KR102101437B1 - Ground water supply unit and ground water supply system - Google Patents

Abstract

The present invention relates to an underground water supply unit and an underground water pumping apparatus including the same, which can reduce sizes of an upper protection and a pipe through a simplified structure for measuring a supply amount of underground water supplied by being pumped out of an underground deep well, and secure watertightness while improving assemblability through the bonding of materials in a wedge manner in a path through which the underground water pumped out from the underground deep well is supplied to the ground. According to the present invention, the underground water supply unit comprises: a meter assembly (10) including a supply pipe unit (11) receiving underground water pumped from the inside of an underground deep well, a meter unit (13) metering the underground water supplied from the supply pipe, and a discharge guide pipe unit (12) guiding the underground water which has passed through a meter to the outside; and a wedge-type coupling unit coupling the meter assembly with the upper protection in a wedge manner. The meter assembly is a dual pipe type in which the discharge guide pipe unit having an internal diameter greater than an external diameter of the supply pipe unit is arranged in a concentric circle shape on a circumference of the supply pipe unit to guide underground water which has passed through the meter to the outside via the circumference of the supply pipe unit. The wedge-type coupling unit includes: a first wedge plate (17) formed on the discharge guide pipe unit and having an inclined surface facing an upper protection; and a second wedge plate (22) formed on the upper protection to face the first wedge plate while being inclined in an opposite direction to the first wedge plate such that the first wedge plate is coupled to the second wedge plate in a wedge manner.

Description

Groundwater water supply unit and groundwater pumping device including the same {GROUND WATER SUPPLY UNIT AND GROUND WATER SUPPLY SYSTEM}

The present invention relates to a groundwater pumping device, and more specifically, to include a groundwater water supply unit to reduce the size of the upper guard and piping through a simplification of the structure of measuring the water supply amount (pumping water amount) of the groundwater pumped from the underground deep well and the same. It relates to a groundwater pumping device.

The present invention relates to a groundwater pumping unit and a groundwater pumping unit including the same, which secures water tightness through wedge-type coupling of materials in a path for supplying groundwater pumped from an underground well to the ground and improves assembly.

In general, ground water (ground water) is used as a main water resource along with surface water such as river water as filling or flowing water between underground strata and rocks. In addition, groundwater can be used as emergency water or alternative water resources in preparation for drought caused by climate change.

Groundwater deep wells are usually used by pumping underground water by excavating the rocky part below the surface layer and installing the underground water of the rocky aquifer into an underground well well pump.

The groundwater pumping device includes a pumping pump for pumping groundwater in an underground well, a pumping pipe for raising the groundwater pumped by the pumping pump to the ground, a water supply unit for supplying groundwater pumped by the pumping pipe, and a protection unit for protecting the water supply unit The upper protection hole is a basic configuration, and the water supply unit may include a meter for measuring the water supply amount of the groundwater.

As a patent document that can confirm the background technology of the present invention, according to Korean Patent Registration No. 10-1755446, the flowmeter of the flow measurement unit is provided with an inlet connector connected to a pumping pipe and an outlet connector connected to an external discharge pipe. Since the connector is formed at the bottom and the water outlet connector is formed at the side, the size of the flow measurement unit is inevitably increased, and thus, the size of the upper protective hole is also increased.

In addition, when assembling the assembly of the flow measurement unit and the pumping pipe, the detachable means of the flow measurement unit and the water discharge pipe are difficult to maintain their watertightness and the detachment is cumbersome.

Republic of Korea Patent No. 10-1568902, the discharge pipe head is coupled wedge-type to the front and rear guides by a pressing means including a wedge, but because the discharge pipe head is only inserted into the groove of the front and rear guides to prevent the shaking in all directions There is a disadvantage that it is weak and torsion occurs.

Republic of Korea Registered Patent No. 10-1755446 Republic of Korea Registered Patent No. 10-1063950 Republic of Korea Registered Patent No. 10-1568902

The present invention is to solve the problems of the prior art, through the simplification of the structure to measure the amount of water (pumping water) of the groundwater pumped from the underground wells and water supply unit to reduce the size of the upper guard and piping and groundwater containing the same The purpose is to provide a pumping device.

Another object of the present invention is to provide a groundwater pumping unit and a groundwater pumping unit including the same and securing the watertightness through wedge-type joining of materials in a path for supplying groundwater pumped from an underground well to the ground, and improving assembly. It has a purpose.

Ground water supply unit according to the present invention for achieving the above object, the supply pipe portion receiving the ground water pumped in the underground well, the meter unit for measuring the ground water supplied from the supply pipe and guides the ground water passing through the meter to the outside A meter assembly consisting of a discharge induction pipe part for doing so; It includes a wedge-type coupling portion for wedge-type coupling the meter assembly and the upper protective hole, the meter assembly is the discharge induction pipe portion is disposed in the form of concentric circles around the supply pipe portion with an inner diameter larger than the outer diameter of the supply pipe portion The upper part is connected to the discharge part of the meter, while the bottom part is blocked, and is a double pipe type that guides the groundwater that has passed through the meter to the outside after passing through the circumference of the supply pipe part, and the wedge-type coupling part protrudes tubularly into the discharge guide tube part. The first wedge plate is formed at an end of the discharge port to be inclined and a surface facing the upper protective hole is formed to be inclined in an opposite direction to the first wedge plate in the first protective plate and the upper protective hole is wedge-type It characterized in that it comprises a second wedge plate coupled to.

The present invention is a double pipe-type meter assembly consisting of a supply pipe part receiving ground water pumped from an underground deep well, a meter part measuring the ground water supplied from the supply pipe, and a discharge induction pipe part for guiding the ground water passing through the meter to the outside. It characterized in that it comprises a.

The present invention includes first and second wedge plates formed respectively on the discharge induction pipe portion and the upper protective hole and coupled wedge to each other, and load distribution plates formed on the discharge induction pipe portion and coupled to the second wedge plate. The first wedge plate is inserted into the groove of the second wedge plate, while the load distribution plate is characterized in that it surrounds the circumference of the second wedge plate.

According to the groundwater water supply unit according to the present invention and the groundwater pumping device including the same, it reduces the size of a pipeline for metering and supplying groundwater through a double pipe type meter assembly, thereby minimizing the water supply unit and the upper protection hole, thereby improving workability. It has the effect of reducing construction costs.

In addition, through the wedge-type coupling of the water supply unit, watertightness is secured in a path for supplying groundwater to the ground, and assembleability is improved, thereby preventing groundwater contamination and loss due to leakage.

1 is an installation state diagram of a groundwater pumping device including a groundwater supply unit according to the present invention.
Figure 2 is a cross-sectional view of the assembled state of the ground water supply unit and the upper protector according to the present invention.
Figure 3 is a perspective view of the separation of the ground water supply unit and the upper protection hole according to the present invention.
Figure 4 is a perspective view of an assembled state of the ground water supply unit and the upper protection according to the present invention.
5 is a view showing an assembled state of the meter assembly applied to the ground water supply unit according to the present invention.
6 is a view showing the assembled state of the first and second wedge plates applied to the ground water supply unit according to the present invention.
7 is a view showing an example in which the ground water supply unit according to the present invention consists of only wedge-type coupling parts.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the upper protection hole for deep water drilling according to the present invention. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of known functions or configurations may be omitted to clarify the gist of the present invention.

1 to 4, the groundwater supply unit according to the present invention includes a double pipe type meter assembly 10.

The meter assembly 10 is a form in which the meter 13 is configured at the top while the supply pipe portion 11 and the discharge induction pipe portion 12 are configured in the form of a double pipe, and the supply pipe portion 11 is inside and the discharge induction pipe portion (12) is in the form of a concentric circle arranged outside.

The supply pipe part 11 supplies underground water to the meter 13 by using the space inside, and the upper and lower parts are open tubular, the lower part is connected to the pumping tube, and the upper part corresponds to the inlet of the meter 13 The underground water pumped from the deep well is supplied to the meter 13.

The discharge induction pipe portion 12 discharges the groundwater that has passed through the meter 13 using the space between the circumferential portion of the supply pipe portion 11 and its inner wall, so that the inner diameter is larger than the outer diameter of the supply pipe portion 11 It is formed and the upper part should be opened to communicate with the discharge part of the meter 13, but the lower part is configured to be blocked by the load distribution plate 14.

The load distribution plate 14 is provided with a hole in the center so that the supply pipe portion 11 is inserted through the hole, so that the supply pipe portion 11 and the pumping pipe can be connected, and the discharge induction pipe portion 12 is provided on the upper surface. The bottom portion of the discharge induction pipe portion 12 is blocked through a structure in which the bottom portion is seated (including sealing for securing water tightness).

Here, since the discharge induction pipe portion 12 is seated on the upper surface of the load distribution plate 14, it does not fall to the bottom, but the supply pipe portion 11 may deviate to the lower portion of the load distribution plate 14 so as to prevent this The support jaw (11a) is included to be supported on the upper surface of the load distribution plate (14).

The support jaw 11a may have various shapes such as a ring shape.

Although not shown in the drawing, the discharge induction pipe portion 12 is arranged on the upper surface of the load distribution plate 14 so as to align the assembly position of the discharge induction pipe portion 12 and to maintain the gap between the discharge induction pipe portion 12 and the supply pipe portion 11 ) May include an alignment jaw supported on the inner wall. The alignment jaw is also possible through the long formation of the support jaw 11a.

In addition, the load distribution plate 14 is provided with wiring holes 14a for wiring such as power lines.

The connection between the supply pipe portion 11 and the discharge induction pipe portion 12 and the meter 13 may be made through the meter housing 15.

As shown in FIG. 5, the meter housing 15 has a double structure by the inner housing 15-1 and the outer housing 15-2 in accordance with the double structure of the supply pipe portion 11 and the discharge induction pipe portion 12. It is made of a meter 13 is mounted structure.

The meter housing 15 includes a transparent window 15a at the top, and can be checked from the outside.

In the inner housing 15-1, the supply pipe 11 is inserted at the bottom and the meter 13 is mounted at the top.

The outer housing 15-2 is larger in size than the inner housing 15-1, and protects the meter 13 by enclosing a space on the outside of the inner housing 15-1 and protecting the space. 12) through the inside and through the meter (13) leads to the discharge induction pipe portion (12).

The outer housing 15-2 is opened and closed through a cover for assembly of the meter 13 or the like.

The meter housing 15 may include a support plate 15-3 supporting the inner housing 15-1 and the outer housing 15-2 at the bottom while being supported at the top of the discharge induction pipe part 12.

A lifting ring for lifting the weighing assembly 10 may be configured in the weighing housing 15.

In the meter assembly 10 according to the present invention, a discharge port 16 is configured in the discharge induction pipe portion 12 to supply groundwater flowing into the discharge induction pipe portion 12 through the meter 13.

A separate water supply pipe may be connected to the discharge port 16 based on the shape of a hole through which the inside and the outside of the discharge induction pipe portion 12 pass.

Alternatively, the meter assembly 10 of the present invention may be installed and used in the upper protection hole 20, at this time, to ensure water tightness between the water supply port 16 and the water supply port 21 of the upper protection hole 20 Wedge-type coupling can be added.

The wedge-type coupling portion is formed in a portion for supplying the groundwater passing through the meter 13 to the outside of the upper protection hole 20, the discharge port 16 and the upper protection hole protruding tubularly to the discharge induction pipe portion 12 It is formed opposite to the water supply port 21 of (20). The discharge port 16 and the water supply port 21 are both integrally formed in the discharge induction pipe portion 12 and the upper protection hole 20 and prefabricated.

A first wedge plate 17 is formed at an end of the discharge port 16, and a second wedge plate 22 is formed at an end portion of the water supply port 21 that faces the first wedge plate 17.

The first wedge plate 17 is a rectangle having a larger area than the discharge port 16 formed of a circular tube, and is inclined in a shape in which the cross-sectional area is narrowed from the top to the bottom when viewed from the side, that is, the discharge is induced from the top to the bottom. It has an inclination in the direction toward the tube portion 12.

The second wedge plate 22 is a square of a larger area than the water supply port 21 formed of a circular tube, and when viewed from the side, it is inclined in a shape that increases in cross-sectional area from the top to the bottom, that is, the discharge induction from the top to the bottom. It has an inclination in the opposite direction to the first wedge plate 17 which is the direction toward the tube portion 12.

According to the inclination of the first and second wedge plates 17 and 22, the adhesion between the discharge port 16 and the water supply port 21 is increased to prevent groundwater from leaking through these 16 and 21. 2, the wedge plates 17 and 22 include a coupling structure for reducing left and right twisting to further improve water tightness, and as shown in FIGS. 4 and 6, the first wedge plates 17 have protrusions 18 on both sides of the end. ) Is provided in the form of "T" and the second wedge plate 22 is provided with a groove 23 surrounding the protrusion 18 of the first wedge plate 17. The groove 23 surrounds the entire projection 18 and prevents twisting of the left and right sides of the first wedge plate 17 and departure from the front and rear sides.

In addition, in order to more reliably prevent the twisting of the meter assembly 10, the load distribution plate 14 is provided with a groove 14b coupled with the second wedge plate 22.

Therefore, the meter assembly 10 has the first wedge plate 17 is inserted into the groove 23 of the second wedge plate 22 while the load distribution plate 14 is the outside of the second wedge plate 22. Because it wraps, it prevents twisting.

Between the opposing surfaces of the first and second wedge plates 17 and 22, an index ring for maximizing water tightness is mounted.

According to such a configuration, when the first wedge plate 22 is fitted into the groove 14b of the load distribution plate 14 at the lower portion and then sliding downward, the first wedge plate 17 naturally becomes the second. It is inserted into the groove 23 of the wedge plate 22 and is very easy to install.

As shown in FIG. 1, the groundwater pumping apparatus including the groundwater water supply unit according to the present invention is installed in the underground deep well 1, the pumping pump 30 for pumping groundwater, and the pumping pipe connected to the pumping pump 30 ( 40), the upper protection hole (20) installed in the upper part of the underground core (1), inserted into the upper protection hole (20) and connected to the pumping pipe (40) to measure the ground water being pumped, and then the upper protection hole (20) It includes a ground water supply unit 10 for discharging to the outside.

The upper protection hole 20 is a tubular shape in which the upper and lower portions are open, and the cover 24 is detachably coupled to the upper portion, and the support jaw supports the load distribution plate 14 of the groundwater supply unit 10 at the bottom to support it ( 20a), a wiring port 25 for wiring power lines for applying power to the pump pump 30 from outside to inside.

In addition, the bottom of the cover 24 of the upper protective hole 20 includes an air vent 26 for discharging the gas (air) inside the upper protective hole 20 to the outside of the upper protective hole 20.

The support jaw 24 includes a portion for wiring the power line and can be variously formed on the inner circumferential surface of the upper protection hole 20.

The groundwater supply unit according to the present invention is composed of the features of the double-tube type meter assembly 10 and the features of the wedge-type coupling parts (first and second wedge plates 17 and 22, load distribution plate 14), , These features are not necessarily limited to being together, and each of them can be used alone, that is, only the double-tube type meter assembly and the wedge-type coupling part (see FIG. 7) are all possible.

1: underground feeling,
10: meter assembly,
11: supply pipe portion, 12: discharge induction pipe portion
13: meter unit, 14: load distribution plate
15: meter housing, 16: discharge port
17: first wedge plate,
20: upper protector,
21: water supply port, 22: second wedge plate
23: groove, 24: base
30: pumping pump, 40: pumping pipe

Claims (6)

Consists of a supply pipe part (11) receiving ground water pumped from the underground core, a metering part (13) for measuring ground water supplied from the supply tube, and a discharge induction pipe part (12) for guiding the ground water passing through the meter to the outside A meter assembly 10;
Includes a wedge-type coupling portion for coupling the meter assembly wedge-type with the upper protective hole,
In the meter assembly, the discharge induction pipe part is disposed in the form of a concentric circle on the circumference of the supply pipe part with an inner diameter larger than the outer diameter of the supply pipe part, while the upper part is connected to the discharge part of the meter and the bottom part is blocked and the groundwater passes through the meter. It is a double pipe type that leads to the outside after passing through the circumference of the supply pipe,
The wedge-type coupling portion is formed at an end portion of the discharge port protruding tubularly to the discharge induction pipe portion, and a first wedge plate 17 formed at an inclined surface facing the upper protective hole and the first wedge plate at the upper protective hole And a second wedge plate 22 formed opposite to each other so that the first wedge plate is wedge-shaped.
The discharge induction pipe portion includes a load distribution plate supported on the upper protection hole at the bottom, and the first wedge plate is inserted into the second wedge plate while the load distribution plate wraps the second wedge plate from the outside. Groundwater supply unit, characterized in that. delete A discharge induction pipe unit receiving underground water pumped from the underground core and discharging it to the ground;
The upper protective hole is installed outside the discharge induction pipe portion to protect the discharge induction pipe portion, and includes a wedge-type coupling portion for coupling the discharge induction pipe portion in a wedge manner,
The wedge-type coupling portion is formed at an end of the discharge port protruding tubularly to the discharge induction pipe portion, and a first wedge plate having an inclined surface facing the upper protective hole and an upper protective hole in the opposite direction to the first wedge plate Is formed to be inclined toward the second wedge plate comprises a second wedge plate coupled to the wedge type,
The discharge induction pipe portion includes a load distribution plate supported on the upper protection hole at the bottom, and the first wedge plate is inserted into the second wedge plate while the load distribution plate wraps the second wedge plate from the outside. Groundwater supply unit, characterized in that. delete A pump pump installed in the underground core to pump groundwater;
A pumping pipe connected to the pumping pump;
An upper protection hole installed above the underground core;
Connected to the pumping pipe is inserted into the upper protection hole, the groundwater supply unit characterized in that it comprises a groundwater supply unit according to claim 1 or claim 3 to discharge the water to the outside of the upper protection hole after metering the pumped water. Groundwater pumping device containing. The method according to claim 5, It is installed in the upper protective hole, the ground water pumping apparatus including a ground water supply unit characterized in that it comprises an air vent for discharging the air inside the upper protective hole to the outside.

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