KR102157086B1 - Check valve - Google Patents

Abstract

The check valve according to the present invention comprises a valve housing comprising a cylindrical bottle-shaped inlet structure and an outlet structure, and having a fluid guide plate around the inlet structure along an inner diameter direction in the outlet structure; In the outlet structure, a fluid flow interception member including a key structure and a stopper structure formed in a tack shape, penetrating the fluid guide plate, and elastically supported by the fluid guide plate; A crimping tube and a crimping pad ring for protruding the closure structure while being inserted through the key structure to surround the closure structure; A guide tube inserted into the outlet structure and accommodating the closure structure around the compression pad ring; And a plug tube inserted into the guide tube to contact the plug structure, and inserted into the expansion/contraction tube around the guide tube.

Description

Check valve {CHECK VALVE}

The present invention relates to a check valve that connects a branch pipe connected to a fire sprinkler head separated from the branch pipe in a separate floor of the building, branched from the horizontal main pipe and connected to the horizontal main pipe, in order to implement the fire fighting piping system of the building. .

In general, a building includes a fire fighting piping system including a standing pipe and a transverse pipe sequentially connected to a water source, and a fire sprinkler head. The standing pipe is located along the wall of the building, and the transverse column and the fire sprinkler head are located on the ceiling on separate floors of the building.

Here, the transverse main pipe is located between the roof (or the upper floor of a two-story apartment house) and the ceiling in a building, and the fire sprinkler head is connected to the transverse main pipe and penetrates the ceiling to be exposed indoors. Accordingly, when a fire occurs in the building, the fire fighting piping system extinguishes the fire by using the fire-fighting water starting from the water source in the building and passing through the standing pipe, the horizontal pipe, and the fire sprinkler head.

On the other hand, the fire fighting piping system was disclosed as a prior art in the name of the invention in Korean Patent Laid-Open Publication No. 10-2003-0050318, “Nipple height adjustment device for fire fighting piping.” The control device includes a roof and a tex of a building. ), the flexible joint is positioned between, and the elbow-type nipple is connected to the flexible joint, and the sprinkler head is connected to the nipple after exposing the nipple to the ceiling.

After implementing the fire fighting piping system through the control device, the fire fighting piping system must be inspected by a test operation. However, when the control device malfunctions due to the operator's careless handling, the operator closes the main valve responsible for the flow of fire water in the corresponding floor of the building, and then discharges the fire water through the flexible joint and the nipple starting from the horizontal pipe. Should be done.

In addition, after resolving the cause of malfunction of the control device, the worker must open the main valve on the corresponding floor of the building and supply fire water from the standing pipe to the flexible joint and nipple starting from the horizontal column. Accordingly, discharging fire fighting water from the control device or supplying fire fighting water to the control device wastes a lot of fire fighting water, and requires a lot of work for maintenance and repair of the control device.

Korean Patent Application Publication No. 10-2003-0050318

The present invention is conceived to solve the conventional problem, for maintenance and repair of the fire fighting piping system of a building, in a separate floor of the building, branch pipes branched from the horizontal main pipe and connected to the horizontal main pipe, and the fire fighting separated from the branch pipe It is an object of the present invention to provide a check valve suitable for reducing waste of fire water and minimizing work man-hours when replacing components between new piping connected to the sprinkler head.

The check valve according to the present invention includes a cylindrical bottle-shaped inlet structure on an individual floor of a building to connect a branch pipe branched from the horizontal main pipe and connected to the horizontal main pipe, and a new pipe separated from the branch pipe and connected to the fire sprinkler head. A valve housing made of an outlet structure, inserted into the branch pipe at the inlet structure, and having a fluid guide plate around the inlet structure along an inner diameter direction in the outlet structure; In the outlet structure, a key structure that is formed in a tack shape, penetrates the fluid guide plate, is elastically supported by the fluid guide plate, and is sequentially positioned in a direction away from the inlet structure starting from the fluid guide plate; A fluid flow interruption member including a closure structure; A compression tube and a compression pad ring that are fitted through the key structure to surround the closure structure and protrude the closure structure; A guide tube inserted into the outlet structure to receive the stopper structure around the compression pad ring and protruding from the outlet structure to cover an end of the outlet structure; And a plug tube inserted into the guide tube and in contact with the closure structure, protruding from the guide tube by pushing the closure structure while moving along the guide tube, and inserted into the expansion/contraction tube around the guide tube. have.

The valve housing includes the inlet structure and the outlet structure corresponding to the bottle neck and the outlet structure to the bottle body in the cylindrical bottle shape, and defining a fluid inlet in the inlet structure and a fluid outlet in the outlet structure. The fluid inlet and the fluid outlet may be communicated through the structure.

The inlet structure and the outlet structure have an inner circumferential surface of the same inner diameter in the inlet structure, and have an inner circumferential surface made of a plurality of inner diameters in the outlet structure, and are smaller in the inner diameter of the inlet structure than in individual inner diameters of the outlet structure. It can have a size.

The inlet structure has a male thread on an outer circumferential surface, the outlet structure has a female thread on an inner circumferential surface around the end, and the male thread of the inlet structure may be helically coupled with a female thread of the branch pipe.

The fluid guide plate defines a through hole in a central region and a plurality of fluid inlet holes in a peripheral region, protrudes toward the fluid outlet of the outlet structure around the through hole, and inflows the plurality of fluids around the through hole. It can have holes radially.

The key structure and the stopper structure correspond to the key structure to the tack pin portion and the stopper structure to the tack head in the tack shape, and are formed integrally with each other to gradually thinner toward the key structure from the stopper structure. I can lose.

The check valve further includes a spring surrounding the key structure, wherein the key structure includes: an access rod inserted into a through hole in a central region of the fluid guide plate; And a movement preventing rod integrally formed with the access rod and the stopper structure between the access rod and the stopper structure, wherein the spring is supported by the stopper structure and the fluid guide plate between the stopper structure and the fluid guide plate. And surrounds the access rod and the movement blocking rod, and an outer diameter of the access rod may be smaller than an outer diameter of the movement blocking rod.

The stopper structure has a three-stage disc integrally formed with each other while gradually increasing a diameter from the key structure toward the guide tube, and the key structure is removed from a disc having the smallest size among the three-stage discs. Has a movement preventing fence surrounding the key structure by protruding toward, and compressing or relaxing the spring with respect to the fluid guide plate by inserting a spring surrounding the key structure into the movement preventing fence, and the smallest disk May have male threads on the outer sidewall.

The crimping tube is a compression body that surrounds the smallest disk and the intermediate disk in the three-stage disk, and defines a fastening hole around the smallest disk and a receiving hole around the intermediate disk And, the compression body has a female thread on an inner circumferential surface defining the fastening hole, and the female thread in the compression body may be helically coupled with the male thread in the smallest disk.

The crimping pad ring is located in the receiving hole of the crimping tube and covered by the crimping tube, defining a pad ring hole surrounding the medium-sized disk of the crimping tube, and defining the receiving hole of the crimping tube. It may have a padding body to be filled.

The guide pipe surrounds the closure structure and the plug tube in the outlet structure, guides the movement of the closure structure and the plug tube, and defines a connection hole around the closure structure and a guide hole around the plug tube. Having a straight body, and having a bracket extending from the straight body toward the side of the straight body from the outside of the outlet structure to contact the end of the outlet structure, and the guide hole in the immediate vicinity of the connection hole of the straight body A female thread on the inner circumferential surface defining the, and a male thread on the outer circumferential surface defining the straight body near the bracket, the male thread of the straight body may be helically coupled with the female thread of the outlet structure.

The check valve further includes a leak prevention ring between the end of the outlet structure and the bracket of the guide tube, and the leak prevention ring is fitted to the end of the outlet structure, so that the end of the outlet structure and the guide tube It may have a prevention ring body in close contact with the bracket of the guide tube, defining a prevention ring hole surrounding the straight body of the guide tube, and positioned along the edge of the fluid outlet of the outlet structure.

The plug tube has a plug body inserted into the guide tube and a stopper formed along the outer circumferential surface of the plug body from the outside of the guide tube, and fluid along the length direction of the plug body from the inner circumferential surface of the plug body It may have a leakage preventing ring located in the isolated groove by defining an outflow hole and defining an isolation groove on an outer circumferential surface of the plug body, and a plurality of fluid suction holes penetrating the plug body near the closure structure.

The plug body communicates the fluid outflow hole and the individual fluid intake hole with each other, and the plurality of fluid intake holes in the plug body, through the movement of the plug tube in the guide tube, of the plug tube from the guide tube. When protruding, it is exposed to the outlet structure, and when the plug tube is depressed from the guide tube, it may be surrounded by the guide tube.

The front end of the plug body may have a male thread around the plurality of fluid suction holes, and the male thread of the plug body may be helically coupled with a female thread of the guide tube.

The stopper may contact the guide tube when the plug tube moves from the guide tube to adjust a protruding distance of the plug body from the guide tube.

The outer circumferential surface of the stopper may have a male thread, and the male thread of the stopper may be helically coupled with a female thread of the telescopic pipe.

When the plug body of the plug tube is inserted into the straight body of the guide tube, the leakage preventing ring may be positioned between the straight body and the plug body to intimate contact with the straight body and the plug body.

In the present invention, for maintenance and repair of the fire fighting piping system of the building, a check valve is positioned between a branch pipe connected to a horizontal main pipe and a new pipe connected to a fire sprinkler head on an individual floor of the building, and the inside of the valve housing of the check valve Has a fluid flow interception member penetrating through the fluid guide plate in, and a spring is positioned between the fluid guide plate and the fluid flow interception member, and compression or relaxation of the spring using the fluid flow interception member when the plug pipe moves inside the valve housing Since the opening and closing of the plug pipe is elastically controlled through the plug pipe, the waste of fire water can be reduced for replacement of the plug pipe or the expansion pipe or the fire sprinkler head.

In the present invention, for maintenance and repair of the fire fighting piping system of a building, a check valve is positioned between a branch pipe connected to a transverse main pipe and a new pipe connected to a fire sprinkler head on an individual floor of the building, but opening and closing of the plug pipe at the check valve For the purpose of this, a fluid guide plate, a fluid flow interceptor, and a plug tube are used inside the valve housing, and only the plug tube is separated from the valve housing for replacement of at least one of the plug tube and the expansion tube and the fire sprinkler head By reducing the repetitive work for separating and combining components, it is possible to minimize the operator's work time.

1 is a cross-sectional view showing a check valve according to the present invention.
2 is a side view and a rear view showing a valve housing in the check valve of FIG. 1.
3 is a cross-sectional view illustrating a valve housing in the check valve of FIG. 2.
4 is a perspective view showing a fluid flow interrupting member in the check valve of FIG. 1.
5 is a cross-sectional view and a side view showing a fluid flow interrupting member in the check valve of FIG. 4.
6 is a perspective view showing a crimping pipe in the check valve of FIG. 1.
7 is a cross-sectional view and a side view showing a crimping pipe in the check valve of FIG. 6.
8 is a cross-sectional view and a side view showing a compression pad ring in the check valve of FIG. 1.
9 is a perspective view illustrating a plug tube in the check valve of FIG. 1.
10 is a cross-sectional view and a side view illustrating a plug tube in the check valve of FIG. 9.
11 is a cross-sectional view and a side view showing a guide tube in the check valve of FIG. 1.
12 is a cross-sectional view and a side view showing a leakage preventing ring in the check valve of FIG. 1.
13 is a schematic diagram illustrating a method of driving the check valve of FIG. 1.

For a detailed description of the present invention to be described later, reference is made to the accompanying drawings, which illustrate specific embodiments in which the present invention may be practiced. These embodiments are described in detail sufficient to enable a person skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims. In the drawings, similar reference numerals refer to the same or similar functions over several aspects, and the length, area, thickness, and the like may be exaggerated and expressed for convenience.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to enable those skilled in the art to easily implement the present invention.

1 is a cross-sectional view showing a check valve according to the present invention, FIG. 2 is a side view and a rear view showing a valve housing in the check valve of FIG. 1, and FIG. 3 is a cross-sectional view showing the valve housing in the check valve of FIG. 2.

4 is a perspective view showing a fluid flow interrupting member in the check valve of FIG. 1, FIG. 5 is a cross-sectional view and a side view showing a fluid flow interrupting member in the check valve of FIG. 4, and FIG. 6 is a crimping pipe in the check valve of FIG. It is a perspective view showing.

7 is a cross-sectional view and a side view showing a compression pipe in the check valve of FIG. 6, FIG. 8 is a cross-sectional view and a side view showing a compression pad ring in the check valve of FIG. 1, and FIG. 9 is a plug pipe in the check valve of FIG. It is a perspective view.

10 is a cross-sectional view and a side view showing a plug tube in the check valve of FIG. 9, FIG. 11 is a cross-sectional view and a side view showing a guide tube in the check valve of FIG. 1, and FIG. 12 is a view showing a leakage preventing ring in the check valve of FIG. It is a cross-sectional view and a side view.

1 to 12, the check valve 210 according to the present invention, in a separate floor of the building, branch pipes (T1 in FIG. 13) branched from the transverse main pipe (not shown in the drawing) and connected to the transverse main pipe, and branches It is configured to connect a new pipe (T2 in FIG. 13) separated from the pipe T1 and connected to the fire sprinkler head (not shown in the drawing).

In more detail, the check valve 210, as shown in Figure 1, the valve housing 40, the fluid flow interception member 90, the compression tube 110, the compression pad ring 130, and the plug It includes a tube 150 and a guide tube 170. The valve housing 40 is composed of a cylindrical bottle-shaped inlet structure 30 and an outlet structure 10 in FIG. 1 or 3.

The valve housing 40 is inserted into the branch pipe T1 from the inlet structure 30 as shown in FIG. 13, and the fluid guide plate 8 around the inlet structure 30 along the inner diameter direction in the outlet structure 10 Has as shown in FIG. 3. The valve housing 40 corresponds to the inlet structure 30 to the bottle neck and the outlet structure 10 to the bottle body in the shape of a cylindrical bottle. Here, the valve housing 40 has a gripping groove 9 for gripping an external working tool (not shown in the drawing).

In addition, the valve housing 40, in Fig. 3, defining a fluid inlet 25 at the inlet structure 30 and a fluid outlet 2 at the outlet structure 10, while defining the inlet structure 30 and the outlet structure ( The fluid inlet 25 and the fluid outlet 2 are communicated through 10). The inlet structure 30 and the outlet structure 10 have inner circumferential surfaces of the same inner diameter in the inlet structure 30 and have inner circumferential surfaces made of a plurality of inner diameters in the outlet structure 10.

Further, the inlet structure 30 and the outlet structure 10 have a smaller size in the inner diameter of the inlet structure 30 than in the individual inner diameters of the outlet structure 10 in FIG. 3. The inlet structure 30 has a male thread S2 on its outer circumferential surface. The outlet structure 10 has a female thread S1 on an inner circumferential surface around the end.

The male thread S2 of the inlet structure 30 is helically coupled to the female thread (not shown in the drawing) of the branch pipe T1. The fluid guide plate 8, in FIGS. 2 and 3, defines a through hole 4 in a central region and a plurality of fluid inlet holes 6 in a peripheral region, and an outlet structure around the through hole 4 ( It rises toward the fluid outlet 2 of 10), and has a plurality of fluid inlet holes 6 radially around the through hole 4.

The fluid flow interruption member 90 is formed in a tack shape in the outlet structure 10 when considering FIGS. 1 and 3 and 4 and penetrates the fluid guide plate 8, and the fluid guide plate 8 It includes a key structure 80 and a closure structure 60 that are elastically supported against and are sequentially positioned in a direction away from the inlet structure 30 starting from the fluid guide plate 8. The fluid flow interruption member 90 has a gripping groove 76 for gripping an external work tool.

The key structure 80 and the stopper structure 60, in FIG. 4, correspond to the key structure 80 to the tack pin portion and the stopper structure 60 to the tack head in the shape of a tack, and are integrated with each other. Is formed and gradually tapers away from the closure structure 60 toward the key structure 80.

Here, the check valve 210 further includes a spring (S) surrounding the key structure 80, as shown in FIG. 1. The key structure 80, in FIG. 4, includes an entry rod 73 and a movement preventing rod 79. The access rod 73 is inserted into the through hole 4 in the central region of the fluid guide plate 8 when considering FIGS. 1 and 3 and FIGS. 4 and 5.

The movement blocking rod 79 is integrally formed with the entrance rod 73 and the stopper structure 60 between the entrance rod 73 and the stopper structure 60 in FIGS. 4 and 5. 1 and 4, the spring S is supported by the stopper structure 60 and the fluid guide plate 8 between the stopper structure 60 and the fluid guide plate 8, and the access rod 73 ) And the movement blocking rod (79). The outer diameter of the access rod 73 is smaller than the outer diameter of the movement blocking rod 79.

The closure structure 60, when considering FIGS. 1 and 4, has a three-stage disc integrally formed with each other while gradually increasing the diameter from the key structure 80 toward the guide tube 170 , Has a movement preventing fence 55 surrounding the key structure 80 by rising toward the key structure 80 from the smallest size of the three-stage disc, and the key structure 80 in the movement preventing fence 55 The spring (S) surrounding the is inserted to compress or relax the spring (S) with respect to the fluid guide plate (8).

The smallest disk has a male thread (S3) on the outer side wall in FIG. 5. The crimping pipe 110 and the crimping pad ring 130 are fitted through the key structure 80 to surround the closure structure 60 while enclosing the closure structure 60 when considering FIGS. 1 and 6 to 8. Protrude. That is, the crimping tube 110 surrounds the smallest disk and the medium disk in the three-stage disk. Here, the crimping pipe 110 has a gripping groove 106 for gripping an external work tool.

In more detail, the crimping pipe 110 is accommodated around a fastening hole 102 and a medium-sized disk around the smallest disk in consideration of FIGS. 1 and 4 and 5 and 7 It has a crimping body 108 defining the hole 104, and has a female thread S4 on the inner circumferential surface defining the fastening hole 102 in the crimping body 108. In the compression body 108, the female thread S4 is helically coupled with the male thread S3 in the smallest disk.

The crimping pad ring 130 is located in the receiving hole 104 of the crimping tube 110 and covered by the crimping tube 110 when considering FIGS. 1 and 4 and 5 and 7 and 8 It has a pad ring body 128 that defines a pad ring hole 124 surrounding the medium-sized disk of the compression tube 110 and fills the receiving hole 104 of the compression tube 110.

The guide tube 170, when considering FIGS. 1 and 4 and 5 and 11, is inserted into the outlet structure 10 to accommodate the stopper structure 60 around the compression pad ring 130, and the outlet structure It protrudes from (10) and covers the end of the outlet structure (10). The guide tube 170 surrounds the plug structure 60 and the plug tube 150 in the outlet structure 10 and guides the movement of the plug structure 60 and the plug tube 150.

In more detail, when considering FIGS. 1 and 4 and FIGS. 5 and 11, the guide pipe 170 is, a connection hole 161 around the plug structure 60 and a plug pipe 150. It has a straight body 167 defining a guide hole 163, and extends from the straight body 167 to the side of the straight body 167 from the outside of the outlet structure 10 to contact the end of the outlet structure 10 It has a bracket (169).

The guide tube 170 is, in FIG. 11, a female thread (S7) on the inner circumferential surface defining the guide hole 163 in the immediate vicinity of the connection hole 161 of the straight body 167, and the straight in the vicinity of the bracket 169 It has a male thread (S8) on the outer circumferential surface defining the body (167). The male thread S8 of the straight body 167 is helically coupled with the female thread S1 of the outlet structure 10 when considering FIGS. 1 and 11.

Here, the check valve 210 further includes a leakage preventing ring 190 between the end of the outlet structure 10 and the bracket 169 of the guide tube 170. The leakage prevention ring 190 is fitted to the end of the outlet structure 10 when considering FIGS. 1 and 3 and FIGS. 11 and 12, and the end of the outlet structure 10 and the bracket of the guide tube 170 ( Preventing in close contact with 169, defining a prevention ring hole 184 surrounding the straight body 167 of the guide tube 170, and being located along the edge of the fluid outlet 2 of the outlet structure 10 It has a ring body 188.

Meanwhile, the plug tube 150 is inserted into the guide tube 170 to contact the plug structure 160 when considering FIGS. 1 and 4 and 9 and 11, and along the guide tube 170 While moving, the plug structure 160 is pushed to protrude from the guide pipe 170 and is inserted into the expansion/contraction pipe T2 around the guide pipe 170. The plug tube 150 is, when considering FIGS. 1 and 10 and 11, the plug body 147 inserted into the guide tube 170 and the plug body 147 from the outside of the guide tube 170 It has a stopper 149 formed along the outer peripheral surface of.

Here, the plug tube 150 has a gripping groove 148 for gripping an external work tool. The plug tube 150 defines a fluid outflow hole 141 along the length direction of the plug body 147 on the inner circumferential surface of the plug body 147 when considering FIGS. 1 and 4 and 10, and A plurality of fluids penetrating the plug body 147 near the plug structure 60, having a leak prevention ring 200 located in the isolated groove 143 by defining the isolation groove 143 on the outer circumferential surface of the body 147 It has a suction hole (145).

The plug body 147, in FIG. 9 or 10, communicates the fluid outlet hole 141 and the individual fluid suction hole 145 with each other. The plurality of fluid suction holes 145 in the plug body 147 are, in consideration of FIGS. 1 and 10 and 11, through the movement of the plug tube 150 in the guide tube 170, the guide tube 170 When the plug tube 150 protrudes from ), it is exposed to the outlet structure 10 and is surrounded by the guide tube 170 when the plug tube 150 is depressed from the guide tube 170.

The front end of the plug body 147 has male threads S5 around the plurality of fluid suction holes 145 as shown in FIG. 10. The male thread S5 of the plug body 147 is helically coupled with the female thread S7 of the guide tube 170 when considering FIGS. 1 and 10 and 11. The stopper 149 contacts the guide tube 170 when the plug tube 150 moves from the guide tube 170 to adjust the protruding distance of the plug body 147 from the guide tube 170.

The outer circumferential surface of the stopper 149, in FIG. 10, has a male thread S6. The male thread S6 of the stopper 149 is helically coupled with a female thread (not shown in the drawing) of the expansion pipe T2 in FIGS. 10 and 13. When the plug body 147 of the plug tube 150 is inserted into the straight body 167 of the guide tube 170, the leakage preventing ring 200 is positioned between the straight body 167 and the plug body 147 The straight body 167 and the plug body 147 are in close contact.

13 is a schematic diagram illustrating a method of driving the check valve of FIG. 1.

Referring to FIG. 13, on an individual floor of a building, a check valve 210 may be prepared between the branch pipe T1 connected to the horizontal main pipe and the new pipe T2 connected to the fire sprinkler head. The check valve 210 has been sufficiently described in FIGS. 1 to 12. Therefore, the description of the check valve 210 will be omitted.

Firstly, in the valve housing 40 of the check valve 210, the plug pipe 150 is moved along the first translational movement direction M1 in the guide pipe 170, and the fluid flow interrupting member 90 ) Is pushed by the plug pipe 150 along the second translation direction M2 to be separated from the guide pipe 170, the plug pipe 150 may protrude from the guide pipe 170.

Here, the fluid flow interception member 90 may penetrate the fluid guide plate 8 and protrude from the fluid guide plate 8 toward the inlet structure 30. The fire fighting water of the branch pipe T1 fills the valve housing 40 along the first flow line F1, and forms a plurality of fluid suction holes 145 and a fluid outlet hole 141 in the plug pipe 150. It is introduced into the plug body 147 through the second flow line F2, and may flow from the plug body 147 to the new pipe.

Next, in the valve housing 40 of the check valve 210, the plug pipe 150 is moved along the third translational movement direction M3 in the guide pipe 170, and the fluid flow interrupting member 90 ) Is moved toward the guide tube 170 along the fourth translation direction M4, the plug tube 150 is depressed from the guide tube 170, and the fluid flow interrupting member 90 is a plug tube The guide tube 170 in front of 150 can be blocked.

Here, the fluid flow interception member 90 may be depressed from the fluid guide plate 8 and move toward the guide tube 170. The fire fighting water of the branch pipe T1 cannot flow through the plug pipe 150. The depression of the plug pipe 150 from the guide pipe 170 may be performed when, for example, the plug pipe 150 or the expansion and contraction pipe T2 or the fire sprinkler head is replaced.

8; Fluid guide plate, 40; Valve housing
90; Fluid flow interruption member, 110; Crimp tube
130; Compression padring, 150; Plug tube
170; Guide tube, 190; Leak prevention ring
200; Leakage prevention ring, 210; Check valve
S; spring

Claims (18)

In an individual floor of a building, in a branch pipe branching from the horizontal main pipe and connected to the horizontal main pipe, and a check valve that connects a new pipe connected to the fire sprinkler head separated from the branch pipe,
A valve housing comprising a cylindrical bottle-shaped inlet structure and an outlet structure, inserted into the branch pipe in the inlet structure, and having a fluid guide plate around the inlet structure along an inner diameter direction in the outlet structure;
In the outlet structure, a key structure that is formed in a tack shape, penetrates the fluid guide plate, is elastically supported by the fluid guide plate, and is sequentially positioned in a direction away from the inlet structure starting from the fluid guide plate; A fluid flow interruption member including a closure structure;
A compression tube and a compression pad ring that are fitted through the key structure to surround the closure structure and protrude the closure structure;
A guide tube inserted into the outlet structure to receive the stopper structure around the compression pad ring and protruding from the outlet structure to cover an end of the outlet structure; And
A check valve including a plug pipe inserted into the guide pipe and in contact with the stopper structure, protruding from the guide tube by pushing the stopper structure while moving along the guide tube, and inserted into the elastic pipe around the guide tube .
The method of claim 1,
The valve housing,
Corresponding the inlet structure to the bottle neck and the outlet structure to the bottle body in the cylindrical bottle shape,
A check valve communicating the fluid inlet and the fluid outlet through the inlet structure and the outlet structure while defining a fluid inlet in the inlet structure and a fluid outlet in the outlet structure.
The method of claim 1,
The inlet structure and the outlet structure,
The inlet structure has an inner peripheral surface of the same inner diameter,
In the outlet structure, having an inner circumferential surface made of a plurality of inner diameters,
A check valve having a smaller size in the inner diameter of the inlet structure than in the individual inner diameter of the outlet structure.
The method of claim 1,
The inlet structure has a male thread on the outer circumferential surface,
The outlet structure has a female thread on an inner circumferential surface around the end,
The male thread of the inlet structure is spirally coupled to the female thread of the branch pipe.
The method of claim 1,
The fluid guide plate,
Defining a through hole in the central region and a plurality of fluid inlet holes in the peripheral region,
Protruding toward the fluid outlet of the outlet structure around the through hole,
A check valve having the plurality of fluid inlet holes radially around the through hole.
The method of claim 1,
The key structure and the closure structure,
In the tack shape, the key structure is associated with the tack pin portion and the stopper structure is associated with the tack head,
Check valves formed integrally with each other and gradually tapering from the closure structure toward the key structure.
The method of claim 1,
Further comprising a spring surrounding the key structure,
The key structure,
An access rod inserted into a through hole in a central region of the fluid guide plate;
It includes a movement blocking rod integrally formed with the entrance rod and the stopper structure between the access rod and the stopper structure,
The spring is supported by the stopper structure and the fluid guide plate between the stopper structure and the fluid guide plate and surrounds the access bar and the movement preventing bar,
The check valve having an outer diameter of the entry rod is smaller than an outer diameter of the movement blocking rod.
The method of claim 1,
The closure structure,
Having a three-stage disc integrally formed with each other while gradually increasing a diameter from the key structure toward the guide tube,
It has a movement preventing fence surrounding the key structure by rising toward the key structure from the smallest size of the three-stage disc,
Compress or relax the spring with respect to the fluid guide plate by inserting a spring surrounding the key structure in the movement preventing fence,
The smallest disk is a check valve having a male thread on the outer side wall.
The method of claim 8,
The crimping tube,
Surrounding the smallest disk and the medium disk in the three-stage disk,
Having a compression body defining a fastening hole around the smallest disk and a receiving hole around the medium disk,
The compression body has a female thread on the inner circumferential surface defining the fastening hole,
In the compression body, the female thread is a check valve that is helically coupled with the male thread on the disk having the smallest size.
The method of claim 9,
The compression pad ring,
It is located in the receiving hole of the crimping tube and covered by the crimping tube,
A check valve having a pad ring body that defines a pad ring hole surrounding the medium-sized disk of the compression tube and fills the receiving hole of the compression tube.
The method of claim 1,
The guide tube,
In the outlet structure, surrounding the plug structure and the plug tube to guide the movement of the plug structure and the plug tube,
Having a straight body defining a connection hole around the plug structure and a guide hole around the plug tube,
It has a bracket extending from the straight body toward the side of the straight body from the outside of the outlet structure to contact the end of the outlet structure,
Having a female thread on an inner circumferential surface defining the guide hole near the connection hole of the straight body, and a male thread on an outer circumferential surface defining the straight body near the bracket,
A check valve in which the male thread of the straight body is helically coupled to the female thread of the outlet structure.
The method of claim 11,
Further comprising a leakage preventing ring between the end of the outlet structure and the bracket of the guide tube,
The leakage prevention ring,
Fitted to the end of the outlet structure and in close contact with the end of the outlet structure and the bracket of the guide tube,
A check valve having a preventive ring body that defines a preventive ring hole surrounding the straight body of the guide tube and is located along an edge of the fluid outlet of the outlet structure.
The method of claim 1,
The plug tube,
Having a plug body inserted into the inside of the guide tube and a stopper formed along the outer peripheral surface of the plug body from the outside of the guide tube,
Defining a fluid outflow hole along the length direction of the plug body on the inner circumferential surface of the plug body,
It has a leakage preventing ring located in the isolated groove by defining an isolation groove on the outer peripheral surface of the plug body,
A check valve having a plurality of fluid suction holes passing through the plug body near the closure structure.
The method of claim 13,
The plug body communicates the fluid outlet hole and the individual fluid suction hole with each other,
The plurality of fluid suction holes in the plug body are exposed to the outlet structure when the plug tube protrudes from the guide tube through the movement of the plug tube in the guide tube, and the plug tube is depressed from the guide tube. When the check valve is surrounded by the guide tube.
The method of claim 13,
The tip of the plug body has a male thread around the plurality of fluid suction holes,
The male thread of the plug body is helically coupled to the female thread of the guide tube.
The method of claim 13,
The stopper is in contact with the guide tube when the plug tube moves from the guide tube to adjust a protruding distance of the plug body from the guide tube.
The method of claim 13,
The outer peripheral surface of the stopper has a male thread,
The male thread of the stopper is a check valve that is helically coupled to the female thread of the expansion pipe.
The method of claim 13,
The leakage prevention ring,
When the plug body of the plug tube is inserted into the straight body of the guide tube, a check valve is positioned between the straight body and the plug body to intimately contact the straight body and the plug body.

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