KR101681676B1 - Connection apparatus for fire extinguishing sprinkler - Google Patents

Abstract

The present invention relates to a fire sprinkler connection device of an apartment house, improving fire extinguishing efficiency. The present invention comprises: a main pipe; a first sub-pipe and a second sub-pipe; an opening and closing device; a first pipe; a screw pipe; a guide; a bracket; and a controller.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fire-extinguishing sprinkler connection apparatus for a house,

FIELD OF THE INVENTION The present invention relates to a fire-fighting sprinkler connection apparatus for a fire-fighting house in a multi-family home, which can increase the fire suppression efficiency while widening the spray range of the fire-extinguishing liquid of the sprinkler.

As is well known, a sprinkler is a sprinkling device that disperses and dispenses a supplied fire-fighting liquid. The sprinkler is installed in a building or the like in a building and fire-extinguishing liquid is sprayed when a fire occurs. It is common to be installed on the ceiling of each room.

Generally, the sprinkler structure piping pipes according to the structure of the room, and the sprinklers, which are injection ports of the fire-fighting liquid, are arranged at regular intervals, so that the fire detection and the spraying of the fire liquid are performed.

However, in the conventional sprinkler structure, the piping structure must be designed in accordance with the indoor structure, so that it has been difficult to cut and pipe piping in accordance with the site during the construction process.

In order to solve this problem, Patent Publication No. 10-2005-00117358 (published on December 14, 2005) was invented.

The sprinkler installation includes a main water supply pipe 5 and a branch water supply pipe 1 for supplying water to the inside of the ceiling and a plurality of branched flexible joints are connected to the branch water supply pipe 1 , And a sprinkler (3) is provided with a connecting member as a connecting member (2) to the end side thereof. At this time, the flexible joint uses a flexible pipe having excellent flexibility for convenience of construction. Even if the distance between each sprinkler and the water supply branch pipe is not constant, the advantage of construction that can be connected easily have.

That is, as shown in the use state diagram of Fig. 1, the inlet-side straight pipe portion 11 and the water-supply-side straight pipe portion 12 are provided at both ends of the flexible corrugated pipe 10 in the form of a corrugated pipe which can be bent in an arbitrary direction A slip nut 20 for connecting the connection pipe 2 is provided at one side of the feed side straight pipe section 12 and a connection nut 30 'is connected to the other side by an O-ring And is provided in a hermetically sealed state. A separate connecting medium nipple 4 for connecting to the branch water supply pipe body 1 is screwed to the connection nut 30 'with a nut 6 formed integrally with the branch water supply pipe body 1.

However, in the prior art, the sprinkler 3 is fixed at one point, and there is a limitation in spraying the fire-fighting liquid only to the point. Of course, this limitation is to limit the fire extinguishing range of one sprinkler 3, so there was a disadvantage that the sprinkler 3 had to be increased to compensate for this.

Prior Art Document 1. Patent Publication No. 10-2005-001173585 (published Dec. 14, 2005)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a fire-fighting sprinkler connection device for a fire fighting house of a multi-family house that can reduce the number of sprinklers for spraying fire- do.

According to an aspect of the present invention,

A main pipe into which a pumped fire liquid flows;

A first sub-tube and a second sub-tube separated from each other by the main tube and communicating with each other;

A first sub-pipe and a second sub-pipe; and a second sub-pipe disposed between the first sub-pipe and the second sub-pipe in a rotatable manner, A door selectively interrupting the pipe or the second sub-pipe from the main pipe and communicating the first sub-pipe and the second sub-pipe so that the fire-fighting liquid flows alternately, and a switch as a drive motor for transmitting rotational power to the rotary shaft;

A first conduit communicating with the first sub-conduit;

A second conduit communicating with the second sub-conduit;

A screw tube having a male thread formed on an inner circumferential surface thereof to receive a hydraulic pressure of the fire liquid to generate a rotational force and a male screw thread formed on an outer circumferential surface thereof;

A guide installed alongside the screw tube;

A movable tube having a female screw thread engaging with a male screw thread of the screw tube; a bracket having a hook formed on the guide to protrude from the movable tube so that the movable tube moves by rotation of the screw tube; And

And a pressure sensor that senses a pressure generated between the bracket and the first pipe or the second pipe, and controls the operation of the driving motor upon receiving a pressure signal of a reference value or more from the pressure sensor, A controller that detects the internal water pressure in real time and controls the operation of the pump so that the water pressure maintains the reference value;

The present invention relates to a fire-fighting sprinkler connection apparatus for a fire-fighting system.

The present invention has the effect of reducing the number of sprinklers injecting the fire-fighting liquid and performing one of the sprinklers in a wide fire-extinguishing range.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a sprinkler connecting apparatus according to the present invention,
2 is a perspective view illustrating a connection between a screw tube and a bracket of a sprinkler connection apparatus according to the present invention,
3 is a perspective view illustrating a connection between a first pipe and a screw pipe of a sprinkler connection device according to the present invention,
FIG. 4 is a cross-sectional view illustrating a cross-sectional view of the first pipe and the screw pipe shown in FIG. 3,
5 is a plan view schematically showing a piping of a sprinkler connection apparatus according to the present invention,
6 is a cross-sectional view schematically showing a controller of a sprinkler connection apparatus according to the present invention,
FIG. 7 is an exploded perspective view showing one embodiment of a connection of a first channel and a bracket of a sprinkler connecting device according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, There will be. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view of a sprinkler connecting apparatus according to the present invention, and FIG. 2 is an exploded perspective view showing a connection between a screw tube and a bracket of a sprinkler connecting apparatus according to the present invention. FIG. 4 is a cross-sectional view illustrating a cross-sectional view of the first pipe and the screw pipe shown in FIG. 3, in which the first pipe and the screw pipe of the sprinkler connecting device are connected to each other.

The sprinkler connecting apparatus of the present embodiment mainly allows the sprinklers 310 and 310 'installed in the ceiling W to extinguish a broad fire spot through the minimum sprinklers 310 and 310' through cyclic reciprocating movement in the event of an emergency. In addition, the sprinkler connection device of the present embodiment allows automatic transfer of only the supply of the fire-fighting fluid without any separate transporting means for reciprocating transport of the sprinklers 310 and 310 '.

To this end, the sprinkler connection apparatus of the present embodiment includes a guide 100, a screw pipe 220 disposed in parallel with the guide 100, a connection pipe 340 for installing the sprinklers 310 and 310 ' A bracket 350 connecting the screw 340 and the guide 100 to the screw pipe 220 and the guide 100 and first and second pipes 210 and 230 to be connected to both ends of the screw pipe 220.

The screw pipe 220 has a tubular shape in which a male screw thread 221 and a female screw thread 222 are formed on the outer peripheral surface and the inner peripheral surface respectively and rotate by the water pressure of the fire liquid moving along the screw pipe 220. That is, a high water pressure applied by the fire-fighting liquid through the screw pipe 220 at a high speed is applied to the female thread 222 to generate a rotational force, and the rotational force rotates the screw pipe 220. For this purpose, both ends of the screw pipe 220 are rotatably connected to the first and second conduits 210 and 230, respectively.

On the other hand, a male screw thread 221 is formed on the outer circumferential surface of the rotating screw pipe 220 and a bracket 350 fixing the sprinklers 310 and 310 'has a moving pipe 351 formed with an inner thread surface 351a do. The screw thread 221 of the screw tube 220 and the female screw thread 221 of the bracket 350 have a pitch corresponding to each other so that the moving tube 351 moves according to the rotating direction of the screw tube 220, (350). The bracket 350 connected to the screw pipe 220 moves in accordance with the rotation direction of the screw pipe 220.

Subsequently, the bracket 350 constitutes a hook 352 protruding from the moving pipe 351. The hook 352 is movably engaged with the guide 100 disposed in parallel with the screw tube 220 so that the bracket 350 moves linearly along the rotation of the screw tube 220.

As a result, the sprinklers 310 and 310 'fixed to the bracket 350 move linearly in a stable posture as shown in FIGS. 1 (a) and 1 (c) together with the rotation of the screw pipe 220 The fire-fighting fluid can be discharged evenly. Of course, since no separate power source is required for such movement, unnecessary equipment addition and power consumption can be reduced.

The sprinkler connection apparatus of the present embodiment further includes flexible tubes 320 and 330 which communicate the first and second ducts 210 and 230 and the sprinklers 310 and 310 ', respectively. The fire extinguishing liquid introduced from the first and second ducts 210 and 230 must be partially flowed into the screw pipe 220 for rotation of the screw pipe 220 but it is essential that the sprinklers 310 and 310 '). One end of the flexible tubes 320 and 330 is connected to the separation tubes 212 and 232 that connect the first and second tubes 210 and 230 to both ends of the screw tube 220, 330 to the sprinklers 310, 310 '. Accordingly, the fire liquid flowing into the first and second ducts 210 and 230 flows into the screw pipe 220 and the flexible tubes 320 and 330 from the separation pipes 212 and 232, respectively.

The flexible tubes 320 and 330 of the present embodiment must be able to maintain the shape of the tubes while flowing in accordance with the positions of the sprinklers 310 and 310 'and furthermore, the sprinklers 310 and 310' It is preferable to have elasticity that reduces the length itself when it comes close to each other. Therefore, it is preferable that the flexible tubes 320 and 330 of the present embodiment are applied with a bellows made of elastic material.

3 and 4, the first conduit 210 is composed of a main pipe 211 and a separation pipe 212, and can constitute a conduit 213 into which the flexible tube 320 is inserted. have.

The separating pipe 212 is formed with a latching groove 212a on its inner surface so that the protruding latching base 223 is inserted into the separating pipe 212 and the latching groove 212a is rotatable . As a result, the screw pipe 220 inserted into the separation pipe 212 is rotatably and communicably engaged with the first pipe 210.

The bearings B1 and B2 are reinforced on the contact surface between the inner surface of the engagement groove 212a and the engagement base 223 so that the screw pipe 220 receiving the water pressure is rotated uniformly. In addition, it is preferable to perform a sealing (S) treatment on the joint between the separation pipe 212 and the screw pipe 220 for waterproofing.

Meanwhile, the two sprinklers 310 and 310 'of the present embodiment form one set, and the two sprinklers 310 and 310' communicate with each other via the connection pipe 340. Since the connecting pipe 340 is made of a material having a strength for physically fixing the two sprinklers 310 and 310 ', the two sprinklers 310 and 310' move together with the rotation of the screw pipe 220 . Of course, the fire-fighting liquid flowing into each of the sprinklers 310 and 310 'flows through the connection pipe 340. Although two sprinklers 310 and 310 'are illustrated in the present embodiment, three or more sprinklers 310 and 310' may be provided, and only one sprinkler 310 and 310 'may be independent.

FIG. 5 is a plan view schematically showing a piping of a sprinkler connection apparatus according to the present invention, FIG. 6 is a sectional view schematically showing a controller of a sprinkler connection apparatus according to the present invention, And FIG. 7 is an exploded perspective view showing an embodiment of a connection of the first channel and the bracket of the sprinkler connecting device according to the present invention.

In this embodiment, at least one screw pipe 220 is connected in parallel between the first conduit 210 and the second conduit 230 so that the fire liquid flowing into the first conduit 210 flows through the screw And moves to the second channel 230 via the pipe 220. Here, the sprinklers 310 and 310 'connected to the screw pipe 220 move in a designated direction according to the rotation direction of the screw pipe 220. For reference, depending on whether the female thread 222 of the screw tube 220 is a right-hand thread or a left-hand thread, the direction of rotation also changes in the same flow of the fire-fighting fluid.

The first pipe 210 and the second pipe 230 are connected to the first sub pipe 242 and the second sub pipe 243, respectively. Therefore, the fire liquid passing through the first sub-pipe 242 flows into the first line 210, and the fire liquid passing through the second sub-line 243 flows into the second line 230.

For reference, the first and second sub-pipes 242 and 243 may be connected in parallel with a plurality of first channel 210 and second channel 230, which are mutually set.

Subsequently, the first and second sub pipes 242 and 243 are separated into two main pipes 241, and the pump fluid is pumped to the main pipe (not shown) 241 to the first and second sub-pipes 242, 243, respectively. At this time, a uniform amount of the fire liquid of the main pipe 241 is not simultaneously supplied to the first and second sub pipes 242 and 243, but is alternatively made by the switch 290.

6, the main pipe 241 is divided into two first and second sub pipes 242 and 243 and connected to the main pipe 241 and the first and second sub pipes 241 and 242. [ 242, and 243, the door 291 of the switch 290 is configured to be rotatable around the rotation axis 292. [ At this time, the rotary shaft 292 is powered by a drive motor (not shown), which is a component of the switch 290, and the drive motor is operated by the controller 280. The controller 280 detects the water pressure in the first and second sub pipes 242 and 243 in real time and controls the operation of the pump 270 so that the water pressure maintains the reference value. The water pressure of the screw pipe 220, the first and second ducts 210 and 230, and the first and second sub-pipes 242 and 243 is drastically lowered below the reference value. Accordingly, the controller 280 controls the operation of the pump 270 so that the fire-fighting liquid in the fire-fighting liquid tank 260 is pumped.

On the other hand, the door 291 is provided with a latching jaw (not shown) for preventing the rotation of the door 291 by hanging the door 291 on the inner surface of the main pipe 241 so as not to rotate the waterproofing of the fire- 242a, and 243a are protruded and formed, so that the opening or closure state that is stable to the water pressure of the fire-fighting liquid can be maintained.

For reference, the rotary shaft 292 is arranged to be biased in the direction of the sub-tube in the door 291. [ The water pressure of the fire liquid flowing into the first sub-pipe 242 or the second sub-pipe 243 from the main pipe 241 passes through the door 291 between the latching jaws 242a, 243a and the rotary shaft 292, So that the door 291 can stably maintain the state of connection to the stoppers 242a and 243a on the flow of the fire-fighting liquid. The other end of the door 291 allows the fire liquid circulating through the first sub-pipe 242 or the second sub-pipe 243 to flow into the other sub-pipe without flowing back into the main pipe 241. 6 (a), when one end of the door 291 blocks the main pipe 241 and the second sub pipe 243, the fire liquid supplied from the main pipe 241 passes through the door 291 And the circulated fire liquid supplied from the second sub pipe 243 is guided to the first sub pipe 242 by the other end of the door 291 so that the first sub pipe 242 is guided to the first sub pipe 242, And flows into the sub tube 242. 6 (c), when the door 291 rotates to shut off the main pipe 241 and the second sub pipe 243, the main liquid pipe 241 is supplied with the fire liquid from the first sub pipe 242, and the fire liquid of the second sub-pipe 243 flows into the first sub-pipe 242. [

On the other hand, both side surfaces of the door 291 facing the main tube 241, the first sub tube 242, and the second sub tube 243 are curved in a concave shape, The liquid flowing between the first sub-tube 242 and the second sub-tube 243 can flow as much as possible to the first sub-tube 242 or the second sub- Let it flow.

The above-mentioned installation structure of the door 291 will be described again in turn with reference to the drawings.

The door 291 closes the first sub-tube 242 or the second sub-tube 243 while rotating along the rotation of the rotary shaft 292 so that the first and second sub-tubes 242 and 243 always communicate with each other do. 6 (a), when the door 291 closes the main pipe 241 and the second sub pipe 243, the main liquid of the main pipe 241 flows into the first sub pipe The fire liquid flows into the first conduit 210 communicating with the first sub pipe 242 through the screw pipe 220 and flows into the second conduit 230 through the screw pipe 220, Flows into the pipe (243) and circulates through the intersection to the first sub-pipe (242).

Thereafter, the controller 280 controls the drive motor to rotate the rotary shaft 292 at a specified time or other setting, and accordingly, the door 291 is rotated in the order of (b) and So that the main pipe 241 and the first sub pipe 242 are closed. Of course, as described above, the main liquid of the main pipe 241 flows through the second sub pipe 243, the second pipe 230, the screw pipe 220, the first pipe 210 and the first sub pipe 242 To the second sub-pipe 243 through the second sub-pipe 243.

The controller 280 controls the operation of the switch 290 at a set time interval so that the door 291 rotates and the main tube 241 and the first sub tube 242 or the main tube 241, (243) is made at the set time interval.

In addition, the controller 280 may sense and control the position of the bracket 350. The bracket 350 moves to the separating pipe 212 along with the rotation of the screw 220. When the screw 220 sufficiently rotates and contacts the separating pipe 212, Can no longer move. Of course, the screw tube 220 also can not rotate in the corresponding direction. At this time, since a constant pressure is generated between the end surface of the separation pipe 212 and the end surface of the bracket 350, the pressure sensors 281 and 281 'are installed at the ends of the bracket 350 or the separation pipe 212 And the pressure sensors 281 and 281 'communicate with the controller 280.

The controller 280 controls the switch 290 to change the flow route of the fire liquid when it receives a signal from the specified pressure sensors 281 and 281 '

For reference, if the bracket 350 and the separating pipe 212 are not moved to move, the screw pipe 220 can not rotate, but the fire liquid moves while causing the screw pipe 220 to rotate, It is possible to maintain the state where the screw pipe 220 is stably stopped while smoothly moving the fire-fighting liquid.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100; Guide 210; The first channel
211; Main 212; Separation pipe 213; Synopsis
220; A screw tube 221; Male threads 222; Female thread
223; A latch 230; A second conduit 241; Main pipe
242; A first sub-tube 243; Second sub-tubes 242a, 243a; Jaw
260; Fire-fighting liquid tank
270; Pump 280; Controllers 281 and 281 '; Pressure sensor
290; Switch 291; A door 292; Rotation shaft
310, 310 '; Sprinklers 320, 330; Flexible tube
340; Connector 350; Bracket
351; A moving pipe 351a; Female thread 352; hook

Claims (1)

A main pipe into which a pumped fire liquid flows;
A first sub-tube and a second sub-tube separated from each other by the main tube and communicating with each other;
A first sub-pipe and a second sub-pipe; and a second sub-pipe disposed between the first sub-pipe and the second sub-pipe in a rotatable manner, A door that selectively blocks the pipe or the second sub-pipe from the main pipe and communicates with the first sub-pipe and the second sub-pipe so that the fire-fighting fluid flows therethrough, and a switch comprising a driving motor that transmits rotational power to the rotary shaft;
A first conduit communicating with the first sub-conduit;
A second conduit communicating with the second sub-conduit;
A screw tube having a male thread formed on an inner circumferential surface thereof to receive a hydraulic pressure of the fire liquid to generate a rotational force and a male screw thread formed on an outer circumferential surface thereof;
A guide installed alongside the screw tube;
A movable tube having a female screw thread engaging with a male screw thread of the screw tube; a bracket having a hook formed on the guide to protrude from the movable tube so that the movable tube moves by rotation of the screw tube; And
And a pressure sensor that senses a pressure generated between the bracket and the first pipe or the second pipe, and controls the operation of the driving motor upon receiving a pressure signal of a reference value or more from the pressure sensor, A controller that detects the internal water pressure in real time and controls the operation of the pump so that the water pressure maintains the reference value;
Wherein the fire extinguisher is connected to the sprinkler.

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