KR100580882B1 - Watertight device in the underground valve room - Google Patents

Abstract

The present invention is a farm water channel underground valve chamber installed at regular intervals to branch the water supplied from the farm channel type buried underground to supply water to the farmland far from the dam or reservoir as a source of agricultural water to the waterway side adjacent to the farmland. The present invention relates to a waterproof device, so that the water can be waterproofed without causing the water inside the underground valve chamber to be removed without removing the existing concrete underground valve chamber.

To this end, the bottom member 11 installed on the bottom surface of the valve chamber 4 and the connection surface of the bottom member and the cylindrical member is installed to pass through the pipe 2 of the valve chamber at the same time the sealing member ( 12), a reinforcing pipe 15 installed on the vertical surface of the cylindrical member to reinforce strength, and a cap 17 installed inside the cutout portion 12a of the cylindrical member through which the pipe passes and fixed to the cylindrical member 17. ), And a urethane foam 18 that is filled in the interior of the cap through a gap (t) formed between the concrete wall and the cylindrical member, the cylindrical member.

Description

Waterproofing device of a valve passage in a farm channel

1 is a schematic diagram showing the installation state of the farm

Figure 2 is a longitudinal sectional view showing a conventional underground valve chamber

3 is a plan view of FIG.

4 is a longitudinal sectional view of one embodiment of the present invention;

5 is a plan view of FIG.

Figure 6 is a perspective view of a cylindrical member applied to the present invention

Figure 7 is a longitudinal cross-sectional view showing another embodiment of the present invention

Explanation of symbols for the main parts of the drawings

2: pipe 3: valve

4: valve chamber 10: concrete wall

11 bottom member 12 cylindrical member

13, 14, 16: adhesive tape 15: reinforcement pipe

18: urethane foam 19: gasket

20: rubber tape

The present invention is a farm water channel underground valve room installed at regular intervals to branch the water supplied from the farm channel type buried underground to supply water to the farmland far from the dam or reservoir as a source of farm water to the waterway side adjacent to the farmland. More specifically, the present invention relates to a waterproofing device for an underground valve chamber in a farm water passage so that water does not differ from the inside of the underground valve chamber without removing the existing concrete underground valve chamber.

1 is a schematic diagram showing a state of installation of a water channel, in which a pipe 2 having a diameter of about 1 m is buried underground to supply water from a farm water source 1 to a water channel adjacent to the farmland. It is constructed inclined downward so that it can flow naturally.

Figure 2 is a longitudinal cross-sectional view showing a conventional underground valve chamber and Figure 3 is a plan view of Figure 2, the embedded agricultural channel is cast concrete in the form of a square frame so that the top is opened to install the valve (3) at a predetermined interval The valve chamber 4 is configured on one side and the overflow chamber 5 is formed on the other side to rotate the shaft 6 drawn out from the valve 3 to the ground, thereby being supplied through the pipe 2. When water is discharged into the overflow chamber 5 and a certain amount is filled in the overflow chamber and then overflowed and supplied to the water channel, it is used as agricultural water.

At this time, an entrance 7 is formed in the upper portion of the valve chamber 4 for maintenance of the valve chamber 4 and the valve 3, and the entrance 7 is normally closed by a cover 8. It is done.

However, this conventional technology has caused a number of problems as follows.

First, since the underground valve chamber is formed by concrete pouring, cracks are generated in the concrete wall due to ground subsidence or vibration, so that the water in the valve chamber is different.

Second, because the metal pipe is passed on the concrete wall, the volume of the concrete is reduced during the curing of the concrete, or the pipe is corroded, causing a gap between them, so that the water in the valve chamber is different.

Third, when the water is different in the valve chamber due to the above-mentioned problems, the valve is corroded, so that the durability of the valve is lowered, and it is impossible to function properly.

Fourth, when maintenance and repair work are necessary due to damage to the valve, it is difficult to quickly maintain and repair water, which must be pumped out with a pump or the like.

In view of the above problems, water is added to the site where the leakage occurs, or the waterproofing agent is coated to prevent leakage. However, this waterproofing method is only a temporary measure. There is a problem that is submerged in water.

Therefore, in order to fundamentally solve this problem, after the concrete construction is completely dismantled, the construction is carried out to cover the valve by a new construction method. As the work of dismantling pours is enormous, it takes not only a long time due to the construction, but also a lot of construction costs, and the dismantled concrete pours are classified as industrial wastes.

The present invention has been made to solve such a conventional problem, it is possible to completely prevent the phenomenon of water in the valve chamber by completely waterproofing the interior of the valve chamber without dismantling the existing concrete wall. There is a purpose.

According to an aspect of the present invention for achieving the above object, a cylindrical member having a bottom member provided on the bottom surface of the valve chamber, and a connection surface of the bottom member and the pipe of the valve chamber to pass through at the same time the sealing portion is sealed. And a reinforcing pipe installed on the vertical surface of the cylindrical member to reinforce the strength, a cap installed inside the cutout of the cylindrical member through which the pipe is passed, and fixed to the cylindrical member, between the concrete wall and the cylindrical member, and the cylinder. Provided is a waterproofing device for an underground valve chamber, characterized in that the urethane foam is filled in the interior of the cap through the gap formed in the member.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 4 to 7 as an embodiment.

Figure 4 is a longitudinal sectional view of one embodiment of the present invention, Figure 5 is a plan view of Figure 4 and Figure 6 is a perspective view of a cylindrical member applied to the present invention, the present invention is made of FRP material on the bottom surface of the valve chamber (4) The bottom member 11 is provided, and the cylindrical member 12 of FRP material is cut | disconnected to the height of the valve chamber 4 at the upper side of the bottom member, and the connection surface and cylindrical member 12 between them are installed. Joints 13) are sealed by adhesive tapes 13 and 14, and the cylindrical member 12 has a cutout portion 12a formed therein so as to allow the pipe 2 to pass therethrough, as shown in FIG.

While the cylindrical member 12 installed in the valve chamber 4 is thin, the depth of the valve chamber (approximately 2 to 8 m) is so deep that the strength may drop. ) Is installed and fixed with the adhesive tape 16, the reinforcement pipe 15 is set appropriately according to the height and the number of positions to be installed in accordance with the height of the cylindrical member (12).

The most important element for waterproofing the underground valve chamber 4 is the point where the pipe 2 passes, that is, the connection surface of the cutout 12a and the pipe 2, so that the pipe ( The cap 17 is provided inside the cutout part 12a of the cylindrical member 12 through which 2) passes, and it is comprised so that the flange 17a of the said cap 17 may be adhesively fixed to the cylindrical member 12. As shown in FIG.

At this time, the diameter of the cutout portion 12a is preferably set to maintain a sufficient distance from the pipe 2.

This is because the urethane foam 18 smoothly passes through the gap t between the cutout 12a and the pipe 2 in the process of filling the urethane foam 18 between the concrete wall 10 and the cylindrical member 12. This is to allow the inlet to be filled in the cap 17.

On the other hand, in order to maintain the airtightness between the pipe 2 and the cap 17, it is more preferable to install a rubber gasket 18 on the inner side (opposite side of the urethane foam is introduced) of the cap 17.

This is a phenomenon in which the urethane foam 18 flows out into the cylindrical member 12 through the gap between the cap 17 and the pipe 2 in the process of flowing into the interior of the cap 17 through the gap t. This is to prevent more completely.

In addition, since the valve chamber 4 is submerged in water, the pipe 2 becomes wet because water is drained by a water pump or the like in the process of waterproofing without dismantling the concrete wall 10. Will be.

If the pipe 2 is wet with water, the process of maintaining the airtightness between the pipe 2 and the cylindrical member 12 and between the pipe 2 and the cap 17 using the urethane foam 18. If the pipe 2 is wet, the pipe 2 at the position where the cylindrical member 12 and the cap 17 are located may be moved to the rubber tape 20. It should be wrapped and installed.

FIG. 7 is a longitudinal cross-sectional view showing another embodiment of the present invention, in which a valve 3 positioned inside the cylindrical member 12 is wrapped with a housing 21, and then filled with a urethane foam 21 therein, thereby providing a more perfect view. It is supposed to be waterproof.

Referring to the operation of the present invention configured as described above is as follows.

First, the bottom member 11 of FRP material having a predetermined thickness is cut and installed according to the size of the bottom surface of the valve chamber 4, and then the cylindrical member 12 is cut to an appropriate length according to the depth of the valve chamber 4. It is rolled into a substantially cylindrical shape and placed in the valve chamber 4, and then the cutout portion 12a is formed so that the pipe 2 passing through the valve chamber passes.

Thereafter, the cutout portion 12a is inserted into the pipe 2, and the connecting surface of the bottom member 11 and the joint portion of the cylindrical member 12 are sealed with adhesive tapes 13 and 14, respectively, and then the cylinder In order to reinforce the strength of the member 12, the reinforcing pipe 15 is positioned inside the cylindrical member 12 at predetermined intervals according to the height of the valve chamber 4, and then the cylindrical member is fixed with an adhesive tape 16. The strength of (12) is reinforced.

After reinforcing the strength of the cylindrical member 12, the cap 17 is positioned inside the cutout 12a through which the pipe 2 passes, and then the flange 17a is fixed to the cylindrical member 12. At this time, if the rubber gasket 19 is placed inside the cap 17, the phenomenon in which the urethane foam 18 escapes from the connection surface of the pipe 2 and the cap 17 may be prevented. .

After the caps 17 are fixed to the inner side of the cylindrical member 12 as described above, the urethane foam 18 is filled in the space between the concrete wall 10 and the cylindrical member 12. ) Is filled in between them to inflate and close the space, as well as to enter the inside of the cap (17) through the gap (t) between the pipe (2) and the cylindrical member 12 is filled with the pipe (2) and the cylinder The airtightness between the members 12 is perfectly maintained.

After filling the urethane foam 18 between the concrete wall 10 and the cylindrical member 12 as described above, the urethane foam 18 prevents cracking due to vibration and shaking as well as sealing, and keeps warm in winter. Because it serves to prevent the phenomenon that the valve 3 is freezing in advance.

 As described above, the present invention realizes the waterproofing of the valve chamber without dismantling the existing concrete wall, and thus has various advantages as follows.

First, since the concrete wall is not dismantled, there is no need to mobilize heavy equipment, thereby enabling rapid construction.

Second, it is possible to drastically reduce construction period and construction cost due to waterproofing.

Third, the sealing and shock absorption is completely made by the urethane foam filled between the concrete wall and the cylindrical member as well as the heat insulation role, thereby preventing the freezing of the valve in the cold.

Claims (4)

The bottom member installed on the bottom surface of the valve chamber, the connecting surface of the bottom member and the pipe member of the valve chamber is installed so that the pipe of the valve chamber passes through the seal, and the cylindrical member is installed on the vertical surface of the cylindrical member to increase the strength Urethane filled inside the cap through a reinforcing pipe for reinforcement, a cap installed inside the cutout of the cylindrical member through which the pipe passes, and fixed to the cylindrical member, and a gap formed in the cylindrical member between the concrete wall and the cylindrical member. Waterproofing device for the underground valve chambers, characterized in that consisting of foam. The method of claim 1, Waterproofing device for the underground valve chambers, characterized in that the rubber gasket is installed on the inner surface of the cap. The method of claim 1, Wrapping the valve in a housing, the waterproofing device of the underground valve chambers, characterized in that the urethane foam is filled therein. The method of claim 1, Waterproofing device of the underground valve chamber of the agricultural waterway, characterized in that the rubber tape is wrapped in the pipe of the portion where the cylindrical member and the cap is located.

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