KR200456133Y1 - Apparatus for preventing flowing backward of underground type firehydrant - Google Patents

Abstract

The present invention relates to a backflow prevention device of an underground fire hydrant, so that the tubular shaft support portion 11 is provided at one side and a ring-shaped outer peripheral surface, and is fixed to the outer peripheral portion in the radial direction from the shaft support portion 11. A valve body 10 radially formed with a plurality of first flow passages 12 penetrating the plate surface of the area; The first shaft 21 and the first shaft 21 is axially coupled in the axial direction within the shaft support portion 11, the first shaft 21 is caught on the outer end to prevent the departure from the shaft support portion 11 A plate 22 is formed, and a disc plate 23 having a constant diameter is integrally formed at an inner end thereof, and the second plate 24 is formed in the disc plate 23 so as to communicate with the first flow path 12. A first disk 20 to be formed; The second shaft 31 is axially coupled to the first shaft 21 in an axial direction, and the locking plate 32 formed at one end of the second shaft 22 has an outer diameter of the valve body 10. A second flow path 24 formed on the disk plate 23 of the first disk 20 so that the disk plate 33 formed at the other end is larger than the outer diameter of the shaft support portion 11 of A second disk 30 formed to have a diameter capable of covering the same at the same time; It is installed in the outer diameter of the shaft support portion 11 and is provided with a restoring spring 40 for close contact between each disk plate (23, 33) of the first disk 20 and the second disk (30) It is characterized in that it is possible to prevent contamination of the main stream by the water pollution in the main stream.

Fire Hydrant, Backflow Prevention, Disc, Pollution Prevention

Description

Apparatus for preventing flowing backward of underground type firehydrant}

The present invention relates to a backflow prevention device for underground fire hydrants, and more specifically, water contaminated by water for a long time in the water supply pipe installed from the main water supply branch to the underground fire hydrant for installing the underground fire hydrant enters the main water supply main water. The present invention relates to a backflow prevention device of an underground fire hydrant to prevent the fire.

In general, a fire hydrant is a water supply opening and closing device installed in a water supply pipe for the purpose of extinguishing a fire.

Fire hydrants are ground and underground, and underground fire hydrants are usually installed in a manhole in the basement, so it is inconvenient to connect a fire hose for rapid extinguishing. Therefore, after adjusting the height of the outlet by using a separate connection device to the outlet, Fire hose is connected and used.

Underground fire hydrants can be classified into I type and L type.

Type I is a method of connecting a short pipe of a certain length to the top of a branch valve connected vertically to a water pipe, and an underground fire hydrant is connected to the top of the pipe. After the L-shaped curved pipe is connected horizontally, a short length pipe is connected to the upper end of the curved pipe, and the underground fire hydrant is connected to the top of the short pipe.

Such underground fire hydrants are used only in specific situations, so the timing of their use is very limited.

In other words, the fire hydrant is normally closed at all times, and the number of uses is very small since the valve is opened only during an emergency such as fire or training.

Therefore, in the case of the type I type, the water between the branch valve and the underground fire hydrant connected to the branch pipe from the main main side mainstream, or in the case of the L type type, is bound to stagnate for a long time.

When water is stagnant for a long time, the water quality is deteriorated, and the water quality is deteriorated and the contaminated water is induced to the main stream of the main stream, causing the main stream of drinking water to be contaminated.

The present invention is to solve the above problems, the present invention is to prevent the contaminated water generated by long-term congestion in the branch branch from the main building to prevent the inflow into the main building to ensure safe and hygienic water quality management The main purpose is to provide a backflow prevention device for food hydrants.

In addition, the present invention has another object to provide a backflow prevention device that can minimize the construction and installation costs because it can be applied without changing the structure of the existing plumbing at all.

On the other hand, there is another purpose to provide a backflow prevention device of an underground fire hydrant, even though it blocks a part of the flow path, so that a stable flow can be achieved.

In order to achieve the above object, the present invention has a ring-shaped outer circumferential surface, and one side thereof has a tubular axial support portion protruding at a predetermined length in the axial direction from the center, and from this axial support portion to a radial outer circumferential edge portion. A valve body in which a plurality of first flow paths penetrating a plate surface of a predetermined area is formed radially; A first shaft which is axially coupled in the axial direction within the shaft support, and a locking plate formed at an outer end thereof to prevent the first shaft from being separated from the shaft support, and an inner diameter of which has a constant diameter; A first disk to integrally form the disk plate, wherein the disk plate has a second flow path formed in communication with the first flow path; The second shaft is axially coupled to the first shaft axially coupled, and the engaging plate is formed at one end of the second shaft so that the outer diameter is formed to be larger than the outer diameter of the shaft support portion of the valve body, the other end A disk plate formed at the second disk so as to have a diameter capable of simultaneously covering a second flow path formed on the disk plate of the first disk; One end is in close contact with the side surface of the valve body while the other end is in contact with the outer diameter of the shaft support, the other end is in close contact with the engaging plate of the second shaft to the inner side surface of the valve body of each of the first disk and the second disk It consists of a restoring spring that allows the disk plate to be in close contact.

By the backflow prevention device of the present invention according to the above configuration to ensure that the water is contaminated by a long time stagnation of the branch pipe side to the main building so that stable and hygienic water quality management can be made at all times.

And by the double disk (double disk) to ensure a stable flow flow through the pipe at all times.

In particular, the non-return device of the present invention has a very useful effect of providing a very economical construction that does not require any structural change simply by simply inserting it into the existing pipe.

When described in more detail with reference to the accompanying drawings a preferred embodiment of the present invention as follows.

1 is a cross-sectional view showing the configuration of an embodiment of the backflow prevention apparatus of underground fire hydrant according to the present invention, Figure 2 is a perspective view of FIG.

As shown, the present invention is largely composed of the valve body 10, the first disk 20, the second disk 30 and the restoring spring 40.

The valve body 10 of the present invention has a ring-shaped outer circumferential surface, and one side thereof is provided with a tubular shaft support portion 11 protruding at a predetermined length in the axial direction from the center, and from this shaft support portion 11 The plurality of first flow paths 12 penetrating radially the outer circumferential portion in a radial direction are radially formed.

The first flow path 12 has a shape in which the plate surface extending from the outer peripheral end of the valve body 10 to the shaft support part 11 is horizontally penetrated, and the shaft support part 11 of the valve body 10 is horizontally penetrated. And a plate surface having a predetermined width in the radial center direction from the outer circumferential end of the valve body 10 also on the other side corresponding to one side on which the first flow path 12 is formed, so that the pipes are formed on both sides of the valve body 10. It is most desirable to allow the sealing to be made while being in close contact with the flange of the.

In addition, the first disk 20 may include a first shaft 21 configured to have a length longer than that of the shaft support portion 11 that is axially coupled to the shaft support portion 11 of the valve body 10, and 1 The end of the outer side relative to the shaft support portion 11 of the shaft 21 is provided with a locking plate 22 so that the outer diameter is formed larger than the inner diameter of the shaft support portion 11, the valve body in the shaft support portion 11 The disk plate 23 having a constant diameter inside the valve body 10 is integrally formed at an end provided inwardly of the valve 10.

At this time, the first shaft 21 is formed so that the outer diameter is smaller than the inner diameter of the shaft support portion 11 to be inserted into the shaft support portion 11 to be movable in the axial direction, and formed on one end of the first shaft 21. The engaging plate 22 is to be caught on the outer end of the shaft support portion 11, the disk plate 23 is a diameter that can cover the entire first flow path 12 formed in the valve body 10 To be formed,

In particular, the first disk 20, the first shaft 21, the locking plate 22 and the disk plate 23 at the same time so that the center is horizontally penetrated with a constant diameter, the disk plate provided inside the valve body 10 A plurality of second flow passages 24 are formed radially on the plate surface so as to communicate with the first flow passage 12.

In addition, the second disk 30 is also formed to have a configuration in which the locking plate 32 and the disk plate 33 are integrally coupled to the second shaft 31 and the opposite ends of the second shaft 31, respectively. do.

In this case, the second shaft 31 of the second disk 30 allows the outer diameter to be formed to be smaller than the inner diameter of the hole passing through the center of the first disk 20, while the length is formed to be longer than the first disk 20. .

In addition, the locking plate 32 formed at one end of the second shaft 31 allows the outer diameter to be formed to be larger than the outer diameter of the shaft support 11 of the valve body 10 by a predetermined width, and the disk plate 33 formed at the other end thereof. ) Is formed to a diameter that can cover the second flow path 24 formed on the disk plate 23 of the first disk 20 at the same time, when the disk board 23 in close contact with the disk plate 23 of the first disk 20 It is a structure which shields all the 2nd flow paths 24 formed in 23. As shown in FIG.

On the other hand, the restoring spring 40 is a coil spring coalesced to the outer diameter of the shaft support portion 11, and one end of the restraining plate 32 of the side of the valve body 10 and the second shaft 31 to which the shaft support portion 11 is connected. Between the disc disks of the first disk 20 and the second disk 30 to the inner side surface of the valve body 10 by pushing the locking plate 32 sideways from the end of the shaft support 11. 23, 33) to be in close contact.

On the other hand, the water supply control action by the backflow prevention device of the above configuration will be described.

The backflow prevention device of the present invention can be applied in a fire hydrant or a pipe that can move fluid in only one direction.

3 to 4 respectively show an embodiment applying the backflow prevention device of the present invention, the backflow prevention device of the present invention is to be applied to the flange connection portion of the branch pipe 300 extending from the main pipe (200).

That is, as illustrated in the fire hydrant 100, the backflow prevention device of the present invention is applied to the flange connection portion of the branch pipe 300 branched from the main pipe 200, which is usually a water pipe, to the branch pipe 300 connected to the fire hydrant 100. do.

At this time, branch valves 400, 500, etc. are connected to branch the fire hydrant 100 connected to the end of the branch pipe 300 in the main pipe 200.

On the other hand, the present invention is applicable to the general hydrant so that the water from the main pipe 200 to the branch pipe 300 as well as the fire hydrant 100.

5 to 7 show the operation structure of the non-return device according to the present invention.

As described above, the backflow prevention device of the present invention is applied between the flange connection portion to which the branch pipe 300 is connected from the main pipe 200 of the pipe.

That is, the backflow prevention device of the present invention is inserted between the branch pipe 300 and both flanges 50 and 60 connected to the flange, and then bolted between the flanges 50 and 60 to each flange 50 and 60. The reverse flow prevention measures of the present invention are brought into close contact with each other.

However, in order to seal the flanges 50 and 60, the valve body 10 of the non-return device of the present invention allows the sealing groove 13 to be formed at both outer peripheries so as to seal between the flanges 50 and 60. It is most desirable to have 14) intervene to achieve perfect waterproofing.

When the discharge valve or the fire hydrant is shielded at the end of the branch pipe 300 in such a combined state, the pressure between the main pipe 200 side and the fire hydrant or discharge valve side is the same or finer based on the backflow prevention device of the present invention. Therefore, the non-return device prevents the disk plates 22 and 33 of the first disk 20 and the second disk 30 from the valve body 10 by the elastic force of the restoring spring 40 as shown in FIG. 5. Close contact with the sides of the

When the two disk plates 22 and 33 come into close contact with the valve body 10, the second flow path 23 of the first disk 20 is blocked together with the first flow path 12 of the valve body 10. Since it becomes a state, it is possible to prevent the water of the fire hydrant or the discharge valve side from flowing back to the main pipe 200 side completely.

Therefore, even if the water stagnated for a long time between the fire hydrant or the discharge valve from the backflow prevention device of the present invention, even if it is contaminated by corrosion or decay, the inflow to the main pipe 200 side is completely prevented. Prevent contamination.

Meanwhile, when the hydrant or the discharge valve is opened as necessary, the water filled between the backflow prevention device and the hydrant or the discharge valve of the present invention is discharged to the outside, so that the pressure in the branch pipe 300 is drastically lowered.

When the pressure is applied to the main tube 200 side pressure higher than the resilience of the restoring spring 40, the restoring spring 40 is compressed by the water pressure on the main tube 200 side.

When the restoring spring 40 is compressed, firstly, the second disk 30 is pushed, and the first disk 20 is also pushed out simultaneously with the second disk 30, and the first disk 20 and the second disk are simultaneously pushed. 30 moves as shown in FIG. 6 until the locking plate 22 of the first disk 20 is caught by the shaft support 11, and the first flow path 12 of the valve body 10 is moved. ) Is opened, the water flows to the branch pipe 300 from the main pipe 200 side through the first flow path 12 through the outer peripheral end of the first disk 20 and the second disk 30.

Subsequently, when the water pressure of the main building 200 increases, the first disk 20 is in a state in which the locking plate 22 is caught by the shaft support part 11 and cannot move any more, as shown in FIG. When the disk 30 moves until one end of the locking plate 32 is caught by the shaft support part 11, the disk plate 33 of the other end is spaced apart from the disk plate 23 of the first disk 20. The second flow passage 24 formed in the disc plate 23 of the first disc 20 is opened, so that water can flow at the same time through the second flow passage 24.

Therefore, when the discharge valve or the fire hydrant of the branch pipe 300 is opened, the two disk plates 23 and 33 provided in the backflow prevention device of the present application are sequentially moved to further diversify the passage through which water can move, thereby providing more fluidity. This should be improved.

In this way, the contaminated water inflow into the main stream is blocked beforehand, so that stable water quality management is possible at all times.

In addition, it is possible to maximize the flow rate to the branch pipe 300 through the backflow prevention device of the present invention can minimize the reduction of the discharge flow rate.

On the other hand, the present invention can be easily installed by simply inserting into the flange connection portion to which the branch pipe 300 is connected, without having to change the configuration of the existing pipe at all, thereby minimizing installation and construction costs.

1 is a cross-sectional view showing an embodiment configuration of the backflow prevention device of underground fire hydrant according to the present invention,

2 is a perspective view of FIG.

Figure 3 is a side view showing an embodiment of applying the backflow prevention device of the present invention to type I type of underground fire hydrant,

Figure 4 is a side view showing an embodiment applying the backflow prevention device of the present invention to the L-type type of underground fire hydrant,

5 to 7 is an enlarged view showing the main structure of the operation of the backflow prevention device according to the present invention.

* Description of the symbols for the main parts of the drawings *

10 valve body 11 shaft support

12: first euro 13: sealing groove

14: seal 20: first disc

30: second disk 21, 31: shaft

22, 32: stopping plate 23, 33: disc plate

24: 2nd flow path 40: restoring spring

Claims (4)

It has a ring-shaped outer circumferential surface, one side is provided with a tubular axial support portion 11 to protrude at a predetermined length in the axial direction in the center, from the axial support portion 11 to a radial outer peripheral edge of a predetermined area A valve body 10 having a plurality of first flow passages 12 penetrating the plate surface radially; The first shaft 21 and the first shaft 21 is axially coupled in the axial direction within the shaft support portion 11, the first shaft 21 is caught on the outer end to prevent the departure from the shaft support portion 11 A plate 22 is formed, and a disc plate 23 having a constant diameter is integrally formed at an inner end thereof, and the second plate 24 is formed in the disc plate 23 so as to communicate with the first flow path 12. A first disk 20 to be formed; The second shaft 31 is axially coupled to the first shaft 21 in an axial direction, and the locking plate 32 formed at one end of the second shaft 22 has an outer diameter of the valve body 10. A second flow path 24 formed on the disk plate 23 of the first disk 20 so that the disk plate 33 formed at the other end is larger than the outer diameter of the shaft support portion 11 of A second disk 30 formed to have a diameter capable of covering the same at the same time; One end is in close contact with the side surface of the valve body 10 while the other end is in contact with the outer diameter of the shaft support 11, the other end is in close contact with the engaging plate 32 of the second shaft 31 of the valve body 10 Restoration spring (40) for close contact with each disk plate (23, 33) of the first disk 20 and the second disk 30 to the inner side surface; Backflow prevention device of the underground fire hydrant which comprises a. The counter flow of the underground fire hydrant according to claim 1, wherein the disk plate (23) of the first disk (20) has a diameter that can cover the entire first flow path (12) formed in the valve body (10). Prevention device. According to claim 1, From the outer peripheral end of the valve body 10 so that a plate width of a certain width in the radial center direction is formed on both sides so that the sealing surface is in close contact with the flange of the pipe on both sides of the valve body 10 Backflow prevention device of underground fire hydrant to be made. According to claim 3, The valve body 10 has a sealing groove 13 formed on both sides of the outer periphery so that the seal (14) is interposed between the flange (50, 60) to the basement to be waterproof Backflow prevention device of type fire hydrant.

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