KR101666663B1 - The underground water purifier of a tube well type - Google Patents

Abstract

The present invention relates to an inflating apparatus for inflating an inflating apparatus for inflating an inflating apparatus, the inflating apparatus including an inflating apparatus for inflating an inflating apparatus, the inflating apparatus comprising: A cover casing provided with a pipe and connected to the upper part of the tubular pipe to cover the opened upper part of the infaffe so as to prevent foreign matter from entering the infaffef tube, and a cover casing vertically disposed at an inner center part of the infaffe, A water supply pipe which is installed to be supported on the bottom surface and has a plurality of water supply holes bored in the lower part of the outer side, an upper part is connected to the water supply pump through the cover casing so as to protrude above the ground surface, A plurality of water flow holes are perforated in a labyrinth shape and a plurality of A partition plate in which a water pipe passes through the center portion while being interposed, and a far infrared ray mineral which is filled in the inside of the pipe to filter and treat water supplied from the water supply hole under the water supply pipe to supply purified water to the water pipe of the cover casing Wherein the water purification system comprises:

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an underground water purification apparatus,

The present invention relates to a method and a device for filtering a foreign substance by filling a far-infrared ray emitting mineral together with a water pipe into a water hole drilled in the ground or a water hole drilled at a new predetermined depth in the ground, And more particularly to an infusion device which is inserted into the inside of a handpiece with a diameter and a length corresponding to the handpiece hole drilled vertically in the ground, A cover casing provided with a water outlet pipe and connected to an upper portion of the pipe to cover the open upper portion of the pipe to prevent foreign matter from entering the pipe, And the lower end is closed so that it is supported on the bottom surface of the handpiece A water supply pipe connected to the water supply pump in such a state that the water supply pipe is protruded above the ground through the cover casing and the water is supplied to the inside downward; A partition plate in which a water supply hole is perforated and a plurality of water supply holes are passed through the central portion while a plurality of water supply pipes are vertically spaced on the inside of the infiltration pipe and the water supplied from the water supply hole under the infusion pipe is filtered and purified And a far infrared ray mineral layer for supplying purified water to the water outlet pipe of the cover casing.

In recent years, drinking water has been replaced by drinking water instead of tap water due to serious pollution of drinking water, and drinking water has been used for drinking water by water purification by installing a water purifier in each household. However, commercially available bottled water is easily contaminated In case of using a water purifier, water purification is performed by using a filter made of an artificially manufactured filtering means or activated carbon, and the purified water of the passing water is treated, There is a disadvantage in that the cost of the water purifier is extremely high even if the water purification effect is increased to some extent, and there is a troublesome problem of filtering and removing the components beneficial to the human body and periodically replacing the filter.

As a conventional technique for solving these problems, Korean Utility Model Registration No. 20-0305697 of Korean Registered Utility Model No. 20-0305697 discloses a method for improving water quality by using magnetic and far-infrared rays, which is installed on the outer circumferential surface of the water pipe of the water to be treated that has passed through water pipes, A left and right case having a contact surface contacting the water pipe and fixed to both sides of the water pipe and having a position fixing means for adjusting a fixing position according to the size of the water pipe; A plurality of magnet bodies which are fixed to a plurality of magnet fixing portions provided on the inner upper and lower portions to emit a magnetic pole and a far infrared ray coating applied to the inner side of the contact surface of the left and right cases so that the far infrared rays are radiated along with the magnetic poles of the magnet body, A water quality improvement device using magnetic and far-infrared rays is disclosed The tap water was atomized and activated by the magnetic force and the far infrared ray to make the clusters less and retained in the original water of high density so as to increase the dissolving power and penetration power. However, the water and the activation effect of tap water are very weak, There is a problem that foreign substances such as various scales and rust included in flowing tap water are supplied through the water pipe without being filtered.

On the other hand, agricultural lands and orchards are used to provide groundwater for the supply of agricultural groundwater for use as agriculture water. In many cases, agroforestry is installed in agricultural and industrial complexes so as to be used as industrial water. In addition, In the present study, it was found that the use of groundwater in the area where the groundwater is not used can not be used anymore. to be.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a closed pipe having a diameter of 100 to 200 m and a pipe having a diameter and a length, A plurality of partition plates and a far infrared ray mineral layer are provided on the inner side of the water supply pipe and the water supply pump connected to the water supply pipe supplies tap water or ground water to the inner lower part of the pipe through a plurality of water supply holes drilled in the lower side of the outer side of the water supply pipe, In the process of water rising up from the inner lower part of the envelope to the outlet pipe of the cover casing installed on the ground surface, various far-offs are filtered by the far infrared mineral layer which is densely packed in the 100 ~ The object of the present invention is to enable the water treatment to be performed by the far- have.

In order to achieve the above object, the present invention provides an inflating apparatus for inflating an inflating apparatus for inflating an inflating apparatus, the inflating apparatus comprising: A cover casing provided with a water outlet pipe and connected to an upper part of the pipe pipe to cover the open top of the pipe and prevent foreign matter from flowing into the pipe pipe and a cover casing vertically interposed in an inner center portion of the pipe, A water supply pipe connected to the water supply pump so as to supply water to the inside downward while being protruded above the ground surface through the cover casing; A plurality of water holes are perforated in a horizontally laid plate shape, A partition plate in which a plurality of pipes are arranged at regular intervals and a water supply pipe is penetrated in the central part; and a water supply unit that filters and purifies water supplied from a water supply hole at the bottom of the water supply pipe, And a far-infrared ray mineral layer for allowing the infrared ray to emit light.

As described above, according to the present invention, it is possible to provide a closed pipe having a diameter of 100 to 200 m in the ground, or a pipe having a diameter and a length corresponding to the holes that are drilled at a predetermined depth in the ground, A water supply pipe, a plurality of partition plates, and a far infrared ray mineral layer having a predetermined particle size are installed on the inner side of the infaffe, and a water supply pump connected to the water supply pipe is provided with a plurality of water supply holes The inflow water is supplied to the inner lower part of the infrape, and the supplied water is discharged from the inner lower part of the infrape to the water outlet pipe of the cover casing installed on the ground. By filtering out various foreign substances, the far infrared ray emitted from the far infrared ray mineral layer As well as being purified and purified, it also has the effect of reusing the closed pipe.

FIG. 1 is a schematic cross-sectional view of a state in which the infaffe is inserted into a water hole pierced in the ground in a tubular underground water purification apparatus according to the present invention
FIG. 2 is a schematic cross-sectional view of a state in which an inflow pipe and a shallow pipe are installed in a water hole in a ground and a water supply pipe is installed in the conventional underground water purification apparatus according to the present invention.
FIG. 3 is a schematic cross-sectional view of a state in which far-infrared ray emitting minerals and a partitioning plate are stacked in order from the bottom to the inside of the infiltration in the tubular underground water purification apparatus according to the present invention
FIG. 4 is a schematic view showing a disassembled perspective view in a state in which a water supply pipe and a partition plate are installed on the inside of an inflate in a tubular underground water purification apparatus according to the present invention
FIG. 5 is a schematic cross-sectional view of a tubular underground water purification apparatus according to the present invention,
FIG. 6 is a schematic cross-sectional view of the water purification apparatus according to the present invention,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 1 to 6, the cannula type underground water purification apparatus 1 of the present invention includes a water supply pipe 3 which is drilled in the ground or a water supply pipe 11 to a water hole 3 which is drilled at a new depth in the ground. And water is supplied from the water supply pipe (11) through a far infrared ray mineral layer (16) having a predetermined particle size, so as to perform filtering and purification treatment of foreign matter, An inflation pipe 2 inserted into the inside of the handpiece 3 with a diameter and a length conforming to the handpiece 3 and a circumferential pipe 2 fitted over the upper surface of the infusion pipe 2, (5) and a water outlet pipe (9), a cover casing (8) connected to the upper part of the pipe pipe (5) and covering the opened top of the infaffe (2) At the inner center of the infaffe 2 A plurality of water supply holes 12 are formed in the lower portion of the outer side of the water supply hole 12, and an upper portion of the water supply hole 12 penetrates through the cover casing 8 to protrude above the ground surface A water supply pipe 11 connected to a water supply pump (not shown) so as to supply water to the inside downward, a plurality of water supply holes 15 in a horizontally laid plate shape are pierced, A partition plate 13 in which a plurality of water pipes 11 are passed through the central portion while being spaced apart from each other at regular intervals in the vertical direction and a water supply hole 12 in the lower portion of the water pipe 11 And a far infrared ray mineral layer 16 for filtering and purifying water to be supplied with purified water to the water outlet pipe 9 of the cover casing 8. [

As shown in FIGS. 1 to 6, the infaff 2 is made of a synthetic resin or a metal pipe, and is made of a closed pipe 3 which is perforated vertically to a depth of 100 to 200 m in the ground or a water hole 3 newly pierced in the ground, So that various foreign substances can be prevented from penetrating into the inside of the infaffe 2 while being fitted into the inside of the water hole 3.

The lower end of the infaffe 2 is mounted on a bottom plate 4 which is seated on the bottom surface of the handpiece 3 to be blocked As shown in FIGS. 1 and 2, various foreign substances including groundwater are prevented from penetrating into the inside of the infaffe 2 through the bottom portion of the water hole 3.

The tubular pipe 5 is made of a metal such as stainless steel as shown in FIGS. 2, 3, 5 and 6, and is fitted into an upper part of the outer circumferential surface of the infaffe 2 in an opened state, The inner diameter of the tubular pipe 5 is formed to be larger than the outer diameter of the infaffe 2 so as to cover the upper outer peripheral surface of the infaffe 2 in a state of being spaced apart from each other by a predetermined distance, The upper part of the infaff 2, which is installed at a depth of ~ 20 m and is located close to the surface of the infaff 2, is prevented from being damaged by an external impact or the like. So that the upper part of the infaffe 2 is prevented from flowing and the purified water is prevented from flowing between the tubular pipe 5 and the infaffe 2 while the ring 6 is inserted and fixed in a watertight manner Be There is.

The flange portion 7a is protruded outward from the outer circumferential surface of the upper end portion of the tubular pipe 5 so that the cover casing 8 is covered on the upper portion thereof as shown in FIGS. 3, 5 and 6, A flange portion 7b protruding outwardly from the outer peripheral surface of the lower end portion of the casing 8 is assembled through a normal bolt and nut in a state where the flange portion 7b is vertically abutted.

The diameter of the infaffe 2 is preferably about 100 to 150 mm, and the diameter of the tubular pipe 5 is preferably about 150 to 200 mm.

As shown in FIGS. 3, 5 and 6, the cover casing 8 is formed in a casing shape with its bottom opened. In the lower part of the outer side, a water pipe 9 is fixedly installed in the pipe pipe 5 The cover casing 8 is connected to the upper portion of the cover 2 so as to cover the opened upper portion of the cover 2 so as to prevent the foreign matter from entering the inside of the cover 2, The flange portion 7b protrudes from the flange portion 7a and protrudes from the flange portion 7a. The flange portion 7a is vertically abutted against the flange portion 7a. 3, a water supply pipe through hole 10 is formed in an upper outer side surface of a portion where the water supply pipe 9 is installed, The upper part is a water supply pipe through hole (1 0 so as to protrude outward.

On the other hand, if necessary, the flange portion 7a of the tubular pipe 5 and the flange portion 7b of the cover casing 8 can be integrally fixedly attached by welding or the like.

1 to 6, the water supply pipe 11 is a part for supplying water to the inner lower part of the infaffe 2 and is vertically interposed in the inner central part of the infaffe 2, A plurality of water supply holes 12 are formed in the lower part of the outer side of the water supply hole 3 and a water supply pump (not shown in the figure) The water supply pipe 11 is longer than the infaff 2 and the water supply hole 12 is not pierced to a height of 2 to 5 m from the lower end of the water pipe 11, A plurality of water supply holes 12 are formed on the outer surface at regular intervals of 5 to 10 m so that the precipitate generated during the passage of the water inside the infrape 2 through the far infrared ray mineral layer 16 sinks The lower end of the eaves (2) As is so that the water from the feed water holes 12 are raised along with the water that is supplied to the lower sink precipitate seated in the not be directly discharged to the crowd pipe (2).

The water supply pipe 11 is adapted to abut on a bottom plate 4 mounted on the bottom surface of the water hole 3 and has a water supply pipe through hole 10 formed in the upper part of the outer peripheral surface of the cover case 8 And a normal water supply pump is connected to the water supply pipe 11 located outside the cover casing 8 so that tap water or ground water is supplied to the water supply pipe 11 by a water supply pump .

As shown in FIGS. 3 to 6, the partition plate 13 is formed by horizontally laminating a plurality of water holes 15 in the form of a plate, and a plurality of water holes 15 are vertically spaced vertically in the interior of the compass 2 A central hole 14 is formed at the center of the partition plate 13 so as to correspond to the outer diameter of the water supply pipe 11 and is fitted to the outer periphery of the water supply pipe 11 The outer diameter of the partition plate 13 is made to correspond to the inner diameter of the infaffe 2 so that the partition plate 13 has a length of about 100 to 200 m by a plurality of partition plates 13, The water pipe 11 is prevented from being bent while preventing the water pipe 11 from vertically rising vertically and flowing in the inner center portion of the infaffe 2 so that the water pipe 11 is prevented from being bent. The ball (15) It is the water which is supplied to the lower portion of the crowd pipe (2) from the water supply hole 12 of the water supply line (11) adapted to be raised through the water passing hole 15 of each of the partition plate (13).

The partition plate 13 is preferably spaced apart by 6 to 10 m from the top of the infaffe 2.

As shown in FIGS. 3, 5 and 6, the far infrared ray mineral layer 16 is a part that is filled in the inside of the infaffe 2 and emits far infrared rays. The far infrared ray mineral layer 16 is filled in the inside of the infaffe 2, The purified water is supplied to the water outlet pipe 9 of the cover casing 8 by filtering and purifying the water supplied from the water supply hole 12 below the water tank 11, And is made of minerals such as quartz, quartz, germanium and the like which usually emit a far-infrared ray in a large quantity, and the diameter thereof is about 1 to 5 cm, so that it can be used as the lower part of the water pipe 11 The water supplied from the water hole 12 drilled in the inflow pipe 2 to the inner lower part of the infaffe 2 is lifted along the inner side of the infaffe 2 having a length of 100 to 200 m to form a far infrared ray mineral layer 16) So that the antimicrobial action of suppressing microbial and germ generation in the water by the far-infrared rays generated in the far infrared ray mineral layer 16 and the activation action of the water particles are performed so that the supplied water is always supplied as fresh and clean water .

The far infrared ray mineral layer 16 is filled with a far infrared ray emitting mineral having a small diameter at the lower inner side of the infaffe 2 and a far infrared ray emitting mineral having a larger diameter going toward the upper inner side of the infaffe 2 The foreign matter contained in the supplied water has a small diameter and is first filtered while passing through the closely packed far infrared ray mineral layer 16 so that the foreign matter does not rise together with water but spontaneously settles down to the bottom of the infaffe 2 .

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

1 to 6, a conventional underground water purification plant 1 according to the present invention is installed in a water hole 3 drilled in the ground or in a water hole 3 drilled at a new depth in the ground, When water is desired to be subjected to foreign matter filtering and purified water treatment, as shown in FIG. 1, firstly, the inner surface of the water hole 3, which is perforated to the depth of 100 to 200 m, The bottom plate 4 is placed on the bottom plate 4 and the infaffe 2 fitting to the diameter and the length of the handhole 3 is inserted into the inside of the handhole 3, 2 is installed at a depth of 10 to 20 m from the ground surface and the upper outer peripheral surface of the infaffe 2 is positioned close to the surface portion by the tubular pipe 5 surrounding the outer peripheral surface at a predetermined interval The upper part of the resonator 2 is exposed to an external shock or the like The water supply pipe 11 is vertically erected at the center of the inside of the infaffe 2 so that the lower end of the water supply pipe 11 is abutted against the bottom plate 4, As shown in the figure, far-infrared ray emitting minerals such as jade, quartz, quartz, and germanium, which are crushed to a height of about 6 to 10 m and a diameter of 1 to 5 cm, are injected into the inner lower part of the infaffe 2, The perforated partition plate 13 is placed in the inner lower portion of the infaffe 2 by fitting the water supply pipe 11 and then the far infrared ray emitting mineral is introduced into the upper portion of the partition plate 13 to a height of about 6 to 10 m, The far infrared ray emitting material and the partition plate 13 are repeatedly installed in such a manner as to sandwich the plate 13 so that the far infrared ray mineral layer 16 is entirely filled inside the infaffe 2. [

5, a flange portion 7b protruding from the outer peripheral surface of the lower end portion of the cover casing 8 is vertically abutted against the flange portion 7a protruding from the outer peripheral surface of the upper end of the tubular pipe 5 And the upper part of the water supply pipe 11 is passed through the water supply pipe through hole 10 drilled on the outer peripheral surface of the upper part of the lid casing 8 and is pushed outward by a normal water supply pump So that tap water or ground water is supplied to the inner lower portion of the infaff 2 through the plurality of water supply holes 12 drilled in the lower portion of the water supply pipe 11. [

6, water supplied to the inner lower part of the infaffe 2 through the water supply pipe 11 in the state where the tubular underground water purification apparatus 1 is installed in the ground as described above is filled with 100 to 200 m long Infaff Infrared rays which are naturally filtered by the far infrared ray mineral layer 16 in which various kinds of foreign substances contained in the water to be supplied are densely stacked in the course of rising along the inside of the infrared ray mineral layer 2 and the far infrared ray emitted from the far infrared ray mineral layer 16, And an antimicrobial action in which the generation of germs is suppressed and an activation action of the water particles are carried out so that the water is supplied fresh to the outside through the water pipe 9 provided on the lower outer side of the cover casing 8 in a fresh and clean water- do.

1. Underground water purification system 2. Infafe
3. Handwork 4. Floor plate
5. Tubular pipe 6. Insert ring
7a, 7b. Flange section 8. Cover casing
9. Water pipe 10. Water pipe penetration hole
11. Water pipe 12. Water pipe
13. Partition plate 14. Center hole
15. Water hole 16. Far-infrared mineral layer

Claims (5)

1. A water purification apparatus comprising an infaffe (2), a cover casing (8), a water supply pipe (11) and a far infrared ray mineral layer (16) A tubular pipe 5 fitted to the upper part of the outer peripheral surface of the infaffe 2 so as to protrude above the ground surface and a water outlet pipe 9 are provided A cover casing 8 which is connected to the upper part of the tubular pipe 5 so as to cover the opened upper part of the infaffe 2 and prevents the inflow of foreign matter, And a plurality of water supply holes 12 are formed in the lower portion of the outer side surface of the water supply hole 3 and the upper portion is protruded above the ground surface through the cover casing 8, A water supply pipe (11) connected to the inside and downward to supply water, A partition plate 13 in which a plurality of water supply holes 15 are perforated in a flat shape lying flat and a plurality of water pipes 15 are vertically and horizontally disposed inside the infaffe 2 and a water supply pipe 11 is passed through the center, The inside of the infaffe 2 is subjected to filtering and water treatment to supply water supplied from the water supply hole 12 below the water supply pipe 11 to the water discharge pipe 9 of the cover casing 8 The water supply pipe 11 is formed with a plurality of water supply holes 12 at regular intervals on the outer side of the water supply pipe 11, So that the sediment that has settled in the lower part of the infaffe (2) is not raised together with the supplied water.
[3] The apparatus according to claim 1, wherein the infaffe (2) has a diameter and a length corresponding to the closed-hole forming hole (3) drilled at a depth of 100 to 200 m vertically in the ground or the hole (3) The upper part of the infaffe 2 is opened so as to be exposed on the ground and the lower end of the infaffe 2 is mounted on a bottom plate 4 seated on the bottom surface of the hand- It is characterized by underground water purification system.
2. The method according to claim 1, wherein the tubular pipe (5) is formed such that the inner diameter of the tubular pipe (5) is larger than the outer diameter of the infaffe (2) And an insert ring 6 is inserted and fixed to the upper part between the pipe pipe 5 and the pipe 2. The pipe pipe 5 has a flange part 7a on the outer peripheral surface of the upper end part, And the flange portion 7b protruding outwardly from the outer peripheral surface of the lower end portion of the cover casing 8 is assembled in a state in which the flange portion 7b is vertically abutted with the cover casing 8 covering the upper portion thereof. Underground water purification system.
delete [3] The method according to claim 1, wherein the far infrared ray mineral layer (16) comprises a far infrared ray emitting mineral having a diameter of about 1 to 5 cm, the far infrared ray emitting mineral having a small diameter is filled in the inner lower part of the infrared ray Far-infrared emitting mineral having a diameter gradually increasing toward the upper part of the inner side of the main body (2).

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