KR100344963B1 - Method for using an intermediate water supply by recycling subterranean water in build - Google Patents

Abstract

The present invention relates to a method of utilizing groundwater as a heavy water in a facility, and more particularly, by embedding a perforated pipe at the bottom of a floor slab, pumping and storing groundwater collected in a water collecting well in a required place, and using the toilet or washing water. By supplying to the water supply line for use, etc., it is possible to increase the utilization rate of groundwater and to reduce the demand for water supply of facilities.

That is, in the present invention, the water collecting pipe 20 is embedded in the support 110 of the facility, and a plurality of water collecting holes are formed to connect the lower end of the water pipe 20 to the bottom of the bottom slab 130. The bottom slab 130 is buried at a depth of about 2 m, and the ground slab 130 having various shapes such as a lattice is formed so that the groundwater below the bottom slab 130 flows into the water collecting well 50 by gravity. Buried in the lower portion of the predetermined slope, and connected to the collecting pipe 20 of the support 110, the holding pipe (30) connected to the collecting pump 40 to pump to the collecting well (50) Buried in, to install the water pump (60) in the sump (50) for supplying the collected ground water to the water supply line to be used in the toilet.

Description

Method for using an intermediate water supply by recycling subterranean water in build}

The present invention relates to a method of utilizing groundwater as a heavy water in a facility, and more particularly, by embedding a perforated pipe at the bottom of a floor slab, pumping and storing groundwater collected in a water collecting well in a required place, and using the toilet or washing water. The purpose of this is to increase the utilization rate of groundwater and to reduce the demand for water supply of facilities by supplying it to the water supply line for use.

In general, a large amount of groundwater is generated in the basement due to the water veins in the basement during construction of the facility, and when the construction of the facility is completed, a large amount of groundwater spilled into the underground is pumped and discharged.

In addition, since the completion of the facility requires a considerable amount of water for living, construction of water supply facilities according to this is mandatory.

Therefore, the present invention is to bury the meridians in the basement during the construction of the facility and to collect and store the groundwater through it to be supplied to the water supply line to be used for toilet or washing water.

1 is a main configuration showing an embodiment according to the present invention.

2 is a main configuration showing another embodiment according to the present invention.

Figure 3 is a main configuration showing another embodiment according to the present invention.

Figure 4 is a detailed configuration showing an embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

10,10 ': Perforated pipe 10'a: Valve 11: Packing

20: collection pipe 30: connector 40: collection pump

50: sum modification 51: subsidiary modification

60: heavy water pump 70: storage tank 80: water level check pipe

110: shore 120: beam 130: floor slab

A: Groundwater level before construction B: Groundwater level after construction C: Low water collection level

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

The present invention is to collect the ground water generated during the construction of the facility to be used as the water of the heavy water, embedding the collecting pipe 20 in the support (110) of the facility, forming a plurality of collecting holes to form the collection pipe (20) Perforated pipe 10 is connected to the bottom of the floor slab at a depth of about 2m in the bottom of the bottom slab 130, the ground water under the bottom slab 130 to flow into the sump (50) by gravity to catch the grid Perforated pipe 10 'of various shapes such as buried in the bottom of the bottom slab 130 to have a predetermined inclination, the catchment pump connected to the water collecting pipe 20 of the support 110 to pump the water collecting well 50 The connection pipe 30 connected to the 40 is buried in the support 110, by installing a heavy water pump (60) in the sump (50) to supply the collected groundwater to the water supply line to be used in the toilet will be.

Here, the sump 50 may be installed on the side or bottom of the facility, and provided with a packing 11 between the perforated pipe 10 and the bottom slab 130 buried in the bottom of the bottom slab 130 At the same time to improve the watertightness and to prevent the leakage of groundwater due to the expansion and contraction of the facility due to the temperature change, the valve 10 'for adjusting the water collection at the end of the lattice-type perforated pipe (10') at the bottom of the bottom slab It can be implemented by having a).

In addition, in the practice of the present invention, after setting the hydraulic drainage line at a certain level according to the outflow of the groundwater, when the groundwater level reaches the hydraulic drainage line at the set height, the collecting pump 40 is automatically operated to pump the groundwater, and It is preferable to configure the collection pump 40 to stop automatically when the collection catch lower limit (C) is equal to or less than the hydraulic drainage line.

On the other hand, in the practice of the present invention having a storage tank (70) on the roof of the facility to store the groundwater stored in the sump (50) in the storage tank (70) so that it can be supplied to use the water supply line as needed It can be carried out, without having a separate collection well 50, it can be carried out with a separate auxiliary collection well 51 is installed in the grid only at the bottom to store only the groundwater collected by the gradient angle. .

In addition, it can be carried out with a water level check tube 80 made of a transparent tube through the side or bottom of the building to check the ground water level.

Hereinafter, the operation of the present invention will be described.

As described above, in applying the present invention consisting of a perforated pipe 10, a collecting pipe 20, a connecting pipe 30, a collecting pump 40, a collecting well 50, and a heavy water pump 60 to the facility, Investigate the outflow of the surrounding groundwater, and determine the point where the ground buoyancy acting on the building by groundwater drainage line, that is, groundwater, which acts on the ground and the ground subsidence caused by the groundwater outflow.

When the investigation of the correlation with the facility is completed through the above process, the construction of the collection pipe 20 is embedded in the holding (110) during the construction of the facility, and the oil pipe (10) at the lower end of the embedded collection pipe (20) The construction is to be buried about 2 m below the bottom slab 130, the groundwater flows through the bottom of the bottom slab 130 to the water collecting well 50 by the gravity pipe 10 'of various shapes such as lattice Buried and installed to have a certain slope, and at the same time to form a water collecting well (50) on one side of the facility buried connection pipe 30 connected to the water collecting pipe 20 of the support on the beam 120, buried connection A water collecting pump 40 is provided at the end of the pipe 30 to pump groundwater through the oil hole pipe 10 so that the groundwater stored in the water collecting well 50 can be supplied to the water supply line.

On the other hand, the groundwater stored in the sump 50 can be used directly connected to the water supply line as described above, but can be provided to provide groundwater to the water supply line by having a separate storage tank 70 on the roof of the facility. In addition, the groundwater level (B) after construction by the present invention as described above is to be maintained below the groundwater level (A) before construction.

In addition, through the lower side of the wall or the bottom of the slab 130 is made of a transparent pipe to be able to easily check the groundwater level by having a water level check tube 80 to check the groundwater level.

Therefore, the present invention is to collect the groundwater in the facility to be used as water for the use of heavy water, and thus do not have to do a separate waterworks work corresponding to the amount of water in the water, thereby reducing the economic loss, and by collecting a certain amount of groundwater, groundwater acting on the building It is possible to prevent the occurrence of cracks in facilities due to injury or positive pressure, and to reduce the influence of buoyancy of groundwater on the facilities. By reducing the amount of rebar and concrete can be reduced, not only the construction cost but also the construction period can be reduced, which is very useful and economical.

Claims (3)

A water collecting pipe 20 is embedded in the support 110 of the facility, and a plurality of water collecting holes are formed to connect the lower end of the water collecting pipe 20 to the lower portion of the bottom slab 130 by about 2 m. Buried in depth, and the groundwater below the bottom slab 130 has a constant slope to the bottom of the bottom slab 130 in a variety of shapes such as lattice, such that the ground water flows into the sump 50 by gravity Buried to have a, and connected to the collecting pipe 20 of the support 110, the connection pipe 30 connected to the collecting pump 40 to pump to the sump 50, buried in the support 110, In the facility, characterized in that the water well (50) is installed in the water collecting well (50) for supplying the collected ground water to the water supply line to be used in the toilet. The method according to claim 1, wherein the packing (11) is provided between the perforated pipe (10) embedded in the lower portion of the bottom slab (130) and the bottom slab (130). . The method according to claim 1, wherein the facility comprises a water level check tube (80) which is made of a transparent tube and is formed through the lower portion of the bottom slab (130) to check the ground water level.