KR200349052Y1 - Automatic fire-extinguishing apparatus for tracing the outbreak point of a fire - Google Patents

Abstract

The present invention is installed on the ceiling inside the building, when a fire occurs at a specific location inside the building, automatically detects the location of the fire and tracks the location of the fire to extinguish the fire by spraying water while adjusting the water spraying distance toward the fire location. Relates to an automatic fire extinguishing device.

The present invention is installed on the ceiling of the interior of the building to accurately spray the water to the automatically detected ignition position, the fire extinguishing in the corners of the interior of the building that was difficult to extinguish with the conventional fire extinguishing device manufactured in the form of sprinkler Not only can it be completely extinguished, there is an advantage that it can extinguish all the fires that occur at a specific location inside the building with only a small number.

Description

AUTOMATIC FIRE-EXTINGUISHING APPARATUS FOR TRACING THE OUTBREAK POINT OF A FIRE}

The present invention relates to a fire extinguishing device installed on the ceiling inside the building, and more particularly to an automatic fire extinguishing device for tracking the ignition position.

In general, the conventional fire extinguishing device installed on the ceiling inside the building is made in the form of a sprinkler and arranged at regular intervals on the ceiling inside the building.

However, the conventional fire extinguishing device manufactured in the form of a sprinkler as described above and arranged at regular intervals on the ceiling of a building has a fire extinguishing device because it is to spray water radially with the fire extinguishing device as the center point when a fire occurs. It is difficult to extinguish the fire if a fire occurs in the corner of the inside of the building that is not arranged. Actually, even if the fire extinguishing device disposed at the position closest to the corner of the inside of the building sprays water radially, There is a problem that it is difficult to extinguish a fire directly.

The present invention is to solve the above-mentioned conventional problems, the object of the present invention is installed on the ceiling inside the building when a fire occurs at a specific location inside the building automatically detects the location of the fire and the water toward the ignition location It is to provide an automatic fire extinguishing tracking device to extinguish a fire by spraying water while controlling the distance.

Figure 1 is a side view showing an automatic fire extinguishing tracking position according to the present invention.

2 is a diagram illustrating an internal configuration of FIG. 1.

<Explanation of symbols for the main parts of the drawings>

10: tumbler 20: tumbler motor

30: Injector 40: Control Box

50: connecting plate

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 and 2, the rotating plate 10 has a plurality of heat sensors 11 along the outer circumferential surface and are arranged at regular intervals, and a connecting rod 12 and a spiral groove having a hinge shaft 12a on the bottom surface thereof. The support protrusion 13 in which 13a) was formed is formed.

The rotating plate motor 20 rotates the rotating plate 10 connected to the rotating shaft 21, and is preferably a step motor.

The injector 30 has a housing 32 in which a drain pipe 31 passing through the rotating plate 10 is installed therein and is connected to the connecting rod 12.

The injector 30 has a nozzle 34 which injects water supplied from the drain pipe 31 while moving back and forth as the rotary shaft of the nozzle transfer motor 33 installed in the housing 32 is rotated forward and backward. (32) the connecting rod is mounted on the front end, and the rotating shaft of the injector feed motor 35 installed in the housing 32 is inserted into the spiral groove 13a of the support protrusion 13 so as to rotate forward / backward. The front end of the housing 32 moves up and down about the hinge axis 12a of 12).

The housing 32 is connected to the connecting rod 12 of the rotating plate 10, the drain pipe 31 through the outer circumferential surface is provided therein, the guide spiral portion 32a is formed on the inner peripheral surface of the front end of the left opening, the right side The opening is covered by the lid 32b.

The nozzle 34 is mounted at the front end of the housing 32 to spray water supplied from the drain pipe 31 inside the housing 32 while moving back and forth along the guide spiral 32a of the housing 32. Spiral portions 34a and 34b are formed on the outer circumferential surface and the inner circumferential surface of the rear end of the substrate.

The nozzle transfer motor 33 is embedded in the housing 32 to reciprocate the nozzle 34 back and forth by forward / backward rotation of a rotation shaft engaged with the spiral portion 34b of the inner circumferential surface of the nozzle 34. It is a step motor.

The injector feed motor 35 is installed in the housing 32 to rotate the shaft inserted into the spiral groove 13a of the support protrusion 13 of the rotating plate 10 forward / reversely to the hinge shaft of the connecting rod 12. The front end of the housing 32 is moved up and down about the center 12a, Preferably it is a step motor.

The control box 40 passes through a drain pipe 31 installed in the injector 30, and has a drain pipe valve 41 for automatically opening and closing the drain pipe 31, and is installed on a ceiling inside the building.

The control box 40 determines the heat detection sensor 11 that outputs a heat detection signal of the plurality of heat detection sensors 11 to determine the ignition position corresponding to the heat detection sensor 11 and the heat detection After the magnitude of the signal is determined to calculate the distance from the injector 30 to the firing position, the rotating plate motor 20 is driven to rotate the injector 30 connected to the rotating plate 10 in the firing position direction. Opening the drain pipe valve 41 drives the nozzle transfer motor 33 to reciprocate the nozzle 34 back and forth, and simultaneously drives the injector transfer motor 35 to vertically move the injector 30. The controller 42 is built in.

The connecting plate 50 passes through the drain pipe 31 passing through the control box 40, and protects and covers the wiring between the control box 40 and the rotating plate 10.

Automatic ignition tracking tracking device according to the present invention configured as described above operates as follows.

The rotating plate 10 to which the injector 30 is connected does not rotate normally, and each of the thermal sensors 11 disposed at regular intervals along the outer circumferential surface of the rotating plate 10 detects the heat around it. do.

If the specific heat sensor 11 outputs a heat detection signal equal to or greater than a predetermined reference value in order to detect heat due to a fire, first, the controller 42 is a heat sensor disposed on the rotating plate 10. The position of 11 is checked to determine the ignition position corresponding to the heat sensor 11, and the rotating plate motor 20 is rotated by a predetermined angle.

Accordingly, when the rotating plate 10 rotates, the injector 30 connected to the rotating plate 10 by the connecting rod 12 rotates toward the ignition position detected by the heat sensor 11.

Subsequently, the controller 42 determines the magnitude of the heat detection signal output by the heat sensor 11 detecting the ignition position and calculates the distance from the injector 30 to the ignition position according to the result of the drain pipe valve. While opening 41, the nozzle transfer motor 33 is rotated forward or backward to appropriately adjust the water injection distance between the injector 30 and the ignition position, thereby reciprocating the nozzle 34 back and forth. At this time, the rotation axis of the nozzle transfer motor 33 is rotated forward or reverse in the state engaged with the spiral portion 34b of the nozzle 34 to reciprocate the nozzle 34 back and forth and the outer peripheral surface of the nozzle 34 The spiral portion 34a reciprocates back and forth along the guide spiral portion 32a in engagement with the guide spiral portion 32a of the housing 32 of the sprayer 30.

At the same time, the controller 42 drives the injector feed motor 35 to vertically move the injector 30 to vertically move the front end of the injector 30 while water is injected through the nozzle 34. Let's do it. At this time, as shown in Figure 2, the rotating shaft of the injector feed motor 35, the connecting rod while being rotated forward or reverse in the state inserted into the spiral groove (13a) of the support protrusion 13 of the rotating plate (10). The front end of the injector 30 is vertically moved about the hinge axis 12a of (12).

As described above, the automatic fire extinguishing device for tracking the fire position according to the present invention is installed on the ceiling inside the building so that water can be accurately injected to the fire position detected automatically. Not only can it completely extinguish a fire occurring in the corner portion of the interior of the building that was difficult to do, there is an advantage that can suppress all the fire occurring at a specific location inside the building with only a small number.

What has been described above is just one embodiment for implementing the automatic ignition tracking automatic fire extinguishing device according to the present invention, the present invention is not limited to the above embodiment, this invention claimed in the utility model registration claims below Without departing from the gist of the present invention, anyone of ordinary skill in the field to which the present invention belongs will have a technical spirit of the present invention to the extent that various modifications can be made.

Claims (2)

A plurality of heat detection sensors 11 are arranged along the outer circumferential surface, and the rotating plate is provided with a connecting rod 12 including a hinge shaft 12a and a support protrusion 13 having a spiral groove 13a formed thereon. 10; A rotating plate motor 20 for rotating the rotating plate 10 connected to the rotating shaft 21; A housing 32 having a drain pipe 31 passing through the rotating plate 10 therein is connected to the connecting rod 12, and a rotation axis of the nozzle transfer motor 33 installed inside the housing 32 is reversed. As it rotates, a nozzle 34 for injecting water supplied from the drain pipe 31 while being reciprocated back and forth is mounted at the front end of the housing 32, and a rotation axis of the injector feed motor 35 installed inside the housing 32. The injector 30 in which the front end of the housing 32 moves up and down about the hinge shaft 12a of the connecting rod 12 is inserted into the spiral groove 13a of the support protrusion 13 and rotates forward and reverse. ; A drain pipe 31 installed in the injector 30 passes, and a drain pipe valve 41 for automatically opening and closing the drain pipe 31 is built in, and outputs a heat detection signal among the plurality of thermal sensors 11. According to the result of determining the heat detection sensor 11 to determine the ignition position corresponding to the heat detection sensor 11 and the magnitude of the heat detection signal to calculate the distance from the injector 30 to the ignition position After driving the rotating plate motor 20 to rotate the injector 30 connected to the rotating plate 10 in the ignition position direction, while opening the drain pipe valve 41 to drive the nozzle transfer motor 33 to the nozzle ( A control box (40) having a controller (42) for moving the injector (30) upward and downward by driving the injector feed motor (35) at the same time; And The drainage pipe 31 passing through the control box 40 passes, and the connecting plate 50 for protecting and covering the wiring between the control box 40 and the rotary plate 10. Ignition position tracking automatic fire extinguishing device, characterized in that consisting of. The method of claim 1, wherein the injector 30 A drain pipe 31 connected to the connecting rod 12 of the rotating plate 10 and passing through the outer circumferential surface thereof is provided therein, a guide spiral portion 32a is formed on the inner circumferential surface of the left opening front end, and the right opening is a lid 32b. A housing 32 covered by; It is mounted to the front end of the housing 32 to spray water supplied from the drain pipe 31 inside the housing 32 while reciprocating back and forth along the guide spiral portion 32a of the housing 32, A nozzle 34 having spiral portions 34a and 34b formed on an inner circumferential surface thereof; A nozzle transfer motor (33) embedded in the housing (32) for forward / backward rotation of a rotating shaft engaged with the spiral portion (34b) of the nozzle (34) by reciprocating the nozzle (34) back and forth; And The rotating shaft inserted into the spiral groove 13a of the support protrusion 13 of the rotating plate 10 is embedded in the housing 32 and rotates forward / reversely so that the hinge shaft 12a of the connecting rod 12 is centered on the housing. Injector feed motor (35) to vertically move the front end of the (32) Automatic fire extinguishing location tracking, characterized in that consisting of.