KR20200080675A - Chamber for fire-fighting equipment pressure switch - Google Patents

Abstract

The present invention relates to a chamber for a fire-fighting equipment pressure switch. The chamber for a fire-fighting equipment pressure switch according to the present invention has an impact preventing connection unit in which a T-shaped moving path is perforated so that fire water flowing into the chamber is branched in both directions in order to prevent a failure of a pressure switch in advance by canceling or blocking a shock pressure of the fire water flowing into the pressure switch. In addition, a tool groove is formed on the lower surface of a shock-absorbing body for convenient removal and joint during maintenance and cleaning, and a branch protrusion is formed at an upper end of a fire water inlet groove. In addition, a flow of the fire water can be more smooth by forming an inclined inlet path inclined at a predetermined angle.

Description

Chamber for fire-fighting equipment pressure switch}

The present invention relates to a chamber for a pressure switch of a fire fighting equipment, and more specifically, to divert the fire water flowing into the chamber in both directions to offset or block the shock pressure of the fire water flowing into the pressure switch, or move the "T" shape to block. It relates to a chamber for a pressure switch of a fire fighting equipment equipped with a shock-proof connection with a perforated furnace.

In general, buildings, etc. are equipped with fire extinguishing facilities that can extinguish in the event of a fire, and such extinguishing facilities pump fire extinguishing water in response to the start of a pressure switch to ensure the discharge pressure and discharge amount of the extinguishing water necessary for extinguishing the fire of the extinguishing object A main pump is provided, a standby pump having a performance equal to or higher than the main pump in case of emergency, and a pressure-pressure pump to supplement pressure due to leakage in the pipe.

In addition, in the event of a fire, there are a pressure chamber, a pressure switch for starting, a digital pressure switch, etc., as a hydraulic switch that detects pressure fluctuations in the piping of a fire extinguishing facility and automatically starts or stops a pump.

Here, the conventional digital electronic pressure switch excludes the use of a pressure chamber having a large volume capacity, and is installed in a structure directly connected to the piping of the fire extinguishing facility, resulting in the operation of the head or the opening of the hydrant valve during fire or inspection. By detecting the pressure change in the piping with a sensor, the pump can be started with an electronic signal or recorded directly on the pressure switch pressure display so that the operating status of the fire extinguishing system can be constantly checked by engineers and managers, and the pressure value can be finely adjusted. It has the advantage of being able to.

On the other hand, according to the installation regulations of the firefighting equipment, the pressure sensing pipe, which is a part of the device for controlling the automatic start and stop of the pump, is drawn out from the intermediate pipe between the check valve and the isolation valve installed at the outlet of the pump, and then connected to the pressure switch. In the case of fire extinguishing equipment employing the above-mentioned electronic pressure switch, in order to reliably remove the effect of water hammer or surging, which may occur during sudden start and stop of the pump. If there is a possibility of malfunction of the electronic pressure switch and damage to the pump due to pressure fluctuations in the fire extinguishing water, it is recommended to install an air chamber or a damper to relieve pressure fluctuations in the pressure sensing pipe.

As a technical document for such a conventional pressure switch chamber, a domestic public utility model No. 20-2018-0001470 has been disclosed.

At this time, the conventional pressure switch chamber, as shown in Fig. 1, has a curved siphon tube therein to solve the water hammer or surging phenomenon that occurs at the time of sudden start-up and on-time inside the chamber, and to the inside of the chamber. It was a technical configuration to minimize the water hammer or surging phenomenon by separating the positions of the inlet pipe and the siphon pipe through which water flows by a predetermined distance.

However, the conventional pressure switch chamber does not directly block the pressure of the water flowing through the inlet pipe, and the water filled in the chamber is irregularly shaken to prevent smooth operation or to prevent a predetermined hydraulic power from being offset. There was a problem in that the pressure switch was introduced into the siphon tube to cause a failure.

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to provide a shock-proof connection in which a “T”-shaped movement path is perforated so that fire water flowing into the chamber branches in both directions. To prevent or prevent the failure of the pressure switch by offsetting or blocking the shock pressure of the firefighters entering the pressure switch, and forming a tool groove on the bottom surface of the shockproof body to conveniently disengage or tighten during maintenance and cleaning. It is to provide a chamber for a pressure switch of a fire fighting facility capable of smoothly moving the flow of fire water by forming a divergent protrusion at an upper end of the inflow groove and forming an inclined inflow path inclined at a predetermined angle.

The chamber for a pressure switch of a fire fighting equipment according to the present invention for achieving the above object is a chamber for a pressure switch connected to a pressure switch used for a fire fighting equipment to minimize water hammer and surging, and a cylindrical chamber body having a space therein. , An upper connecting pipe provided on an upper portion of the chamber body and fastened to a lower end of the connecting pipe connected to the pressure switch, an upper connecting screw formed on an inner circumferential surface of the upper connecting pipe, and provided at a lower portion of the chamber body and flowing fire water A lower connection pipe connected to an upper portion of the fire pipe, and a main body portion formed of a lower connection screw formed on an inner peripheral surface of the lower connection pipe; A cylindrical shock-prevention body fastened inside the lower connection pipe, a fire-fighting water inflow groove recessed at a predetermined height on the lower surface of the shock-prevention body, and a fire-fighting water formed in an upper portion of the fire-fighting water inflow groove It characterized in that it consists of a deceleration inlet passage perforated in both directions so that the flow rate of the deceleration, and an impact-preventing connection portion made of an impact-prevention screw formed to be screwed into the lower connection tube on the outer circumferential surface of the impact-prevention body.

The lower surface of the impact preventing body is characterized in that a tool groove is formed in which the tool is fitted to detach or fasten the impact preventing connection portion inside the lower connection pipe.

The upper end of the fire water inlet groove is characterized in that the triangular projection protruding in a downward direction is formed so that the fire water flowing into the fire water inlet groove branches to both sides.

The deceleration inflow path is characterized in that an inclined inflow path inclined at a predetermined angle so that the firefighting water flowing into the fire water inflow groove branches more smoothly.

The outer circumferential surface of the impact preventing body is characterized in that a ring-shaped sealing ring is provided to prevent leakage of the fire water flowing from the fire pipe.

Thus, the effect of the pressure switch chamber for fire fighting equipment according to the present invention is as follows.

First, by providing a shock-proof connection with a “T” shaped perforation path that allows the fire water flowing into the lower part of the chamber to branch in both directions, by offsetting or blocking the shock pressure of the fire water flowing into the pressure switch, Failure can be prevented beforehand,

Second, by forming a tool groove into which a tool is inserted into the lower surface of the impact-prevention body, the impact-prevention body can be easily fastened or detached during maintenance and cleaning of the impact-prevention body,

Third, by forming a triangular divergent projection protruding downward in the upper portion of the fire water inflow groove, it is possible to smoothly diverge the firefighters moving vertically in both directions, resulting in the impact of the firefighters colliding in the impact prevention body. Can be prevented beforehand,

Fourth, it is possible to smoothly diverge the flow of the fire-fighting water flowing into the fire-fighting water inflow groove by forming the deceleration flow-path into an inclined flow path inclined at a predetermined angle.

1 is a front sectional view showing a conventional pressure switch chamber,
Figure 2 is a front sectional view showing a pressure switch chamber for the present invention,
3 is an exploded perspective view showing a pressure switch chamber for the present invention,
Figure 4 is a perspective view showing the lower surface of the impact-resistant connection to the present invention,
5 is another embodiment of the present invention (a) is a front sectional view showing a branch projection, (b) is a front sectional view showing a slope inflow path,
6 is a partially enlarged cross-sectional view showing the sealing ring of the present invention.

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

The pressure switch chamber for the fire fighting equipment according to the present invention is connected to the pressure switch (S) used in the fire fighting equipment as shown in FIGS. 2 to 3, and the pressure switch chamber 1 minimizes water hammer and surging. A cylindrical chamber body 11 with a space formed thereon, and an upper connection pipe 12 provided on an upper portion of the chamber body 11 and fastened to a lower end of a connection pipe P connected to the pressure switch S, The upper connecting screw 13 formed on the inner circumferential surface of the upper connecting tube 12 and the lower connecting tube 14 provided at the lower part of the chamber body 11 and connected to the upper part of the fire fighting pipe P1 through which the fire water W flows 14 ), the main body portion 10 made of a lower connection screw 15 formed on the inner circumferential surface of the lower connection pipe 14; A cylindrical impact preventing body 21 fastened inside the lower connection pipe 14, a fire-fighting water inflow groove 22 recessed at a predetermined height on the lower surface of the impact-resistant body 21, and the fire-fighting water inflow groove ( It is formed on the upper end of the 22) and the deceleration inflow path 23 drilled in both directions so that the flow rate of the fire water W flowing into the fire water inflow groove 22 is decelerated, and the outer circumferential surface of the impact prevention body 21 It consists of an impact-preventing connection portion 20 made of an impact-preventing screw 24 formed to be screwed into the lower connection pipe 15.

On the other hand, the chamber body 11 is manufactured by sealing the hemispherical body divided into two upper and lower sides by welding with each other, and the upper connecting pipe 12 and the lower connecting pipe 14 are of the chamber body 11 It is preferable to be embedded in the upper and lower surfaces or attached by welding.

And, the lower surface of the impact preventing body 21, as shown in Figure 4, the tool is fitted with a tool (D) to release or fasten the impact preventing connecting portion 20 inside the lower connection pipe 14 Grooves 25 are formed.

On the other hand, the tool groove 25 is preferably formed in any one of the shape of a groove on which a conventional tool such as a straight or cross, star, hexagon, that is, a driver or a wrench can be seated.

In addition, at the upper end of the fire water inlet groove 22, as shown in Figure 5 (a), the fire-fighting water (W) flowing into the fire water inlet groove (22) protrudes downward in a triangular branch projection (26) Is formed.

In addition, the deceleration inflow path 23 is formed with an inclined inflow path 27 inclined at a predetermined angle so that the firefighting water W flowing into the firefighting water inflow groove 22 branches more smoothly as shown in FIG. 5(b). do.

In addition, a ring-shaped sealing ring 28 is provided on the outer circumferential surface of the impact preventing body 21 to prevent leakage of fire water W flowing from the fire pipe P1.

On the other hand, a seating groove (not shown) in which the sealing ring 28 is seated is preferably formed on the outer circumferential surface of the impact preventing body 21 and the inner circumferential surface of the lower connection pipe 14.

Looking at the operation of the chamber for the fire fighting equipment pressure switch according to the present invention having the above configuration is as follows.

The pressure switch chamber for a fire fighting facility according to the present invention is a pressure switch chamber 1 connected to a pressure switch S used in a fire fighting facility as shown in FIGS. 2 to 3 to minimize water hammer and surging.

That is, the cylindrical body part 10 having a space formed therein to be connected between the lower portion of the pressure switch S and the fire pipe P1 to mitigate the water hammer and surging phenomena generated in the fire pipe P1. ), the internal pressure of the body portion 10, that is, the fire pipe P1 is increased from the area by increasing the shock pressure generated when the firefighter W first moves or stops in the fire pipe P1. By reducing the impact pressure through the internal space of the body 11, it is possible to prevent the pressure switch S from failing through the impact pressure.

At this time, the lower portion of the main body portion 10, that is, the inside of the lower connection pipe 14, the deceleration drilled in both directions from the upper end portion of the fire-fighting water inflow groove 22 in the vertical direction so that the incoming fire water (W) branches in both directions. By forming the inflow path 23, when the fire water (W) flows into the main body 10, it does not flow directly, but is blocked by the deceleration flow path (23) and then flows in both directions. It is possible to cancel the impact pressure generated in the.

Through this, it is possible to prevent the failure of the pressure switch S in advance by blocking the inflow of the shock pressure of the firefighter W into the interior of the pressure switch S.

On the other hand, by forming an impact preventing screw 24 formed to be screwed with the lower connecting pipe 15 on the outer circumferential surface of the impact preventing body 21, the impact preventing body 21 into the interior of the lower connecting pipe 15 ).

At this time, as shown in Figure 4, the lower surface of the impact-prevention body 21 is a tool in which the tool D is fitted to detach or fasten the impact-prevention connection portion 20 inside the lower connection pipe 14 Since the groove 25 is formed, the tool D can be conveniently rotated after being inserted into the tool groove 25, so that the shock-preventing body 21 is maintained when the shock-preventing body 21 is cleaned and cleaned. It can be easily fastened or detached.

On the other hand, the upper end of the fire water inlet groove 22, as shown in Figure 5 (a), the fire-fighting water (W) flowing into the fire water inlet groove (22) protrudes downward in a triangular protruding projection (26) By being formed, it is possible to smoothly diverge the vertically moved firefighters (W) in both directions, it is possible to prevent the shock caused by the firefighters (W) colliding inside the impact preventing body 21 in advance. There will be.

Here, as another embodiment, the deceleration inflow path 23 is an inclined flow path inclined at a predetermined angle so that the firefighting water W flowing into the firefighting water inflow groove 22 flows more smoothly as shown in FIG. 5(b). By consisting of (27), it is possible to smoothly diverge the vertically moved firefighters (W) in both directions.

In addition, the outer circumferential surface of the impact preventing body 21 is provided with a ring-shaped sealing ring 28 as shown in FIG. 6, so that it is possible to prevent the firefighting water W flowing from the fire pipe P1 from leaking. do.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be implemented by anyone who has ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, such changes are within the scope of the claims.

<Description of major parts of drawings>
S: Pressure switch P: Connection piping
P1: Fire piping W: Fire piping
DESCRIPTION OF SYMBOLS 1 Chamber 10 Body part
11: Chamber body 12: Upper connection pipe
13: upper connecting screw 14: lower connecting pipe
15: lower connection screw 20: shock-proof connection
21: impact prevention body 22: fire water inflow home
23: Deceleration inflow path 24: Impact prevention screw
25: tool groove 26: branch projection
27: Inclined flow path 28: Sealing ring

Claims (5)

In the pressure switch chamber (1) connected to the pressure switch (S) used in firefighting equipment to minimize water hammer and surging phenomena,
A cylindrical chamber body 11 having a space formed therein, and an upper connection pipe 12 provided on the upper portion of the chamber body 11 and fastened to the lower end of the connection pipe P connected to the pressure switch S , The upper connection screw 13 formed on the inner circumferential surface of the upper connection pipe 12 and the lower connection pipe provided at the lower portion of the chamber body 11 and connected to the upper portion of the fire fighting pipe P1 through which the fire water W flows ( 14) and a main body portion (10) consisting of a lower connecting screw (15) formed on an inner circumferential surface of the lower connecting pipe (14);
A cylindrical impact preventing body 21 fastened inside the lower connection pipe 14, a fire-fighting water inflow groove 22 recessed at a predetermined height on the lower surface of the impact-resistant body 21, and the fire-fighting water inflow groove ( It is formed on the upper end of 22) and is formed on the outer circumferential surface of the deceleration inflow path (23) and perforated in both directions so that the flow rate of the fire water (W) flowing into the fire water inflow groove (22) is slowed Chamber for pressure switch of fire fighting equipment, characterized in that it consists of a shock-proof connection (20) made of a shock-proof screw (24). According to claim 1,
The lower surface of the impact preventing body 21 is characterized in that a tool groove 25 into which the tool D is fitted to detach or fasten the impact preventing connecting portion 20 is formed inside the lower connection pipe 14. Pressure switch chamber for fire fighting equipment. According to claim 1,
The upper end of the fire water inlet groove (22) is a fire-fighting equipment pressure, characterized in that a triangular projection (26) protruding downwardly is formed so that the fire water (W) flowing into the fire water inlet groove (22) is branched to both sides Switch chamber. According to claim 1,
The deceleration inflow passage (23) is a fire fighting equipment pressure switch chamber, characterized in that formed by an inclined inflow passage (27) inclined at a predetermined angle to smoothly diverge the fire water (W) flowing into the fire inlet groove (22). . According to claim 1,
The outer circumferential surface of the impact preventing body 21 is provided with a ring-shaped sealing ring 28 so that the leakage of the fire water (W) flowing from the fire pipe (P1) is prevented from leaking. .

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