KR20180002999U - Pipe structure - Google Patents

Abstract

The disclosure is directed to a piping structure capable of connecting a ready-operated valve, a pressure gauge, and a pressure relief valve.
The improved piping structure includes a main pipe having a first chamber and a second chamber connected to the first chamber, a first coupling portion formed at one end of the main pipe in which the first chamber is located, A second engaging portion formed to communicate with the first chamber, a third engaging portion formed to communicate with the first chamber in the longitudinal direction side of the main pipe, a fourth engaging portion formed on the other end of the main pipe in which the second chamber is located, And a check valve coupled to the interior of the main pipe to allow fluid to flow from the second chamber only toward the first chamber.

Description

Piping structure {PIPE STRUCTURE}

The disclosed subject matter relates to a piping structure for use in a sparkler ready-operated valve.

Generally, the sprinkler facility is a fire-fighting facility aiming at early evolution in the event of fire. One of the devices constituting the sprinkler facility is a water detection device which generates an alarm when water is supplied when the closed sprinkler head is opened in case of fire Device. According to the fire safety standard of the sprinkler facility (NFSC 103), the water flow detection device is a device that automatically detects the flow phenomenon in the main body and emits a signal or an alarm, and is classified into a wet flow detection device, a dry flow detection device, .

The wet water detecting apparatus maintains the fluid in a state in which the fluid flows in the primary side to which the fluid (pressurized water) flows and the secondary side to be discharged, and the sealed portion of the sprinkler head (sealed type) The pressure of the secondary side pressure water is decreased and the pressure of the secondary side is lowered. Then, the pressure switch sends a signal to the alarm device, and the fire pump is operated to continuously supply the digested water. Air is injected into the valve to balance with the primary pressurized water, and when the head is opened by fire, the pressure is lowered and the chamber in the valve is opened and the primary pressurized water is supplied.

In addition, the ready-operated valve maintains the atmospheric pressure without gas or compressed air on the secondary side. When the fire occurs, the water detector is activated during the preparation operation by the operation of the detector, and the fire extinguishing water is sent to the closed head. It is opened by heat.

1. Korean Registered Utility Model No. 20-0447360

It is intended to provide a simple piping structure capable of delivering the pressure of the primary side piping connected to the ready valve to the diaphragm.

It is preferred that the disclosed arrangement is capable of connecting a ready-operated valve, a pressure gauge, and a pressure relief valve using a single piping structure.

 And a check valve for preventing backflow when the pressure of the primary side piping delivered to the diaphragm is removed inside the piping structure.

The disclosed teachings can simplify the complicated piping line connected to the ready-operated valve, and the piping structure is simple, making it easy and economical to manufacture and repair.

1 is a perspective view of a ready-made valve to which a piping structure according to one embodiment is applied.
FIGS. 2 to 3 are a cross-sectional view and a partially enlarged view showing the operation of a ready-operated valve to which a piping structure according to an embodiment is applied.
4 is a perspective view of a piping structure according to an embodiment.
5 is an exploded perspective view of a piping structure according to an embodiment.
6 is a cross-sectional perspective view of a piping structure according to one embodiment.
7 is an exploded cross-sectional perspective view of a piping structure according to an embodiment.

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

As shown in Fig. 1, the improved piping structure is related to a simple piping structure that can transfer the pressure of the primary piping connected to the ready-operated valve to the diaphragm. Generally, the valve of the preparatory operation is connected to the lower side of the valve body by the primary side pipe 10, the secondary side pipe 50 is connected to the upper side thereof, and the diaphragm is located on the side thereof.

The improved piping structure includes a main pipe 100 in which a first chamber 120 and a second chamber 140 connected to the first chamber 120 are formed, a main pipe 100 in which the first chamber 120 is located, A second coupling part 300 formed to communicate with the first chamber 120 in the longitudinal direction side of the main pipe 100 and a second coupling part 300 communicating with the first chamber 120 in the longitudinal direction of the main pipe 100. [ A fourth coupling part 500 formed at the other end of the main pipe 100 where the second chamber 140 is located, a third coupling part 400 formed to communicate with the first chamber 120 on the side of the main pipe 100, And a check valve 600 coupled to the interior of the first chamber 100 to allow fluid to flow from the second chamber 140 toward the first chamber 120 only.

2 to 3, the improved piping structure is for transferring the pressure of the fluid filled in the primary piping 10 to the diaphragm 20 of the ready-operation valve, and the pressure release valve 60 is operated The pressure transmitted to the diaphragm 20 is removed so that the fluid in the primary pipe 10 can be moved to the secondary pipe 50. [ Specifically, when the pressure relief valve 60 is operated, the clapper 30 of the ready-operated valve that has been fixed by the diaphragm 20 is opened, and the fluid of the primary pipe 10 flows into the secondary pipe 50 The sprinkler (not shown) is operated.

As shown in FIG. 4, the main pipe 100 is a skeleton part of the piping structure, and the main pipe 100 installed in the vertical direction is referred to. The main pipe 100 includes a first coupling part 200, a first chamber 120, a second chamber 140, and a fourth coupling part 500 from top to bottom. Specifically, the first coupling part 200 is formed at the upper end, the fourth coupling part 500 is formed at the lower end, and the first chamber 120 is formed on the upper side, the second chamber 140 is formed on the lower side, have. A partition wall separating the first chamber 120 and the second chamber 140 is formed in the main pipe 100 and a through hole connecting the first chamber 120 and the second chamber 140 is formed at the center of the partition wall. .

The main pipe 100 is for simply arranging a complicated piping line connected to the ready-operated valve, and a pipe or pipe-shaped component connected to the main pipe 100 is screwed directly to the main pipe 100 But may be combined using the tightening nut 160, or various types of pipe connecting methods conventionally used such as welding may be applied.

The first coupling portion 200 is a portion to which a pressure gauge 80 for measuring the pressure inside the first chamber 120 is mounted and is connected to the first chamber 120 through a pressure gauge 80 coupled to an upper end portion of the main pipe 100, It is possible to know the pressure inside the chamber 120, so that it becomes possible to know whether or not the preparatory operation valve is operating normally. The pressure gauge 80 may be connected to the first coupling part 200 directly or by using a separate first connection pipe (not shown).

The second coupling portion 300 is connected to the diaphragm 20 of the ready-operation valve and is connected to the ready-operation valve directly or through a separate pipe as a portion for transmitting the pressure of the primary pipe 10. Specifically, the second coupling portion 300 is a protruding pipe shape communicating with the first chamber 120 on the side of the main pipe 100, and is preferably connected through the preparatory operation valve and the second connection pipe 320 Do.

The third coupling portion 400 is connected to the pressure relief valve 60. When the pressure relief valve 60 is operated, the fluid filled in the first chamber 120 is discharged to the secondary piping 50. The pressure relief valve 60 may be connected to the third coupling part 400 directly or by using a separate pipe. Specifically, the third coupling portion 400 is a protruding pipe type communicating with the first chamber 120 at the side of the main pipe 100, and the pressure relief valve 60 is connected to the third coupling pipe 400 through the third connection pipe 420, It is preferable to connect to the coupling part 400.

That is, one side of the third connecting pipe 420 is connected to the third engaging part 400, and the other side is connected to the upper part of the valve body of the ready-operation valve or the secondary pipe 50. The pressure release valve 60 is connected to a predetermined position of the third connection pipe 420, and it is preferable to use a solenoid-operated electric valve.

The fourth coupling portion 500 is connected to the lower portion of the valve body of the ready-operation valve or the primary pipe 10 through the fourth coupling pipe 520. That is, one side of the fourth connecting pipe 520 is connected to the fourth engaging part 500, and the other side is connected to the lower part of the valve body of the ready-operation valve or the primary pipe 10.

A first valve 540 is coupled to the fourth connection pipe 520 for opening and closing the flow of the fluid in the primary pipe 10 to the main pipe 100. The first valve 540 may be coupled between the fourth coupling portion 500 and the fourth coupling pipe 520 or may be coupled to a predetermined position of the fourth coupling pipe 520.

6 to 7, the check valve 600 is coupled to the inside of the main pipe 100 to prevent the fluid filled in the first chamber 120 from flowing back to the second chamber 140.

More specifically, the check valve 600 is disposed between the first chamber 120 and the second chamber 140 and includes a valve seat 620 formed inside the main pipe 100, A fixed portion 660 coupled to the inside of the main pipe 100 at the first chamber 120 side and an elastic portion 680 positioned between the disk 640 and the fixing portion 660 .

The valve seat 620 is formed on the partition wall of the first chamber 120 that defines the first chamber 120 and the second chamber 140. The first chamber 120 and the second chamber 140 And are connected to each other or blocked by a disk 640 that is seated on the valve seat 620.

The fixing portion 660 is preferably screwed into the main pipe 100 below the second coupling portion 300 and the third coupling portion 400. However, the fixing portion 660 may be fixedly coupled.

The elastic portion 680 is a coil spring disposed between the disk 640 and the fixing portion 660 to provide an elastic force such that the disk 640 is brought into close contact with the valve seat 620.

The fixing portion 660 can be formed with a groove on the upper surface so that it can be tightened or loosened by using a tool such as a screwdriver or a hexagon wrench. Therefore, when the fixed portion 660 screwed to the main pipe 100 is tightened or loosened, the gap between the fixing portion 660 and the valve seat 620 is narrowed or widened and the elastic force of the elastic portion 680 is changed The pressure of the check valve 600 can be adjusted.

The check valve 600 may include an O-ring 690 between the valve seat 620 and the disc 640 to more reliably block the first chamber 120 and the second chamber 140. The O-ring 690 may be coupled to the valve seat 620 and may be coupled to the disc 640.

5, the improved piping structure includes a fifth coupling portion 700 formed to communicate with the second chamber 140 in the longitudinal direction of the main pipe 100, a second coupling portion 700 formed in the second chamber 140, And a cap 900 which is coupled to the disposed filter screen 800 and the fifth coupling unit 700 to seal the second chamber 140.

Specifically, the fifth coupling portion 700 is a protruded pipe shape communicating with the second chamber 140 on the side of the main pipe 100, and the filtering net 800 is a pipe-shaped .

The filtering net 800 is for filtering out foreign matter. When the filtering net 800 is formed into a pipe shape, the filtering net 800 is closely attached to the inside of the pipe-shaped second chamber 140, so that foreign matters can be effectively filtered out.

The stopper 900 is preferably screwed to the fifth engaging portion 700. When the foreign matter is accumulated in the screening net 800, the stopper 900 can be opened to remove foreign matter.

The operation of the improved piping structure is as follows.

1. Close the primary on-off valve (90).

2. When the first valve 540 is opened, the fluid of the primary side pipe 10 flows into the first chamber 120 and the second chamber 140.

3. When the fluid introduced into the first chamber 120 presses the diaphragm 20 of the ready-action valve, the latch 40 presses the clapper 30 to lock it.

4. When the first valve 540 is closed and the primary opening / closing valve 90 is opened, a standby state is set for a fire.

5. When the pressure release valve 60 is opened in response to a fire signal in the operation standby state, the fluid in the first chamber 120 flows out to the secondary pipe 50, and the fluid in the first chamber 120, which has been applied to the diaphragm 20 of the ready- The pressure is removed, and the latch 40, which has pressed the clapper 30, is opened and is in an operating state.

6. When the clapper 30 is opened in the operating state, the fluid in the primary piping 10 flows through the secondary piping 50 to the point of fire to activate the sprinkler, and the alarm switch 70 is operated to send out a fire alarm .

7. Fluid flows back into the first chamber 120, but the pressure relief valve 60 is in the open state, so that the diaphragm 20 of the ready-action valve can not be pressurized again.

It is to be understood that the present invention is not limited to the above-described embodiment, and that various modifications and changes may be made without departing from the scope of the present invention as set forth in the following claims. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit of the invention.

10: Primary piping 20: Diaphragm
30: Clapper 40: Latch
50: secondary piping 60: pressure release valve
70: Alarm switch 80: Pressure gauge
90: primary opening / closing valve 100: main pipe
120: first chamber 140: second chamber
160: tightening nut 200: first engaging portion
300: second coupling portion 320: second coupling pipe
400: third coupling portion 420: third connection pipe
500: fourth coupling portion 520: fourth connection pipe
540: first valve 600: check valve
620: valve seat 640: disk
660: Fixing portion 680: Elastic portion
690: O-ring 700: Fifth coupling part
800: Filter net 900: Plug

Claims (5)

A main pipe having a first chamber therein and a second chamber connected to the first chamber;
A first coupling part formed at one end of the main pipe in which the first chamber is located;
A second coupling portion formed to communicate with the first chamber in the longitudinal direction side of the main pipe;
A third engaging portion formed to communicate with the first chamber in the longitudinal direction side of the main pipe;
A fourth coupling part formed at the other end of the main pipe in which the second chamber is located; And
And a check valve coupled to the inside of the main pipe to allow fluid to flow only in the direction from the second chamber toward the first chamber.
The method according to claim 1,
A fifth engaging portion formed to communicate with the second chamber in the longitudinal direction side of the main pipe;
A filter disposed within the second chamber; And
And a cap coupled to the fifth engagement portion to seal the second chamber.
3. The method of claim 2,
Wherein the squeezing net is in the form of a pipe which is in close contact with the interior of the second chamber.
4. The method according to any one of claims 1 to 3,
The check valve includes a valve seat disposed between the first chamber and the second chamber and formed inside the main pipe;
A disk resting on the valve seat;
A fixing unit coupled to the inside of the first chamber-side main pipe; And
And an elastic portion positioned between the disk and the fixing portion.
5. The method of claim 4,
Further comprising an O-ring coupled to the valve seat or disc.

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