KR101265829B1 - De-pressure drainage system for underground water - Google Patents

Abstract

The present invention relates to a groundwater decompression drainage system, and more particularly, in a decompression drainage system for maintaining an appropriate water pressure of the groundwater generated when the underground excavation for the installation of underground building structures, An inlet pipe having an outlet for discharging upwards of ground water, a space is formed so that the ground water flows through the outlet of the inlet pipe, the space is opened to the upper side, the housing having a plurality of outlets along the outer peripheral surface of the lower portion, the housing It is moved up and down in the space portion of the, while moving by the pressure of the ground water flowing through the outlet of the inlet pipe pressure reducing unit for selectively introducing the ground water, provided on the upper end of the housing to close the space, the pressure reducing unit A cover in which a guide groove is formed to guide the upper end, and the lower It is provided to communicate with the gong outlet comprises a discharge pipe to move the groundwater to the water collection.
According to the present invention as described above, it is possible to easily adjust and maintain the water pressure of the groundwater can prevent ground subsidence by over-discharge of conventional groundwater, can reduce the sewerage fee, in particular, by the pressure of the groundwater introduced The opening and closing can reduce the maintenance cost.

Description

De-pressure drainage system for underground water

The present invention relates to a drainage system, and more particularly, to provide a decompression unit that is opened and closed by the pressure of groundwater, and to drain the groundwater under reduced pressure in consideration of the surrounding groundwater pressure, as well as the structure is simple, semi-permanent ground subsidence The present invention relates to a groundwater decompression drainage system that is easy to maintain and maintain.

In general, when a large amount of groundwater is present around and underneath the building, the building receives a buoyancy due to the groundwater, and the building receives the rising force, which threatens safety.

On the contrary, if the groundwater existing around and underneath the building is rapidly removed by forced drainage, the ground where the groundwater existed suddenly becomes empty and the ground sinks, which causes the building to fall and threaten its safety. .

Many methods are used through dead weight and permanent (buoyancy) anchors for the up-water pressure treatment on the foundation floor of the building, but this is limited in that the continuous reliability of the buoyancy anchor's tensile force is not guaranteed with respect to the durability and safety of the building. have.

Pressure relief and drainage systems have been developed to address this.

1 is a view showing a conventional drainage system, Figure 2 is a view showing a conventional pressure reducing drainage system.

First, as illustrated in FIG. 1, an artificial collecting well 2 and a drainage pipe 3 are formed under the foundation floor so that the groundwater 1 flowing into the site is collected into the collecting well 2 along the drainage pipe 3. do.

In this way, the groundwater 1 collected in the sump 2 is pumped and discharged regularly so that the positive pressure does not act on the foundation floor concrete.

However, this method has the advantage of more stable and permanent solution of the up-water pressure problem, which works in proportion to the high groundwater level, but ground subsidence occurs due to excessive discharge of groundwater, resulting in the settlement or tilting of buildings. There is a problem that occurs and develop into a large accident.

In order to solve this, as shown in FIG. 2, a pressure reducing tube 4 capable of maintaining a constant pressure of the groundwater 1 is further provided.

The pressure reducing pipe 4 is connected to the drain pipe 3 and one end, and the other end is located above, and is bent.

In other words, the groundwater 1 moved along the drain pipe 3 is moved upward along the pressure reducing pipe 4, and the height of the groundwater 1 moved upwards corresponds to the pressure of the groundwater 1 nearby. In accordance with the desired water pressure to determine the height of the pressure reducing tube (4) is installed.

In this way, the drain pipe 3 and the pressure reducing pipe 4 can be used to reduce and maintain the pressure of the self-cleaning water 1 to prevent ground subsidence and to be used semi-permanently.

However, the pressure reducing pipe 4 has a variety of installation heights due to the pressure of the groundwater 1 in the region, and in some cases, excessive installation heights cause problems in the construction work of the building.

In addition, long-term use, there is a problem that maintenance is difficult.

Accordingly, the development of a decompression drainage system that can maintain a constant semi-permanently constant by depressurizing the groundwater pressure and reduce the maintenance cost is appropriate.

Therefore, the present invention has been devised to solve the above problems, it is provided with a decompression unit which is opened and closed by the pressure of the groundwater flows into the inlet pipe and the groundwater flows into the inflow pipe can be adjusted to drain the groundwater pressure have.

In particular, the decompression unit can more easily adjust and maintain the desired groundwater pressure by at least one variable weight adjusting the weight of the piston.

Accordingly, an object of the present invention is to provide a groundwater decompression drainage system which prevents ground subsidence, which can be used semi-permanently, and which is easy to maintain.

The present invention for achieving the above object, in the decompression drainage system for maintaining the proper water pressure of the groundwater generated when the underground excavation for the installation of underground building structures, a plurality of inlets and groundwater flowing into the groundwater is discharged upward Inlet tube having an outlet for the, the ground portion is formed so that the ground water flows through the outlet of the inlet tube, the space portion is open to the upper side, the housing having a plurality of outlets along the outer peripheral surface of the lower portion, the vertical direction in the space portion of the housing Is moved to, a pressure reducing unit for selectively entering the ground water while being moved by the pressure of the ground water flowing through the outlet of the inlet pipe, is provided in the upper end of the housing to close the space portion, the guide groove to guide the upper end of the pressure reducing portion The formed cover, and the sphere to be in communication with the outlet of the housing It is achieved by a groundwater including discharge for moving home modifications.

Preferably, the outside of the inlet pipe formed with the inlet is further provided with a filter member made of geotextiles that can pass through the groundwater.

And the geotextile of the filter member is any one or more selected from a non-woven fabric, artificial cloth, geogrid.

In addition, a screw thread is provided along the upper outer circumferential surface of the housing, and a screw thread is formed on the inner surface of the cover so as to correspond to the screw thread and screwed together.

And the decompression unit, the piston is moved up and down along the guide groove of the cover and the space portion of the housing by the pressure of the ground water flowed into the inlet pipe, the lower end of the piston is raised equally, the inlet pipe Packing pad for opening and closing the discharge port, and at least one or more provided to be detachable to the piston is made of a variable weight to increase and decrease the weight of the piston to adjust the pressure of the ground water to the desired pressure.

In addition, the packing pad is fixed to the piston by a fixing piece.

And a packing groove is formed in the bottom surface of the packing pad so that the discharge port end of the inlet pipe is fitted.

In addition, a hydraulic pressure display is further formed on the outer circumferential surface of the piston to check the hydraulic pressure through the hydraulic pressure display protruding upward from the cover by the hydraulic pressure.

The decompression unit has a predetermined length along the width direction of the housing so as to pass over the discharge port of the inlet pipe, one end of the discharge port is located below the rotatable portion, and the other end is groundwater introduced into the inlet pipe. Piston which is moved up and down by a predetermined arc to move up and down, is provided at the lower end of the piston is moved in the same way, the packing pad for opening and closing the discharge port of the inlet pipe, and at least one is provided to be detachable to the other end of the piston It includes a variable weight to increase or decrease the weight of the piston to adjust the pressure of the ground water to the desired pressure.

In addition, the packing pad is fixed to the piston by a fixing piece.

And a packing groove is formed in the bottom surface of the packing pad so that the discharge port end of the inlet pipe is fitted.

In addition, the other end of the piston is further provided with a hydraulic projection protruding outward through the guide groove of the cover, the hydraulic pressure display is formed on the outer circumferential surface of the hydraulic projection through the hydraulic pressure display protruding to the upper side of the cover Check the water pressure.

Further, an inlet flange is further formed along the outlet of the inlet pipe, and the housing is further formed with a housing flange and a housing inlet to correspond to the inlet flange and the outlet at the bottom thereof, and the housing is detachable from the inlet pipe. The inflow flange and the housing flange are fixed by means so that the housing is fixed to the inflow pipe, and a packing member is further provided between the inflow flange and the housing flange to prevent water flow.

In addition, the inlet pipe, the housing, and the decompression unit are provided outside the collection well, and collect the groundwater introduced into the housing by the discharge pipe to the collection well.

The discharge port, the housing, the pressure reducing unit, and the discharge pipe of the inlet pipe are provided at an inner upper end of the collection well to collect groundwater introduced into the housing into the collection well through the discharge pipe.

As described above, according to the groundwater decompression drainage system according to the present invention, it is possible to easily control and maintain the water pressure of the groundwater, it is possible to prevent ground subsidence by the conventional groundwater excessive discharge, it is possible to reduce the sewerage fee, in particular It is a very useful and effective invention that can reduce the maintenance cost as it is opened and closed by the pressure of the incoming groundwater.

1 is a view showing a conventional drainage system,
2 is a view showing a conventional pressure reducing drainage system,
3 is a view showing a groundwater decompression drainage system according to the present invention,
4 is a view showing a separated state of the groundwater decompression drainage system according to the present invention,
5 is a view showing another embodiment of the groundwater decompression drainage system according to the present invention,
6 is a view showing another embodiment of the groundwater decompression drainage system according to the present invention,
7 is a view showing an installation state of the groundwater decompression drainage system according to the present invention,
8 is a view showing a state of use of the groundwater decompression drainage system according to the present invention,
9 is a view showing an installation state of another embodiment of the groundwater decompression drainage system according to the present invention.

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

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

Figure 3 is a view showing a groundwater decompression drainage system according to the present invention, Figure 4 is a view showing a separate state of the groundwater decompression drainage system according to the present invention, Figure 5 is another of groundwater decompression drainage system according to the present invention 6 is a view showing an embodiment of the groundwater decompression drainage system according to the present invention, Figure 7 is a view showing the installation state of the groundwater decompression drainage system according to the present invention, 8 is a view showing a state of use of the groundwater decompression drainage system according to the present invention, Figure 9 is a view showing an installation state of another embodiment of the groundwater decompression drainage system according to the present invention.

As shown in the figure, the groundwater decompression drainage system 10 is composed of the inlet pipe 100 and the housing 200, the pressure reduction unit 300, the cover 400 and the discharge pipe 500.

The inflow pipe 100 is a ground water (1) generated when the underground excavation for the installation of underground building structures is introduced, and the plurality of inlets 110 and ground water (1) introduced into the ground water (1) is discharged upwards The outlet 120 for forming is formed.

At this time, the outer side of the inlet pipe 100 formed with a plurality of inlets 110, the ground member 1 is further provided with a filter member 130 made of geotextiles that can pass through the inlet 110 to filter foreign matter through the groundwater Only (1) will flow.

The filter member 130 is made of geotextiles, it may be used as any one or more selected from non-woven fabric, artificial cloth, geogrid.

And the housing 200 is formed with a space 210 so that the ground water flows through the outlet 120 of the inlet pipe 100, the space 210 is open to the upper side, a plurality of outlets along the outer peripheral surface of the lower portion 220 is formed.

Of course, the lower end of the housing 200 is closed and the groundwater 1 introduced into the space 210 is not discharged to the lower side, it is natural that it is discharged through a plurality of outlets 220.

The decompression unit 300 is located in the space 210 so as to move up and down along the space 210 of the housing 200, and the groundwater 1 introduced through the outlet 120 of the inlet pipe 100. By moving the pressure in the vertical direction by the pressure of) to open and close the outlet 120.

In other words, the decompression unit 300 opens and closes the discharge port 120 of the inflow pipe 100 while being elevated by the pressure of the ground water 1, and the pressure of the ground water 1 introduced into the inflow pipe 100 is reduced in pressure. When the weight is greater than the weight of the part 300, the pressure reducing part 300 is lifted upward to open the discharge port 120.

On the contrary, when the pressure of the groundwater 10 is less than the weight of the decompression unit 300, the decompression unit 300 closes the discharge port 120 of the inflow pipe 100 to prevent excessive discharge of the groundwater 1. .

In addition, the cover 400 is provided at the upper end of the housing 200 to close the space 210, and the guide groove 410 is formed to guide the upper end of the decompression unit 300.

And the discharge pipe 500 is provided to communicate with the discharge port 220 of the housing 200 is installed to move the groundwater (1) to the sump (20).

Of course, the discharge pipe 500 is a natural discharge of all the groundwater (1) discharged from the plurality of outlets 220 to the sump (20).

Here, the cover 400 may be installed by the weight to the upper side of the housing 200, may be installed by screwing.

In other words, the screw thread 230 is provided along the upper outer circumferential surface of the housing 200, and the screw thread 420 is formed on the inner surface of the cover 400 so as to correspond to the screw thread 230.

Accordingly, the cover 400 can be easily removed from the housing 200, and the pressure reduction unit 300 located therein can be easily repaired and replaced, as well as the pressure reduction unit for adjusting and maintaining a desired water pressure. The variable weight 330 of 300 can be installed as needed.

3 to 4, the decompression unit 300 is composed of a piston 310, the packing pad 320 and the variable weight 330, the piston 310 is introduced into the inlet pipe 100 The pressure of the ground water 1 is moved up and down along the space 210 of the housing 200 and the guide groove 410 of the cover 400.

In addition, the packing pad 320 is provided at the lower end of the piston 310 to be elevated in the same manner, and opens and closes the discharge port 120 of the inlet pipe 100.

Variable weight 330 is provided with at least one detachable to the piston 310 to increase or decrease the weight of the piston 310 to adjust the pressure of the ground water (1) to the desired pressure.

The variable weight 330 is provided with a plurality of having the same weight to determine the number of installation according to the required weight or provided with a variable weight 330 having different weights formed in one can be selected and installed as needed.

In the present invention, it is preferable that a plurality of variable weights 330 having the same weight are selectively installed according to the desired water pressure.

The packing pad 320 is fixed to the piston 310 by the fixing piece 340.

In addition, when the packing groove 322 is formed at the bottom of the packing pad 320 so that the end of the discharge port 120 of the inlet pipe 100 is fitted, and the water pressure is low, the discharge port 120 is easily closed to allow the groundwater 1 to be closed. Leakage can be prevented.

In addition, a water pressure display 350 is further formed on the outer circumferential surface of the piston 310 to check the water pressure through the water pressure display 350 protruding upward from the cover 400 by water pressure.

In other words, the groundwater 1 lifts and lowers the decompression unit 300 through the discharge port 120 of the inlet pipe 100 by the hydraulic pressure, and the water collecting well 20 through the discharge port 220 and the discharge pipe 500. When moved to, the upper end of the decompression unit 300 protrudes to the outside through the guide groove 410 of the cover 400.

At this time, the water pressure display 350 is formed on the outer circumferential surface of the piston 310 of the decompression unit 300 protruding to the outside to check the scale of the protruded water pressure display 350 to check the current water pressure. By adjusting the installation of the variable weight 330 to fit it can be drained to maintain the reduced pressure and water pressure.

On the other hand, as shown in Figure 5, the decompression unit 300 'of another embodiment is composed of a piston 310', a packing pad 320 'and a variable weight 330', the piston 310 ' It is formed to have a predetermined length along the width direction of the housing 200 so as to pass above the discharge port 120 of the tube 100.

The piston 310 'is provided so that one end is rotatable, the discharge port 120 is located on the lower side, the other end is moved up and down while drawing a certain arc by the pressure of the ground water introduced into the inlet pipe (100).

The packing pad 320 ′ is provided at the lower end of the piston 310 ′ and moved in the same manner, and opens and closes the discharge port 120 of the inlet pipe 100.

At least one variable weight 330 ′ is provided to be detachable from the piston 310 ′ to increase or decrease the weight of the piston 310 ′ to adjust the pressure of the ground water 1 to a desired pressure.

The variable weight 330 'is provided with a plurality having the same weight to determine the number of installation according to the required weight or provided with a variable weight 330' having different weights formed as one can be selected and installed as needed.

In the present invention, it is preferable that a plurality of variable weights 330 'having the same weight are selectively installed according to the desired water pressure.

The packing pad 320 ′ is fixed to the piston 310 ′ by the fixing piece 340 ′.

In addition, a packing groove 322 'is formed at the bottom of the packing pad 320' such that an end of the outlet 120 of the inlet pipe 100 is fitted, and when the water pressure is low, the outlet 120 is easily closed to allow the groundwater 1 ) Can be prevented from leaking.

The piston 310 ′ controls the water pressure of the ground water 1, but adjusts the water pressure of the ground water 1 using the lever principle based on the discharge port 120 of the inlet pipe 100. 330 ') can be easily adjusted.

The other end of the piston 310 is further provided with a hydraulic pressure projection (350 ') having a hydraulic pressure indication (360') on the outer peripheral surface, the hydraulic pressure projection (350 ') through the guide groove 410 of the cover 400 It is provided to protrude outward.

At this time, the guide groove 410 is formed to be larger than the circumference of the hydraulic projection (350 '), in consideration of the moving distance of the hydraulic projection (350') by the piston 310 'that the other end is rotated around the shaft It is preferable that the guide groove 410 is formed.

The hydraulic pressure projection 350 'can check the hydraulic pressure through the hydraulic pressure display 360' exposed as it protrudes upward from the cover 400 by the piston 310 'which is moved by the hydraulic pressure.

In addition, as shown in Figure 6, the housing 200 may be provided to be detachable from the inlet pipe 100, it can be more easily installed.

To this end, an inlet flange 140 is further formed around the outlet 120 of the inlet pipe 100, and a housing flange 250 is further formed at the lower portion of the housing 200 to correspond to the inlet flange 140. .

In addition, a housing inlet 240 communicating with the outlet 120 of the inlet pipe 100 is further formed in the lower portion of the housing 200 such that the groundwater discharged through the outlet 120 may be disposed through the housing inlet 240. ) Will flow into the interior.

Of course, the upper end of the housing inlet 240 is opened and closed by the decompression unit 300 provided in the housing 200, the decompression unit 300 is moved by the pressure of the ground water introduced into the inlet pipe 100. Opening and closing of the housing inlet 240 is made.

The housing 200 is fixed to the inlet pipe 100 by the fixing means 700. In one embodiment of the fixing means 700, the housing flange 250 and the inlet flange 140 are formed by bolts and nuts. As it is fixed, the housing 200 is fixed to the inlet pipe 100.

At this time, the gasket 600 is provided between the housing flange 250 and the inlet flange 140 to prevent water flowing between the fixed housing flange 250 and the inlet flange 140.

As shown in FIG. 7 to FIG. 9, the groundwater reduced pressure drainage system 10 may be provided outside the sump 20 to collect the groundwater 1.

Here, the decompression unit 300 according to an embodiment will be described and described.

In other words, the inlet pipe 100 and the housing 200 and the decompression unit 300 is provided on the outside of the sump 20, is selectively provided on the ground or underground, the housing 200 by the discharge pipe 500 Collect the groundwater introduced into the sump (20).

At this time, it is obvious that the cover 400 is provided at the upper end of the housing 200.

And when a certain amount of groundwater is collected in the sump 20, the amount of water in the sump 20 is adjusted as it is discharged to the outside using the pump (30).

On the other hand, as shown in Figure 9, looking at the other installation state of the groundwater decompression drainage system 10, it is provided in the sump (20) is to collect the groundwater (1).

In other words, the discharge port 120, the housing 200, the pressure reduction unit 300 and the discharge pipe 500 of the inlet pipe 100 is provided on the inner upper end of the sump 20, the ground water introduced into the housing 200 ( 1) to be collected into the sump 20 through the discharge pipe (500).

This is to minimize the installation space of the groundwater decompression drainage system 10, and to minimize the disturbance in the ground work, thereby reducing the work process and time can be improved work efficiency.

10: decompression drainage system 20: water collecting well
100: inlet pipe 110: inlet
120: outlet 130: filter member
200 housing 210 space part
220: outlet 300, 300 ': pressure reducing unit
310, 310 ': Piston 320, 320': Packing pad
322, 322 ': Packing groove 330, 330': Variable weight
340, 340 ': Fixed piece 350: Hydraulic pressure display
400: cover 410: guide groove
500: discharge pipe 600: gasket
700: fixing means

Claims (15)

In the decompression drainage system to maintain the proper water pressure of the groundwater generated during the excavation of underground construction structure,
An inlet pipe having a plurality of inlets through which ground water is introduced and an outlet through which the inflowed ground water is discharged upward;
A space part is formed to allow groundwater to flow through the outlet of the inlet pipe, the space part being open upward and having a plurality of outlets along the outer peripheral surface of the lower part;
A decompression unit which is moved up and down in the space of the housing and selectively enters the groundwater while being moved by the pressure of the groundwater introduced through the outlet of the inlet pipe;
A cover provided at an upper end of the housing to close the space part and having a guide groove formed to guide the upper end of the pressure reducing part; And
It is provided to be in communication with the outlet of the housing and comprises a discharge pipe for moving the groundwater to the sump,
The decompression unit,
A piston which is moved up and down along the space of the housing and the guide groove of the cover by the pressure of the ground water introduced into the inlet pipe;
A packing pad which is provided at the lower end of the piston and is elevated in the same manner and opens and closes a discharge port of the inlet pipe; And
At least one or more detachable to the piston is provided with a groundwater decompression drainage system comprising a variable weight to increase or decrease the weight of the piston to adjust the pressure of the groundwater to the desired pressure.
In the decompression drainage system to maintain the proper water pressure of the groundwater generated during the excavation of underground construction structure,
An inlet pipe having a plurality of inlets through which ground water is introduced and an outlet through which the inflowed ground water is discharged upward;
A space part is formed to allow groundwater to flow through the outlet of the inlet pipe, the space part being open upward and having a plurality of outlets along the outer peripheral surface of the lower part;
A decompression unit which is moved up and down in the space of the housing and selectively enters the groundwater while being moved by the pressure of the groundwater introduced through the outlet of the inlet pipe;
A cover provided at an upper end of the housing to close the space part and having a guide groove formed to guide the upper end of the pressure reducing part; And
It is provided to be in communication with the outlet of the housing and comprises a discharge pipe for moving the groundwater to the sump,
The decompression unit,
It has a predetermined length along the width direction of the housing so as to pass above the discharge port of the inlet pipe, one end of the discharge port is provided to be rotatable, the other end is fixed by the pressure of the ground water introduced into the inlet pipe A piston that moves up and down in an arc;
A packing pad provided at a lower side of the piston to move in the same manner and to open and close a discharge port of the inlet pipe; And
At least one or more provided to be detachable to the other end of the piston groundwater pressure reduction drainage system comprising a variable weight to increase and decrease the weight of the piston to adjust the pressure of the groundwater to the desired pressure.
In the decompression drainage system to maintain the proper water pressure of the groundwater generated during the excavation of underground construction structure,
An inlet pipe having a plurality of inlets through which ground water is introduced and an outlet through which the inflowed ground water is discharged upward;
A space part is formed to allow groundwater to flow through the outlet of the inlet pipe, the space part being open upward and having a plurality of outlets along the outer peripheral surface of the lower part;
A decompression unit which is moved up and down in the space of the housing and selectively enters the groundwater while being moved by the pressure of the groundwater introduced through the outlet of the inlet pipe;
A cover provided at an upper end of the housing to close the space part and having a guide groove formed to guide the upper end of the pressure reducing part; And
It is provided to be in communication with the outlet of the housing and comprises a discharge pipe for moving the groundwater to the sump,
Inlet flange is further formed along the outlet of the inlet pipe,
The housing is further provided with a housing flange and a housing inlet to correspond to the inlet flange and the outlet opening,
The housing is detachable from the inlet pipe, the inlet flange and the housing flange is fixed by the fixing means so that the housing is fixed to the inlet pipe,
Groundwater decompression drainage system, characterized in that the gasket is further provided between the inlet flange and the housing flange to prevent flowing water.
4. The method according to any one of claims 1 to 3,
On the outside of the inlet pipe formed with the inlet,
Groundwater decompression drainage system, characterized in that the groundwater is further provided with a filter member made of geotextiles.
delete 5. The method of claim 4,
Geotextile of the filter member is groundwater decompression drainage system, characterized in that any one selected from non-woven fabric, artificial cloth, geogrid.
4. The method according to any one of claims 1 to 3,
A screw thread is provided along the upper outer circumferential surface of the housing, and the screw thread is formed on the inner surface of the cover to correspond to the screw thread, and the screw is mutually screwed together.
The method of claim 1,
And the packing pad is fixed to the piston by a fixing piece.
The method of claim 1,
On the bottom of the packing pad,
Groundwater decompression drainage system, characterized in that the packing groove is formed so that the discharge end of the inlet pipe is fitted.
The method of claim 1,
Ground pressure reduction and drainage system, characterized in that the hydraulic pressure display is further formed on the outer circumferential surface of the piston to check the water pressure through the water pressure display projecting toward the upper cover by the water pressure.
The method of claim 2,
And the packing pad is fixed to the piston by a fixing piece.
The method of claim 2,
On the bottom of the packing pad,
Groundwater decompression drainage system, characterized in that the packing groove is formed so that the discharge end of the inlet pipe is fitted.
The method of claim 2,
At the other end of the piston,
It is further provided with a hydraulic projection protruding outward through the guide groove of the cover, the hydraulic pressure display is formed on the outer circumferential surface of the hydraulic projection characterized in that the hydraulic pressure is confirmed through the hydraulic pressure display protruding to the upper side of the cover Groundwater decompression drainage system.
4. The method according to any one of claims 1 to 3,
And the inlet pipe, the housing, and the decompression unit are provided outside the water collecting well, and collect groundwater introduced into the housing by the discharge pipe into the water collecting well.
4. The method according to any one of claims 1 to 3,
And a discharge port, a housing, a decompression unit, and a discharge pipe of the inlet pipe are provided at an inner upper end of the sump, and collect groundwater introduced into the housing into the sump through the discharge pipe.

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