JP5212070B2 - Common well and construction method of regular well - Google Patents

Description

  The present invention relates to a method of using a construction well constructed for draining water as a regular well after completion of construction when excavating the ground by an open-cut method.

Conventionally, when excavating the ground by the open-cut method, a construction well is constructed to drain the water and pump the groundwater to lower the groundwater level.
For example, in Patent Document 1, a casing pipe having a strainer at the lower end is installed in a construction well, and groundwater collected in the casing pipe through this strainer is pumped up by a pump to obtain groundwater in the ground. A method of reducing is disclosed.
JP 2003-268759 A

  However, since the construction well described in Patent Document 1 uses a steel pipe as a casing pipe, it can be used during the construction period. However, since rust is generated immediately and corrosion proceeds, it should be used as a regular well after construction. There was a problem that could not.

  Then, this invention is made | formed in view of the above conventional problems, Comprising: The regular well and the construction method of making it possible to use the construction well constructed for draining for a long period of time are provided. For the purpose.

  In order to achieve the above object, the common well of the present invention is a common well constructed using holes provided for pumping up groundwater around the underground structure when constructing the underground structure, A hollow pipe having corrosion resistance and a steel pipe are connected to form a cylinder, and the hollow pipe portion is installed in the hole so as to be located in the aquifer portion in the ground to collect groundwater inward. A water-soluble outer tube, a corrosion-resistant cylindrical inner tube that is installed in the outer tube and collects groundwater inward, and a gap formed between the outer tube and the inner tube Provided with a sealing member that prevents vertical movement of air in the gap and a pump for pumping up groundwater in the inner pipe.

  According to the common well of the present invention, a hollow pipe having corrosion resistance and a steel pipe are connected and formed into a cylindrical shape, and the hollow pipe portion is installed in the hole so as to be located in the aquifer portion in the ground. Rust etc. because it is equipped with an outer pipe that can collect groundwater inward, and a cylindrical inner pipe that is installed in the outer pipe and can collect groundwater inward and has corrosion resistance. Corrosion does not occur. Therefore, a regular well can be used for a long time.

  Moreover, since the sealing member for preventing the vertical movement of the air in the clearance gap between an outer pipe and an inner pipe is provided, groundwater does not touch air. Therefore, iron in groundwater does not oxidize or adversely affect the ecology of microorganisms.

  Furthermore, since the pump for pumping up the ground water in the inner pipe is provided, the ground water can be pumped up appropriately.

  In the present invention, if the inner tube and the sealing member can be inserted into and removed from the outer tube, the inner tube and the sealing member can be pulled out to clean the inside of the outer tube. Therefore, since maintenance can be performed reliably, a regular well can be used over a long period of time.

  Moreover, in this invention, if the said pump shall be installed in the said inner pipe, it can pump a groundwater efficiently.

  Furthermore, in the present invention, the hole is provided in the vicinity of a planned construction location of the underground structure, and is provided in a retaining wall for preventing inflow of groundwater and earth and sand to the planned construction location. Good. If it does in this way, in building an underground structure, the hole built in the retaining wall can be used as it is for the purpose of lowering the groundwater level.

Further, in the construction method of the common well of the present invention, in constructing the underground structure, in the construction method of the regular well constructed using the holes provided for pumping up the groundwater around the underground structure,
Corrosion-resistant hollow pipe and steel pipe are connected to form an outer pipe that can collect groundwater inward so that the hollow pipe part is located in the aquifer part of the ground An outer pipe installation step for installing in the hole, an inner pipe installation step for installing a cylindrical inner pipe in the outer pipe that has corrosion resistance and can collect groundwater inward, the outer pipe and the A sealing member installation step for installing a sealing member for preventing vertical movement of air in a gap formed between the inner pipe and the inner pipe, and a pump for pumping up groundwater in the inner pipe are installed. And a pump installation step.

  According to the construction method of the common well of the present invention, when constructing an underground structure, a hole constructed for the purpose of lowering the groundwater level can be used as it is.

  In addition, a hollow tube having corrosion resistance and a steel tube are connected to form a cylindrical shape, and the hollow tube portion is installed in the hole so as to be located in the aquifer portion in the ground so that the groundwater can flow inward. Corrosion such as rust does not occur because the outer pipe that can collect water and the cylindrical inner pipe that is installed in the outer pipe and collects groundwater inward and has corrosion resistance are provided. Therefore, a regular well can be used for a long time.

  According to the present invention, a construction well constructed for draining water can be used as a regular well.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In addition, although the following embodiment demonstrates the case where a common well is built in the soil-cement column wall which is a retaining wall, this invention is applied also when installing a common well in retaining walls, such as RC. can do.

  FIG.1 and FIG.2 is the perspective view and longitudinal cross-sectional view which show the state which installed the common well 1 which concerns on 1st embodiment of this invention in the soil cement pillar row wall 2. FIG.

  As shown in FIGS. 1 and 2, the soil cement column wall 2 is constructed so as to surround the periphery of the planned excavation site 4 excavated by an open-cut method in order to construct an underground structure 3 (not shown), The lower end thereof is installed so as to penetrate the ground surface layer 5 and reach the upper part of the clay layer 6 which is an impermeable layer.

  In the soil cement column wall 2, there is a hole 8 drilled as a construction well when the underground structure 3 is constructed at the planned excavation site 4. The holes 8 penetrate the soil cement column wall 2 in the depth direction and reach the lower end of the sand layer 7.

The common well 1 is installed in the hole 8 and is installed in the outer pipe 9 for pumping the ground water in the outer pipe 9 to the ground, and the cylindrical outer pipe 9 that can collect ground water inside. The inner pipe 10, the sealing member 11 provided in the gap formed between the outer pipe 9 and the inner pipe 10, and a pumping pump 12 for pumping up the groundwater.
The pumped-up groundwater is used for various uses in the underground structure 3 after construction.

  The outer tube 9 is in contact with the inner peripheral surface of the hole 8, penetrates through the soil cement column wall 2 in the depth direction, and protrudes from the lower end of the soil cement column wall 2 to the bottom of the hole 8. It is installed to do.

  Around the lower end portion of the outer tube 9 below the soil cement column wall 2 is provided with a filter portion 13 filled with sand for allowing groundwater to pass therethrough, and provided above the filter portion 13. A bentonite portion 14 filled with bentonite for preventing the passed groundwater from moving upward is formed. The filter part 13 and the bentonite part 14 are provided in the sand layer 7 part and the clay layer 6 part around the outer pipe 9, respectively.

  A screen 16 is provided in the outer pipe 9 of the sand layer 7 so that groundwater can flow into the pipe, and the groundwater that has passed through the filter portion 13 flows into the outer pipe 9 through the screen 16.

  For example, the outer pipe 9 is formed by connecting a hollow pipe 9a having corrosion resistance such as stainless steel and a steel pipe 9b by welding, for example, and the hollow pipe 9a is installed in the sand layer 7 portion. A steel pipe 9b portion is installed in the row wall 2 portion and the clay layer 6 portion. The connection position 9c between the hollow pipe 9a and the steel pipe 9b only needs to be at a position where there is no groundwater. A connection position 9c was provided. Corrosion such as rust does not occur even if the hollow tube 9a is disposed in the portion in contact with the ground water on the bottom side of the hole, and there is no ground water around the steel tube 9b, so that no corrosion occurs. Can be used for a long time.

  In addition, the length of the hollow tube 9a and the steel pipe 9b is determined based on the result of this hydraulic survey after the hydraulic survey that investigates the geological condition of the ground and the hydraulic state such as water permeability. Moreover, the connection operation | work with the hollow pipe 9a and the steel pipe 9b is implemented on the ground or a factory.

  The outer tube 9 also has a function as a structural member for improving the shear strength against the shear load acting perpendicularly to the wall surface of the soil cement column wall 2 at the time of an earthquake or the like. Around the upper end of the outer tube 9, a manhole 17 is constructed in the soil cement column wall 2 for use during maintenance.

The inner pipe 10 is made of, for example, a stainless steel pipe having corrosion resistance, and is installed in the outer pipe 9 so as to reach the lower end of the sand layer 7. The inner pipe 10 of the sand layer 7 portion is provided with a screen 16 so that groundwater can flow into the pipe, and the groundwater collected in the outer pipe 9 flows into the inner pipe 10 through the screen 16.
As described above, the inner tube 10 has corrosion resistance and does not cause corrosion such as rust, so that it can be used for a long time.

  A cap 18 is attached to the upper end surface of the inner tube 10 to prevent air from entering and leaving the inner tube 10 and the outside. A screw is cut in each of the outer peripheral lower end of the cap 18 and the inner peripheral upper end of the inner tube 10, and the cap 18 is attached to the upper end of the inner tube 10 by being screwed into the inner tube 10. In addition, an O-ring 19 is attached to the threaded portion of the cap 18, whereby the movement of air between the inside and the outside of the inner tube 10 can be prevented while being attached to the inner tube 10.

  The sealing member 11 is installed between the outer periphery of the inner tube 10 and the inner periphery of the outer tube 9 above the screen 16 and below the connection position 9c. The sealing member 11 is a bag-like elastic body that expands by press-fitting a fluid such as air or water into the inside thereof, and is in close contact with the outer periphery of the inner tube 10 and the inner periphery of the outer tube 9. To do. Thereby, the vertical movement of the air and groundwater in a clearance gap can be prevented. In the present embodiment, a packer is used as the sealing member 11.

  Inside the inner pipe 10, a pumping pump 12 and a pumping pipe 20 for supplying groundwater pumped by the pumping pump 12 to the ground are installed. In addition, on the ground, a ground pipe 21 is connected to the pumping water pipe 20 to supply the pumped ground water to the water storage tank 22. In addition, when raising / lowering the pumping pump 12, the inner pipe | tube 10 is utilized as a guide.

  The groundwater is supplied to the water storage tank 22 by operating the pumping pump 12 so that the groundwater in the inner pipe 10 passes through the pumping pipe 20 and the ground pipe 21.

  At the time of periodic inspection, first, the lid of the manhole 17 and the cap 18 of the inner pipe 10 are removed, and the pumping pump 12 is pulled up to the ground. Next, the pressure of the sealing member 11 is released and contracted to be pulled up to the ground. Thereafter, the inner pipe 10 is also lifted to the ground, and the inside of the outer pipe 9 is cleaned.

  Next, another embodiment of the common well 1 will be described. In this embodiment, instead of the above-described ground pipe 21, an embedded pipe 23 penetrating through the inner pipe 10, the outer pipe 9, the soil cement column wall 2 and the wall of the underground structure 3 is used.

  FIG. 3 is a diagram showing another example of the common well 1 according to the present embodiment. As shown in FIG. 3, the burying pipe 23 includes an embedded portion 23 a previously embedded in the wall surface when the underground structure 3 is constructed, a water tank 22 provided in the underground structure 3 after construction, and this water tank. 22 and a building portion 23b that connects the buried portion 23a, and a well portion 23c that connects the buried piping and the inner pipe 10. The building part 23b and the well part 23c are provided with opening and closing valves 23d and 23e, respectively.

  The groundwater is supplied to the water tank 22 in the underground structure 3 by operating the pumping pump 12 so that the groundwater in the inner pipe 10 passes through the pumping pipe 20 and the burying pipe 23.

  According to the regular well 1 in the present embodiment described above, the hollow pipe 9a having corrosion resistance is installed so as to be located in the sand layer 7 portion where the groundwater exists, and the steel layer 9b is the clay layer 6 and the soil cement where the groundwater does not exist. Since the outer tube 9 installed in the columnar wall 2 and the inner tube 10 installed in the outer tube 9 and having corrosion resistance are provided, corrosion such as rust does not occur. Therefore, the regular well 1 can be used for a long time.

  Further, a sealing member 11 for preventing the vertical movement of the air in the gap between the outer tube 9 and the inner tube 10 and a cap 18 for preventing the air from entering and exiting the inner tube 10 and the outside are provided. Because the groundwater does not touch the air. Therefore, iron in groundwater does not oxidize or adversely affect the ecology of microorganisms. And since the raise of a groundwater level can also be prevented with the sealing member 11, the steel pipe 9b does not touch groundwater.

  Moreover, since the pumping pump 12 for pumping up the ground water in the inner pipe 10 is provided, the ground water can be pumped up appropriately.

  Furthermore, since the inner tube 10 and the sealing member 11 can be inserted into and removed from the outer tube 9, they can be lifted to the ground to clean the inside of the outer tube 9. Therefore, since maintenance can be carried out reliably, the regular well 1 can be used over a long period of time.

  And in constructing the underground structure 3, the holes 8 constructed in the soil cement column wall 2 can be used as they are for the purpose of lowering the groundwater level. This eliminates the need to newly drill a hole for the regular well 1.

  In addition, in this embodiment, although the case where the common well 1 was installed in the earth retaining wall which is the soil cement pillar row wall 2 was demonstrated, it is not limited to this, The ground outside the earth retaining wall You may provide directly in.

  Moreover, in this embodiment, although the case where a stainless steel tube was used as the outer tube | pipe 9 and the inner tube | pipe 10 was demonstrated, it is not limited to this, For example, you may use a vinyl chloride tube and a plastic tube.

  Moreover, in this embodiment, although the case where groundwater was pumped up as normal middle water was demonstrated, it is not limited to this, The inner pipe 10 and the sealing member 11 are pulled up to the ground, and large pumping up By inserting the pump into the outer pipe 9, a large amount of ground water can be pumped, so that it can be used in an emergency such as when a disaster occurs.

  Furthermore, in this embodiment, although the case where the common well 1 was installed in the ground which consists of the surface layer 5, the clay layer 6, and the sand layer 7 was demonstrated, a stratum is not limited to these, For example, all are sand layers. 7, in this case, as shown in FIG. 4, the outer tube 9 and the soil cement are provided immediately below the lower surface of the soil cement column wall 2 and around the lower end of the outer tube 9. A bentonite portion 14 is provided to prevent inflow of groundwater between the column wall 2 and the hollow tube 9a and the steel tube 9b are connected so that the connection position 9c is in the soil cement column wall 2. May be.

  In the present embodiment, the case where the hole 8 is provided as a construction well has been described. However, the present invention is not limited to this and may be provided for other purposes.

It is a perspective view which shows the state which installed the common well which concerns on embodiment of this invention in the soil cement column wall. It is a longitudinal cross-sectional view which shows the state which installed the common well which concerns on embodiment of this invention in the soil cement column wall. It is a figure which shows the other Example of the regular well which concerns on this embodiment. It is a figure which shows the other Example of the regular well which concerns on this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Common well 2 Soil cement column wall 3 Underground structure 4 Excavation place 5 Surface layer 6 Clay layer 7 Sand layer 8 Hole 9 Outer tube 9a Hollow tube 9b Steel pipe 9c Connection position 10 Inner tube 11 Sealing member 12 Pumping pump 13 Filter Part 14 Bentonite part 16 Screen 17 Manhole 18 Cap 19 O-ring 20 Pumping pipe 21 Ground pipe 22 Water tank 23 Buried pipe 23a Buried part 23b Building part 23c Well part 23d, 23e Open / close valve

Claims (5)

In constructing an underground structure, it is a common well constructed using holes provided for pumping up groundwater around the underground structure,
A hollow pipe having corrosion resistance and a steel pipe are connected to form a cylinder, and the hollow pipe portion is installed in the hole so as to be located in the aquifer portion in the ground to collect groundwater inward. A water capable outer tube,
A cylindrical inner pipe having corrosion resistance and installed in the outer pipe and capable of collecting groundwater inward;
A sealing member that is provided in a gap formed between the outer pipe and the inner pipe and prevents vertical movement of air in the gap;
A regular well comprising a pump for pumping up ground water in the inner pipe.   2. The common well according to claim 1, wherein the inner tube and the sealing member are insertable into and removed from the outer tube.   The common well according to claim 1, wherein the pump is installed in the inner pipe.   The said hole is provided in the circumference | surroundings of the construction planned location of the said underground structure, and is provided in the earth retaining wall for preventing inflow of the groundwater and earth and sand to the said construction planned location. Common service well as described in In constructing an underground structure, in the construction method of a common well constructed using a hole provided for pumping up groundwater around the underground structure,
Corrosion-resistant hollow pipe and steel pipe are connected to form an outer pipe that can collect groundwater inward so that the hollow pipe part is located in the aquifer part of the ground An outer tube installation step to be installed in the hole,
An inner pipe installation step in which a cylindrical inner pipe having corrosion resistance and capable of collecting groundwater inward is installed in the outer pipe;
A sealing member installation step of installing a sealing member for preventing vertical movement of air in a gap formed between the outer pipe and the inner pipe in the gap;
And a pump installation step for installing a pump for pumping up groundwater in the inner pipe.

Images