KR102003120B1 - A Sand Reduction System From Water Getting Underground Water - Google Patents

Abstract

The present invention relates to a groundwater removal water sand removal system, which comprises a body part formed in a hexahedron shape having a space therein, an inlet port provided at one side of the body part to communicate with the outside, An inclined bottom portion provided on the bottom surface of the body portion and inclined downwardly toward the inlet in the direction of the inlet; and an inclined bottom portion provided below the inlet to control the speed of the water flowing through the inlet, A filter unit for filtering out large foreign matter; a filter unit formed in a vertically plate-like shape so as to partition the inside of the filter unit and formed so as to be in contact with the filter unit, And a lower end thereof is formed with a first wall portion in which a predetermined space is formed so that the water can move, A first wall portion formed parallel to the first wall portion and having an upper end relatively lower than a highest water level of the water in the body portion and a lower end corresponding to the inlet; A second wall formed to be inclined downward in a direction of a bottom surface of the body, a second wall formed to be parallel to the second wall, And a lower end of the third wall portion may be formed to have a predetermined space so that the water can move, and a drain portion for discharging the sand to be discharged to the outside on the bottom surface of the filter portion. have.
And an inclined nozzle is further provided at an upper end of the inclined bottom so that water can flow in an inclined direction of the inclined bottom.

Description

{A Sand Reduction System From Water Getting Underground Water}

The present invention relates to a sand removal system, and more particularly, to a sand removal system for groundwater rechargeable water which can easily remove sand from water drawn from ground water or a waterway.

In many cases, agricultural crops such as rivers, ditches, rivers, nails, agricultural or other highways, and groundwater are pumped up and supplied to crops for the purpose of good growth and cultivation of crops.

However, since the agricultural water (river water, ground water) mentioned above is not only muddy but also contains various kinds of dusts and sand grains of a certain thickness, if the puddling water is pumped as it is, There is a problem that the sand grains are clogged in the feed nozzle, the sprinkler nozzle, the pesticide spray nozzle, the other water spray nozzle, and the groundwater storage facility, which is inconvenient or unusable.

Registration No. 10-1443906

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method and apparatus for simply removing foreign matter such as sand from a water and automatically processing deposits in the removal system, Removal system.

In order to achieve the above-mentioned object, the present invention provides a groundwater removal system for a groundwater, comprising: a body part formed in a hexahedron shape having a space therein; an inlet port provided at one side of the body part to communicate with the outside; A slope bottom portion provided on the bottom surface of the body portion and inclined downwardly from the outlet port toward the inlet port; and an inclined bottom portion provided below the inlet port, A filter unit for controlling speed and filtering out large foreign matter; a filter unit formed in a vertical plate shape so as to partition the inside of the body unit, And a lower end thereof is formed with a predetermined space so that the water can move And the upper end is formed to be relatively lower than the highest water level of the water in the body portion, and the lower end of the lower portion is formed to be lower than the uppermost water level of the water inside the body portion, A second wall portion formed to be inclined downward in a direction of a bottom surface corresponding to the inlet, and a second wall portion formed in a vertical plate shape so as to partition the inside of the body portion, And a lower end of the third wall portion is formed with a predetermined space so that the water can be moved. A drain portion for discharging the sand to the outside is disposed on the bottom surface of the filter portion And the like.

And an inclined nozzle is further provided at an upper end of the inclined bottom so that water can flow in an inclined direction of the inclined bottom.

The inflow port is further provided with a floating valve that selectively opens and closes by buoyancy so that water can be loaded up to the upper ends of the first wall portion and the third wall portion.

The drain unit includes a pump for generating a flow of the fluid, a drain channel extending from a bottom surface of the filter unit to guide the sand on the bottom surface to the outside by the pump, a control unit for controlling the operation of the pump, And a power supply unit for supplying power to the pump and the control unit.

The power supply unit uses a constant power source, a battery, or solar light.

The groundwater removal system according to the present invention has the following effects.

The flow of the water flowing through the inlet is slowed through several wall portions so that the relatively heavy sand or the like is stacked on the floor so that the water is automatically discharged to the outside and the sand is automatically removed from the water.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a configuration of a groundwater-removing water sand removal system according to the present invention. FIG.
2 is a view showing a configuration of another embodiment of a groundwater-removing water sand removal system according to the present invention;
3 is a view showing still another embodiment of the constitution of a groundwater desalination water sand removal system according to the present invention.
4 is a view showing a configuration of an inclined bottom portion and an inclined nozzle constituting the embodiment of Fig. 3;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a groundwater removal water sand removal system according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the groundwater removing water sand removing system according to the present invention comprises a body 10 formed in a hexahedron having a space 12 therein, a body 10 connected to the outside, A discharge port 16 provided on the other side of the body 10 so as to communicate with the outside and a discharge port 16 provided on the bottom surface of the body 10 for discharging the air from the discharge port 16, A slope bottom portion 20 inclined downward toward the inlet port 14 and a filter provided below the inlet port 14 to control the speed of the water flowing through the inlet port 14 and to filter out large foreign matter, And the upper part is formed to be in contact with the filter part 22 so as to be perpendicular to the upper part of the body part 10 and the upper part of the water inside the body part 10 The water level is formed at the same height as the water level, The first wall 30 is formed in a vertical plate shape so as to divide the inside of the body 10 and is formed parallel to the first wall 30 and parallel to the first wall 30, A second wall portion 40 formed to be lower than a maximum water level of the water in the body portion 10 and having a lower end inclined downward in a direction of a bottom surface corresponding to the inlet 14, And the upper end of the upper portion is formed to have the same height as the highest water level of the water in the body portion 10, A third wall portion 50 in which a predetermined space is formed so that the water can be moved and a drain portion 60 for discharging sand to the outside on the bottom surface of the filter portion 22 have.

First, a body 10 is provided in the groundwater removal water sand removal system according to the present invention. As shown in FIG. 1, the body portion 10 is provided with a space 12 therein to provide a space in which components and water constituting the present invention to be described below are loaded.

The body 10 may be made of metal or plastic.

An inlet (14) is provided at one side of the body (10). As shown in FIG. 1, the inlet 14 is formed as a flow path communicating with the outside, and serves to guide the water containing external water, i.e., sand, into the body 10.

The inlet (14) is provided with a valve (18). The valve 18 selectively shields water to be introduced into the main body 10. The valve 18 may be constructed in various ways for the above-mentioned functions, and is a floating valve that selectively opens and closes by buoyancy so that water can be loaded up to the upper ends of the first wall portion 30 and the third wall portion 50 Lt; / RTI >

A discharge port 16 is provided on the other side of the body portion 10. As shown in FIG. 1, the discharge port 16 is formed as a flow path communicating with the outside, and serves to guide water discharged from the inside of the discharge port to the outside.

On the bottom surface of the body 10, an inclined bottom 20 is provided. As shown in FIG. 1, the inclined bottom portion 20 is inclined downward from the discharge port 16 toward the inlet 14. This is because the water flowing along the inclined bottom portion 20 makes the flow difficult and the sand or the like moving along the inclined bottom portion 20 can be easily collected toward the discharge pump by its own weight.

As shown in FIG. 3, the inclined bottom portion 20 may have a bottom surface inclined in a direction of a vertex of a bottom surface forming the inclined bottom portion 20. This is for the purpose of concentrating the movement of sand moving along the inclined bottom part in one place easily.

A filter unit 22 is provided below the inlet 14. 1, the filter unit 22 is provided below the tip of the inlet 14 to control the speed of the water flowing through the inlet 14 and to filter out large foreign matter do.

A plurality of wall portions are provided in the body portion 10. The wall part divides the inside of the body part 10 and controls the flow and speed of water moving along the inside of the body part 10.

The wall portion may be configured as shown in FIG. 1 for the above-described functions. The wall portion is formed in a vertical plate shape so as to partition the inside of the body portion 10 and is formed so as to be in contact with the filter portion 22 so as to be orthogonal to the body portion 10. The upper end portion is the same as the highest water level of the water inside the body portion 10 The first wall 30 is formed in a vertical plate shape so as to partition the inside of the body 10, and the first wall 30 is formed to have a predetermined height, And a lower end of the second wall portion is formed to be lower than the highest water level of the water in the body portion 10 and the lower end of the second wall portion is formed to be inclined downward in the direction of the bottom surface corresponding to the inlet 14. [ (40) and a second wall portion (40), and an upper end of the second water passage is formed in a vertical plate shape so as to partition the inside of the body portion (10) Is formed at the same height as May be configured by a third wall portion 50 is formed a certain amount of space to be able to move the said water.

First, the first wall portion 30 is formed in a vertical plate shape so as to partition the inside of the body portion 10, as shown in FIG. The first wall portion 30 may be made of a metal material or a plastic material.

The first wall portion 30 is vertically formed so as to be in contact with the filter portion 22 and perpendicular to the filter portion 22. The upper end of the first wall portion 30 is formed to have the same height as the highest water level of the water in the body portion 10 and the lower end thereof is formed to have a predetermined space for the water to move.

A second wall portion 40 is provided on the side of the first wall portion 30 in parallel with the first wall portion 30. The second wall portion 40 may be formed in a vertical plate shape so as to partition the inside of the body portion 10, like the first wall portion 30.

The upper end of the second wall 40 is relatively lower than the highest water level of the water in the body 10 and the lower end of the second wall 40 is inclined downward in the direction of the bottom surface corresponding to the inlet 14.

A third wall portion 50 is provided beside the second wall portion 40 in parallel with the second wall portion 40. The third wall portion 50 may be formed in a vertical plate shape so as to partition the inside of the body portion 10, like the second wall portion 40.

Like the first wall portion 30, the upper end of the third wall portion 50 is formed to have the same height as the water level inside the body portion 10 and the highest water level. The lower end of the third wall portion 50 has a predetermined space .

As described above, the wall portion is constituted by the third wall portion 50 having a shape similar to that of the first wall portion 30, the second wall portion 40, and the first wall portion 30, The first wall portion 30 and the second wall portion 40 may be continuously and repeatedly arranged above the inclined bottom portion 20 as shown in FIG.

A drain portion 60 is provided below the filter portion 22 as shown in FIG. The drain portion 60 is provided below the filter portion 22 of the bottom surface of the inclined bottom portion 20 to discharge sand loaded on the bottom surface to the outside.

The drain portion 60 may include a pump 62 for generating a flow of the fluid and a drain portion 60 extending from the bottom portion of the filter portion 22 A drain passage 64 for guiding the sand on the bottom surface to the outside by the pump 62, a control unit 66 for controlling the operation of the pump 62, And a power supply unit 68 for supplying power to the control unit 66. [ The power source unit 68 may be a constant power source, a solar battery, or a battery.

The inclined bottom portion 20 may further include an inclined nozzle 70 at the uppermost end thereof. 1, the inclined nozzle 70 is connected to the inlet 14 to allow water in a part of the inlet 14 to flow into the inclined nozzle 70, And serves to provide power for the sand loaded on the part 20 to move down the inclined bottom part 20. [

In the case of the inclined nozzle 70, when the inclined bottom portion 20 is formed as shown in FIG. 3, the direction of the inclined nozzle 70 may be arranged in the lowermost corner direction as shown in FIG. 4 .

Hereinafter, the operation of the groundwater removal water removal system according to the present invention will be described in detail.

First, when the water flows into the body portion 10 through the inlet 14, the valve 18 of the inlet 14 is opened. The water introduced through the inlet 14 moves downward through the filter unit 22 to the body 10.

The water moves downward along the first wall portion 30 and then moves to the second wall portion 40 along the space at the bottom of the first wall portion 30. [ At this time, a large amount of sand contained in the water is loaded on the bottom surface of the first wall portion 30.

The water moved along the second wall 40 moves upward along the second wall 40 and then the upper end of the second wall 40 moves along the space between the second wall 40 and the second wall 40, And moves to the space between the third wall portions 50.

At this time, the sand contained in the water is loaded on the bottom surface, and the water moves downward along the third wall portion 50, so that the third wall portion (50) 50 and the body portion 10 of the apparatus.

At this time, sand is loaded on the inclined bottom portion 20. The sand placed below the first wall portion 30, the second wall portion 40 and the third wall portion 50 is moved to the drain portion 60 by self weight along the inclined bottom portion 20.

Particularly, water can be injected from the inclined nozzle 70 to provide power to move the sand to the drain portion 60.

The sand loaded at the inlet of the drain unit 60 is operated under the control of the control unit 66 and is discharged to the outside.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

It is therefore to be understood that the invention is not limited by the disclosed embodiments, but, on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the appended claims and their equivalents. It is to be understood that all changes or modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

10: body part 12: space
14: inlet 16: outlet
18: valve 20: inclined bottom
22: filter portion 30: first wall portion
40: second wall portion 50: third wall portion
60: drain portion 62: pump
64: drain flow path 66:
68: power supply unit 70: inclined nozzle

Claims (5)

A body portion formed in a hexahedron shape having a space therein;
An inlet provided at one side of the body for communicating with the outside;
An outlet provided on the other side of the body to communicate with the outside;
An inclined bottom portion provided on a bottom surface of the body portion and inclined downward from the outlet to the inlet;
A filter unit provided below the inlet and controlling the speed of the water flowing through the inlet and filtering out large foreign matter;
The upper part of the body is formed to have the same height as the highest water level of the water in the body part, and the lower part of the body part can be moved A first wall portion in which a predetermined space is formed;
And the upper end is formed to be relatively lower than the highest water level of the water in the body portion and the lower end is formed in a shape corresponding to the inlet A second wall portion formed to be inclined downward in the direction of the bottom surface;
And the upper end is formed to have the same height as the highest water level of the water inside the body portion and the lower end is formed to be able to move the water A third wall portion in which a predetermined space is formed; And
And a drain portion for discharging the sand to be loaded to the outside on the bottom surface of the filter portion,
And an inclined nozzle is further provided at an upper end of the inclined bottom to allow water to flow in an inclined direction of the inclined bottom,
In the inlet,
Further comprising a floating valve for selectively opening and closing the first wall portion and the third wall portion by buoyancy so that water can be loaded to the upper end of the first wall portion and the third wall portion,
The drain portion
A pump for generating a flow of fluid;
A drain channel extending from a bottom surface of the filter unit to guide the sand on the bottom surface to the outside by the pump;
A controller for controlling the operation of the pump;
And a power supply unit for supplying power to the pump and the control unit,
The power supply unit,
A constant power source, a battery or solar light,
Wherein the inclined bottom portion is inclined in the direction of the vertex of the bottom surface and the fluid of the inclined nozzle flows in the direction of the vertex so that the sand can flow by its own weight in the direction of the vertex.

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