JP4521626B2 - Well pumping equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to water pumps apparatus wells for pumping groundwater from the well.
[0002]
[Prior art]
FIG. 2 shows details of a well to be installed at a conventional excavation work site. Reference numeral 51 denotes a well, 52 denotes a pipe with a strainer, 53 denotes a strainer, 54 denotes a filter material, 55 denotes a perforation, and 56 denotes a hole wall. Conventionally, in the deep well method, the well 51 is formed by inserting the pipe 52 with the strainer into the perforation 55 excavated to a predetermined depth, and the filter material 54 is filled in the gap between the hole wall 56 and the pipe 52 with the strainer.
[0003]
Here, the pipe 52 with a strainer is a water collecting pipe in which a strainer 53 is provided at the tip or in the middle of a pipe formed of a material such as a steel pipe. The strainer 53 is a cylindrical body formed of a screen (net-like one), and has a function of preventing suction of dust and sand when collecting the groundwater 59 into the pipe 52 with the strainer. .
[0004]
In addition, the filter material 54 filled in the gap between the strainer-equipped pipe 52 and the hole wall 56 increases the flow rate of the groundwater 59 when the groundwater 59 collects in the well 51, thereby reducing fine particles 57 such as fine sand. Since they may be caught, they serve to prevent the strainer 53 from being clogged by adhering them to the filter material 54 in advance.
[0005]
The groundwater 59 in the ground passes through the filter material 54 and further passes through the strainer to remove dust, fine sand, etc., and is collected in a well and drained to the ground by a pump.
[0006]
[Problems to be solved by the invention]
In the conventional construction method, a mud film 58 is formed on the hole wall 56 during excavation, so that not only the water collection efficiency of the well 51 is likely to decrease, but also when the groundwater 59 flows into the well, As the flow velocity of the groundwater 59 increases, the groundwater 59 flows in one direction toward the well 51, so that the fine ground portion 57 is accumulated around the hole wall 56, and the water permeability of the ground tends to decrease. As a result, the amount of pumped water corresponding to the inherent water permeability of the ground cannot be secured, and the number of wells needed to be increased until the required water level height was obtained.
[0007]
In view of the above circumstances, an object of the present invention is to provide a well pumping device that can secure a pumping amount corresponding to the water permeability of the ground that the formed well originally has.
[0009]
[Means for Solving the Problems]
The well pumping device according to claim 1 , wherein a pipe with a strainer is inserted into a borehole excavated to a predetermined depth, and a filter material is filled between the pipe with the strainer and a hole wall of the borehole. A pumping device to be applied , wherein the pump is installed in the pipe with the strainer , and has a length that is provided vertically above the pump and reaches the ground. The groundwater pumped from the pump is grounded. A drainage pipe to be discharged, a return pipe branched from the ground portion of the pumping pipe and disposed in the filter material, and a part of groundwater attached to the return pipe and pumped by the pump is directed to the hole wall And a nozzle for spraying .
[0010]
The well pumping device according to claim 2 , wherein a valve for switching whether or not to inject a part of groundwater from the nozzle is provided in the vicinity of an attachment portion of the return pipe with the pumping pipe. It is characterized by that.
[0011]
Pumping the pump device of the well according to claim 3, the return pipe is along the hole wall from the ground portion of the riser pipe, it is characterized by being arranged in a straight line vertically downward direction parallel to the riser pipe .
[0012]
Pumping pump device of wells according to claim 4, the return pipe is characterized in that it is arranged vertically downward direction while forming a spiral along the hole wall.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows an embodiment of the present invention. Reference numeral 1 is a well, 2 is a pipe with a strainer, 3 is a strainer, 4 is a filter material, 5 is a perforation, and 6 is a hole wall. As apparent from FIG. 1, the well 1, in which to insert the strainer with pipe 2 in perforation 5 that is drilled to a predetermined depth, formed by filling a filter material 4 in the gap between the hole wall 6 and the strainer with pipe 2 The strainer-equipped pipe 2 and the filter material 4 are the same as those conventionally used.
[0014]
The principle of draining the groundwater 9 is the same as in the case of the conventional deep well method. The groundwater 9 in the ground gathers in the vicinity of the well 1 while gradually increasing the flow velocity toward the well 1 and engulfing the fine fraction 7. The fine particles 7 are removed by the material 4, pass through the strainer 3, collected in the well 1, pumped by the pumping pump device 10, and drained to the ground.
[0015]
The pumping pump device 10 includes a pump 11, a pumping pipe 12 that drains groundwater 9 pumped by the pump 11, and a part of the groundwater 9 pumped and pumped to the pumping pipe 12 to the outer peripheral surface of the well 1. It comprises a return pipe 13 for spraying and a nozzle 15 attached to the tip of the return pipe 13.
[0016]
The pump 11 provided in the pumping pump device 10 is the same as that conventionally used, and the pumping pipe 12 having a length in which the drain port 17 reaches the ground above the pump 11 vertically. Is provided. A return pipe 13 is attached to the ground portion of the pumping pipe 12 made of a material such as a steel pipe so as to be branched from the pumping pipe 12, and the strainer is provided vertically downward so that the pipe can be arranged along the drilling hole wall 6. The pipe 2 extends in parallel with a certain distance. The return pipe 13 is made of a material such as a steel pipe similar to the pumping pipe 12, but has a very small cross-sectional area compared to the pumping pipe 12, and its length is attached to the pumping pipe 12. It has the length of the grade located in the depth range which has the strainer 3 in the said pipe 2 with a strainer from a part.
[0017]
The return pipe 13 may be any material as long as it can be disposed along the excavation hole wall 6, and may be made of a material such as a deformable rubber tube having an elastic force.
[0018]
A nozzle 15 is provided at the tip of the return pipe 13. The nozzle 15 is for injecting high-pressure water. When the return pipe 13 is disposed, the nozzle 15 is installed so as to inject from the hole wall 6 of the well 1 to the outer peripheral surface of the well 1. The nozzle 15 jets fountain toward the outer peripheral surface of the well 1 to destroy the accumulated portion of the fine particles 7 accumulated around the well 1 and to generate mud generated in the borehole wall 6 when the well 1 is excavated. The membrane 8 is broken.
[0019]
Furthermore, the return pipe 13 is provided with a valve 14 at a portion where the return pipe 13 is attached to the pumping pipe. The jet fountain by the nozzle 15 uses the water pressure of the ground water 9 in the pumping pipe 12 generated by being pumped by the pump 11, and does not use new power.
[0020]
Next, the construction method of the present invention is shown. First, a predetermined position having the water permeable formation 16 to a relatively deep depth is excavated to a predetermined depth by a muddy water method or the like, and the strained pipe 2 having a smaller cross-sectional area than the excavated cross section is inserted into the excavated drill hole 5. Next, the pump 11 is inserted to a desired depth inside the pipe with strainer 2 and the pumping pump device 10 is arranged so that the drain port 17 of the pumping pipe 12 is located on the ground. Is attached so as to be parallel to the pipe 2 with strainer and so as to run over the hole wall 6, and arranged so that the nozzle 15 is located within a depth range where the strainer 3 of the pipe 2 with strainer is located. Thereafter, the filter material 4 is filled in the gap between the strainer-equipped pipe 2 and the hole wall 6. At this time, the nozzle 15 is installed in the direction of spraying from the hole wall 6 to the outer peripheral surface of the well 1.
[0021]
The groundwater 9 pumped by the pump 11 is drained from the pumping pipe 12 to the ground. In order to increase water collection efficiency when drainage has started, the valve 14 is opened, and a part of the groundwater 9 drained to the ground from the pumping pipe 12 is passed through the return pipe 13 from the nozzle 15 to the hole wall 6. Jet water fountain on the outer peripheral surface of the well 1 to destroy the mud film on the hole wall generated during the well excavation.
[0022]
Thereafter, the valve 14 is closed and drainage is continued. However, when the continuous drainage operation is performed, the fine particles 7 are accumulated on the outer peripheral surface of the well 1 and a tendency of decreasing the water collection amount of the well begins to appear. Therefore, the valve 14 is opened again, jet fountain is again applied to the outer peripheral surface of the well, and the fine particles 7 accumulated around the well 1 are destroyed.
[0023]
When several return pipes are attached to the pumping pipe 12 and jet fountain is performed from the hole wall 6 in a plurality of directions that are the outer peripheral surface of the well 1, fine particles accumulated in more locations are obtained. 7 can be destroyed, and the water collecting effect of the well 1 is further enhanced. (See Fig. 1 (a))
[0024]
Further, the return pipe 13 is formed in a spiral shape along the hole wall 6 in advance, and the nozzles 15 are attached not only to the tip of the return pipe 13 but also to the outer peripheral surface of the well 1 at several points in the middle. It is possible to perform jet fountains in all directions on the outer peripheral surface of the well 1 by only attaching one return pipe 13 to the pumping pipe 12. (See Fig. 1 (b))
[0025]
On the other hand, the pump 11 installed in the well is assumed to have sufficient capacity as compared with the pumped amount, and a pump that does not hinder pumping work even if a part of the pumped water is returned to the ground is applied.
[0026]
According to the above configuration, the return pump 13 is installed in the pumping pump device 10, and jet fountain can be performed at a desired position on the outer peripheral surface of the well 1, thereby destroying the mud film 8 formed during excavation of the borehole 5. In addition, fine particles 7 such as fine sand accumulated by continuing pumping of the well 1 are also washed out, and it is possible to obtain the same water collecting effect as when water permeability is improved and the radius of the well 1 is expanded. is there.
[0027]
Further, as shown by arrows in FIG. 1 (a), since the flow of the well 1 near the water by the water jet from the nozzle 15 is eliminated in one direction, the accumulation of fine fraction 7 of the outer peripheral surface of the well 1 It is also possible to prevent the contamination of the filter material 4 and the strainer 3.
[0028]
Further, since the water collecting effect of each well 1 is enhanced, the number of wells 1 for obtaining a necessary groundwater level can be reduced as compared with the conventional case.
[0030]
【The invention's effect】
A well pumping device according to claim 1, wherein a pipe with a strainer is inserted into a borehole excavated to a predetermined depth, and a filter material is filled between the pipe with the strainer and the hole wall of the borehole. A pumping device to be applied , wherein the pump is installed in the pipe with the strainer , and has a length that is provided vertically above the pump and reaches the ground. The groundwater pumped from the pump is grounded. A drainage pipe to be discharged, a return pipe branched from the ground portion of the pumping pipe and disposed in the filter material, and a part of groundwater attached to the return pipe and pumped by the pump is directed to the hole wall be those having a nozzle for jetting, the Te, by spraying water toward the nozzle installed in the filter material in the pore walls, the flow of water around the well in one direction For Kunar, prevents the accumulation of fine fraction in the outer peripheral surface of the well, can also reduce contamination of the filter material, it is possible to enhance the water collecting effect of the well. In addition, the mud film formed at the time of drilling can be destroyed, and the fine particles accumulated by continuing pumping of the well are washed out, improving water permeability and expanding the well radius. Can be obtained.
[0031]
According to the well pumping device for a well according to claim 2 , a valve for switching whether or not to inject a part of groundwater from the nozzle is provided in the vicinity of the attachment portion of the return pipe to the pumping pipe. Therefore, the jet fountain can be ejected continuously or intermittently as necessary.
[0032]
According to the well pumping device for a well according to claim 3 , the return pipe is arranged in a straight line in the vertical downward direction in parallel with the pumping pipe along the borehole wall of the well from the ground part of the pumping pipe. Therefore, by providing a nozzle at the tip of the return pipe, it is possible to perform jet fountain on the outer peripheral surface of the well without using new power with simple equipment.
[0033]
According to the well pumping device for a well according to claim 4 , since the return pipe is arranged vertically downward while forming a spiral along the borehole wall of the well, only the tip of the return pipe is provided on one return pipe. In addition, by providing the nozzles at a plurality of locations in the middle, it is possible to perform jet injection simultaneously at all desired positions on the outer peripheral surface of the well.
[Brief description of the drawings]
FIG. 1 is a view showing details of a well pumping device equipped with a return pipe according to the present invention.
FIG. 2 is a diagram showing details of a conventional pumping device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Well 2 Pipe with strainer 3 Strainer 4 Filter material 5 Perforation 6 Hole wall 7 Fine particle 8 Mud film 9 Ground water 10 Pump device 11 Pump 12 Pumping pipe 13 Return pipe 14 Valve 15 Nozzle 16 Permeable formation 17 Drain outlet 51 Well 52 Pipe with strainer 53 Strainer 54 Filter material 55 Perforation 56 Hole wall 57 Fine fraction 58 Mud film 59 Groundwater

Claims (4)

A pumping device applied to a well in which a pipe with a strainer is inserted into a borehole drilled to a predetermined depth, and a filter material is filled between the pipe with the strainer and the hole wall of the borehole,
A pump installed in the pipe with the strainer, a pumping pipe provided vertically above the pump and having a length reaching the ground, and discharging groundwater pumped from the pump to the ground; and A return pipe branched from the ground and disposed in the filter material, and a nozzle that is attached to the return pipe and injects a part of groundwater pumped up by the pump toward the hole wall. Features a well pumping device. 2. The well pump according to claim 1 , wherein a valve for switching whether or not to inject a part of groundwater from the nozzle is provided in the vicinity of an attachment portion of the return pipe with the pumping pipe. A well pumping device for a well. In water pumps according to claim 1 or 2, wherein the well, characterized in that the return pipe is that along the hole wall from the ground portion of the riser pipe, are arranged in a straight line vertically downward direction parallel to the riser pipe Well pumping equipment for wells. In water pumps device wells according to claim 1 or 2, wherein the return pipe is pumping pump device of the well, characterized by being arranged vertically downward direction while forming a spiral along the hole wall.

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