the latter is connected to the other contact through a diode, which allows the direction of the current in the coil to be only one way: from minus to plus.

Under the first pair of permanent magnets 3 located in the housing 4, there is a first block 13 of reed switches.

Under the second pair of permanent magnets 8 located in the housing 9, there is a second reed switch unit 14.

Each of the blocks 13 and 14 is made in the form of, for example, three separate reed switches mounted on the corresponding block. Each of the blocks 13 and 14 may have its own housing (not shown in the drawing).

Each of the blocks 13 and 14 is installed with the possibility of its reed switches falling into the range of the corresponding pair of permanent magnets.

Thus, an autonomous fire extinguishing and alarm device containing thermosensitive elements made of a material with thermomechanical shape memory is equipped with two pairs of permanent magnets connected by the same poles, each of which is placed in a corresponding housing mounted on a corresponding rod loaded from non-magnetic material loaded with its head and installed with the possibility of interaction with the corresponding inductor located in the magnetic support, and two respectively Enikeev pairs of permanent magnets reed switch blocks, each of which is mounted with the possibility of its falling action reed in the corresponding pair of permanent magnets zone.

The normally open contact of the first 27 reed switch of the first reed switch unit 13 is connected, for example, to the contact 25 of the inductance coil 11 of the second pair of permanent magnets 8, the second contact 26 of which is connected to the normally open contact of the second 28 reed switch of the first block 13.

The normally open contact of the first 29 reed switch of the second reed switch unit 14 is connected, for example, to the contact 24 of the inductance coil 6 of the first pair of permanent magnets 3, the second contact 23 of which is connected to the normally open contact of the second 30 reed switch of the second block 14.

The output of the first 27 reed switch of the first block 13 and, for example, the output of the first 29 reed switch of the second block 14 are connected to the extinguisher terminal 31, and the output of the second 28 reed switch of the first block 13 and the output of the second 30 reed switch of the second block 14 are connected to the extinguisher terminal 32.

Thus, each of the normally open contacts of the first and second reed switches of the first reed switch block is connected to one of the contacts of the inductance coil of the second pair of permanent magnets, each of the normally open contacts of the first and second reed switches of the second reed switch block is connected to one of the contacts of the inductance coil of the first permanent magnet pair , the outputs of the first and second reed switches are connected in pairs to the contacts of the fire extinguisher.

The third 33 reed switch of the first block 13 through a normally closed contact and the output is integrated by means of the traditional adjustment resistance Rш1 into the cable 1 of the console (the console is not shown in the drawing).

The third reed switch 34 of the second unit 14 through a normally closed contact and the output is integrated by means of the traditional adjustment resistance Rш2 into the cable 2 of the same remote control (the remote control is not shown in the drawing).

Thus, each of the third reed switch blocks is integrated through its own normally closed contact and output to one of the loops.

Depending on the volume of the room, the heat-sensitive elements 1 and 2, mounted in the respective buildings 9, can be spaced from each other if their sensitivity threshold is the same, for example, for each of them about 72 ° C, but can be located next to each other, if the thresholds of their sensitivity are different, for example, one has 72 ° C, and the other has 93 ° C.

Autonomous fire extinguishing and alarm device operates as follows.

To simplify the description of the work, we install thermosensitive elements with the same sensitivity threshold, for example, 72 ° C.

A stand-alone fire extinguishing and alarm device at the installation site is connected to fire extinguishing devices, such as fire extinguishers, and to fire alarm loops.

After mounting an autonomous fire extinguishing and signaling device at the installation site, fuses 17 are pulled out from the through holes 16 of the heads 15 of the rod 5 and rod 10. The autonomous fire extinguishing and alarm device is “cocked”, i.e. went into standby mode.

When the temperature rises in the area of one of the thermally sensitive elements, for example 1 (Fig. 2), to the threshold or an accidental impact on the thermally sensitive element, the thermally sensitive element 1, diverging, releases the rod head 5, i.e. the thermosensitive element is installed with the possibility of releasing the head of the corresponding rod covered by it.

A pair of magnets 3 mounted on the rod 5, passing through the inductor 6, generates a current pulse that reaches the open contacts of the first 29 and second 30 reed switches of the second block 14. As the pair of magnets 3 approaches the first block 13, the reed switches of the first block fall into its field 13. The previously opened contacts of the first 27 and second 28 reed switches of the first block 13 are closed and the previously closed contact of the third 33 reed switch opens. As a result of opening in the loop circuit 1 on the remote control, a signal appeared about the operation of one of the heat-sensitive elements of an autonomous fire extinguishing device and alarm, while the fire extinguishing system itself was not activated.

If the heat-sensitive element 2 does not work after the first, then the fire extinguishing system does not turn on, which allows to exclude the false operation of the fire extinguishing system, because in terms of fire extinguishing, the signal of the thermosensitive element 1 was “false”.

If the temperature in the zone of location of the temperature-sensitive element 2 rises to the threshold (Fig. 3), then installed with the possibility of releasing the head it covers, the temperature-sensitive element 2, diverging, releases the head 15 of the rod 10. A pair of magnets 8 fixed to the rod 10 passes through the inductor 11, generates a current pulse, which passes through the already closed contacts of the first 27 and second 28 reed switches of the first block 13 and enters the contacts 31 and 32 of the fire extinguisher. The fire extinguishing system is activated.

When reed switches of the second block 14 get into the field of a pair of magnets 8, the previously opened contacts of the first 29 and second 30 reed contacts of the second block 14 are closed and the previously closed contact of the third 34 reed switch opens. As a result of the opening of the previously closed contact of the third 34 reed switch in the loop circuit 2, a signal appeared on the remote control about the operation of the thermosensitive element 2 and the autonomous fire extinguishing device as a whole.

The claimed stand-alone fire extinguishing and alarm device differs from the known ones in that it is non-volatile, because It does not require additional power sources to start the fire extinguishing system, and it itself generates a current pulse sufficient to drive the fire extinguishing system. In this regard, the claimed device can be used in hazardous areas. In addition, the claimed stand-alone fire extinguishing and signaling device can be used for fire protection of remote objects rarely visited by personnel, with the conclusion of information about the fire situation that occurs on a fire protection console remote from the object.

Claims (13)

1. Autonomous fire extinguishing and alarm device containing thermosensitive elements made of material with thermomechanical shape memory, characterized in that it is equipped with two pairs of permanent magnets connected by the same poles, each of which is placed in a corresponding housing, mounted on a corresponding rod having a head loaded of non-magnetic material and is installed with the possibility of interaction with the corresponding inductor located in the magnetic support, and two with the corresponding pairs of permanent magnets of reed switch blocks, each of which is installed with the possibility of its reed switches falling into the range of the corresponding pair of permanent magnets, while each of the normally open contacts of the first and second reed switches of the first block of reed switches is connected to one of the contacts of the inductance coil of the second pair of permanent magnets , each of the normally open contacts of the first and second reed switches of the second reed switch block is connected to one of the contacts of the inductance coil of the first In order to remove magnets, the outputs of the first and second reed switches are connected in pairs to the contacts of the fire extinguisher, and each of the third reed switches of the units is integrated through a normally closed contact and an output into one of the loops, and each of the thermosensitive elements is installed in the corresponding housing with the possibility of releasing the heads of the corresponding rod covered by it. 2. The stand-alone fire extinguishing and alarm device according to claim 1, characterized in that the heat-sensitive element of a material with a thermomechanical shape memory is made of titanium nickelide in the form of an open ring. 3. The stand-alone fire extinguishing and alarm device according to claim 1, characterized in that the rod head has a through hole. 4. The stand-alone fire extinguishing and alarm device according to claim 3, characterized in that each of the rods is equipped with a fuse installed in the through hole of the stem head. 5. The stand-alone fire extinguishing and alarm device according to claim 4, characterized in that the fuse is made in the form of a cotter pin. 6. The stand-alone fire extinguishing and alarm device according to claim 1, characterized in that the casing is made of heat-resistant and impact-resistant material. 7. Autonomous fire extinguishing and alarm device according to any one of claims 1 and 6, characterized in that the housing is made of aluminum. 8. A stand-alone fire extinguishing and alarm device according to any one of claims 1 and 6, characterized in that the housing is made of glass-filled polyamide. 9. The stand-alone fire extinguishing and alarm device according to claim 1, characterized in that the magnets are connected by the north poles. 10. The stand-alone fire extinguishing and alarm device according to claim 1, characterized in that the rod is loaded with a spring installed in the guides of the housing. 11. The stand-alone fire extinguishing and alarm device according to claim 1, characterized in that the inductor has a frame made of non-magnetic material. 12. The stand-alone fire extinguishing and alarm device according to claim 11, characterized in that the frame of the inductor is made of polyamide. 13. A stand-alone fire extinguishing and alarm device according to any one of claims 1 and 11, characterized in that the frame of the inductor is additionally equipped with a skirt.

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