KR102379487B1 - water purification device using cyclone - Google Patents

Abstract

The present invention relates to a water purification device for supplying clean treated water by generating a vortex to separate foreign substances in supplied water.

Description

Water purification device using cyclone

The present invention relates to a water purification device using a cyclone, and more particularly, to a water purification device for supplying clean treated water by generating a vortex to separate foreign substances in feed water.

In modern times, the more you receive the benefits of civilization along with industrial development, the more serious the problem of environmental pollution can be in return. Because it flows into general households, households avoid drinking tap water and either cut off tap water or use a separate water purifier for drinking. It is being dealt with.

Therefore, a separate water purifier is installed to filter foreign substances contained in tap water, thereby providing filtered water that is easy to drink.

However, the water purifier that treats tap water is expensive, and it is inconvenient to change the filter filter of the water purifier itself frequently.

Republic of Korea Patent No. 10-0652840 Republic of Korea Patent No. 10-0850218

An object of the present invention is to generate a vortex to separate foreign substances in feed water, and to provide a configuration for quickly supplying treated water from which foreign substances are separated.

The present invention is characterized by a water purification device for supplying clean treated water by generating a vortex to separate foreign substances in the feed water.

In one embodiment, the water purifier includes a purifier chamber formed such that one side is connected to the supply water pipe and the other side is connected to the discharge water pipe in order to separate foreign substances mixed in the supply water, and supply water into the purifier chamber. A supply water pipe formed on one side of the lower part of the purifier chamber to supply, a vertical guide pipe connected to one side of the supply water pipe to vertically move the supply water flowing from the supply water pipe, and the supply water supplied through the vertical guide pipe A first cylinder formed in the lower part of the inside of the purification device chamber to separate foreign substances mixed in the first fixing protrusion formed on one side of the lower part of the first cylinder to fix the first cylinder to the vertical guide pipe, and the vertical guide pipe is supplied A bulkhead formed in the center of the vertical guide pipe to separate and move the feed water, an outlet formed on one side of the upper part of the vertical guide pipe so that the feed water supplied through the vertical guide pipe is discharged to one side by the bulkhead, and the outlet A discharge guide plate formed on the outer peripheral surface of the vertical guide pipe so that the feed water can be rotated and discharged in one direction, and an inlet formed on one side of the lower side of the vertical guide pipe so that the feed water discharged into the first cylinder can be re-introduced to the vertical guide pipe side; , an inlet guide plate formed below the outer peripheral surface of the vertical guide pipe so that the feed water can be rotatedly supplied to the inlet side, and a vortex generating end formed around the inside of the vertical guide pipe to generate a vortex of the feed water supplied from the feed water pipe, and the inlet A vortex inducing member formed on the upper part of the first cylinder so that the supply water supplied through the vortex is generated and moved to the inside of the second cylinder, and an induction hole formed on one side of the vortex inducing member so that the supply water can move, and the supply water is separated A foreign material discharge path formed on one side of the lower part of the first cylinder so that the foreign material used for being discharged can be discharged, a plurality of second cylinders formed in the vertical direction above the first cylinder to separate foreign materials mixed in the feed water, and the upper inclined surface of the first cylinder A second fixing protrusion formed on one side of the lower part of the second cylinder so that the second cylinder is seated and another second cylinder can be seated and fixed to the upper part of the second cylinder, and a support formed on the upper part of the guide blade so that the guide blade can be fixed A guide blade formed between the support plate and the upper surface of the second cylinder so that the plate and the feed water moving along the guide hole can be rotated, and the guide vane formed between the guide vane so that the feed water can move from the inside of the second cylinder to the inside of the other second cylinder a guide hole, a discharge water pipe formed in the upper part of the second cylinder formed at the top of the plurality of second cylinders so that the feed water from which foreign substances are separated is discharged, and a temporary purification device chamber in which foreign substances discharged through the foreign material discharge path accumulate in the settling tank A backflow prevention plate formed under the vertical guide pipe to prevent backflow inside, a sedimentation tank formed below the purifier chamber to collect foreign substances separated from the supply water through a foreign material discharge path, and foreign substances deposited in the settling tank It consists of a foreign material outlet formed in the lower part of the settling tank to discharge the A circulation shaft connected to the motor shaft of the circulation motor to rotate, and a shaft fixed bearing formed on the upper surface of the support plate formed above the first cylinder so that one side of the circulation shaft is fixed to maintain the concentricity of rotation of the circulation shaft; A shaft bushing formed on one side of the discharge water pipe to prevent friction between the circulation shaft and the discharge water pipe during rotation, and the upper or lower portions on the circulation shaft to increase the circulation speed by generating rotational force of the moving feed water, respectively, or circulate It is characterized in that it includes an impeller formed so that a plurality of them can be installed on the shaft.

In another embodiment, the water purification device further includes a micro-air injection unit formed around the purifier chamber to dissolve foreign substances in the supply water by injecting fine air, and the micro-air injection unit includes an air injection nozzle. A plurality of bubble generating plates are formed around the inside of the purification device chamber so that the air injected through the purifier can be rubbed, and a plurality of bubble generating plates are formed on the bubble generating plate so that the air passes through when the sprayed air comes into contact with the bubble generating plate to generate fine bubbles. A perforated hole is formed, a plurality of air injection nozzles are formed around the inside of the purification device chamber to inject air received from the outside toward the bubble generating plate, and the flow of air injected through the air injection nozzle is guided in the downward direction. It is characterized in that it consists of a flow rate inducing end that is formed to protrude in an oblique direction on the bubble generating plate to increase the speed.

It provides the effect of quickly purifying a large amount of supplied water by generating a vortex in the supplied feed water to quickly remove foreign substances, and at the same time to supply the treated water filtered with foreign substances.

1 is a view of a water purification apparatus of the present invention.
2 and 3A and 3B are detailed and state diagrams of FIG. 1 .
4 is a view showing a micro-air injection unit according to another embodiment of the water purification device.
FIG. 5 is a detailed view of FIG. 4 .
6 is a view showing a flow rate amplifying unit according to another embodiment of the water purification device.
FIG. 7 is a detailed view of FIG. 6 .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0012] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be implemented in other embodiments without departing from the spirit and scope of the invention. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scope equivalents to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

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

1 is a view of a water purification apparatus 500 of the present invention, and is a detailed view of FIGS. 2 and 3A, 3B.

As shown in the drawing, the water purification device 500 is characterized in that it is for supplying clean treated water by generating a vortex to separate foreign substances in the feed water.

The water purification device includes a purification device chamber 510, a supply water pipe 511, a vertical guide pipe 512, a first cylinder 513, a first fixing projection 514, a first fixing projection 514, an outlet ( 516), discharge guide plate 517, inlet 518, inlet guide plate 519, vortex generating end 520, vortex inducing member 521, guide hole 522, foreign material discharge path 523, second cylinder (524), second fixing protrusion (525), support plate (526), guide blade (527), guide hole (528), drain pipe (529), backflow prevention plate (530), settling tank (531), foreign material outlet ( 532 , a circulation motor 533 , a circulation shaft 534 , a shaft fixed bearing 535 , a shaft bushing 536 , and an impeller 537 .

The purifier chamber 510 is formed to separate foreign substances mixed with the supply water, and the purifier chamber 510 has one side connected to the supply water pipe 511 and the other side connected to the discharge water pipe 529. characterized in that it is formed.

The supply water pipe 511 is formed to supply supply water into the purifier chamber 510 , and the supply water pipe 511 is formed at one lower side of the purifier chamber 510 .

The vertical guide pipe 512 is formed to vertically move the supply water flowing in from the supply water pipe 511, and the vertical guide pipe 512 is connected to one side of the supply water pipe 511, characterized in that do.

The first cylinder 513 is formed to separate foreign substances mixed in the supply water supplied through the vertical guide pipe 512, and the first cylinder 513 is formed as the lower inside of the purifier chamber 510 characterized in that

The first fixing protrusion 514 is formed to fix the first cylinder 513 to the vertical guide tube 512, and the first fixing projection 514 is formed on one side of the lower side of the first cylinder 513. characterized in that

The partition wall 515 is formed to separate and move the supply water supplied to the vertical guide pipe 512 , and the partition wall 515 is formed in the inner center of the vertical guide pipe 512 .

The outlet 516 is formed so that the supply water supplied through the vertical guide pipe 512 is discharged to one side by the partition wall 515, and the outlet 516 is formed on one side of the upper side of the vertical guide pipe 512 characterized.

The discharge guide plate 517 is formed so that the supply water discharged through the outlet 516 can be rotated and discharged in one direction, and the discharge guide plate 517 is formed on the outer peripheral surface of the vertical guide pipe 512. do.

The inlet 518 is formed so that the supply water discharged into the first cylinder 513 can be re-introduced to the vertical guide pipe 512 side, and the inlet 518 is formed in the lower side of the vertical guide pipe 512 . characterized by being

The inlet guide plate 519 is formed so that the supply water can be rotatedly supplied to the inlet 518 side, and the inlet guide plate 519 is formed below the outer peripheral surface of the vertical guide pipe 512 .

The vortex generating end 520 is formed so that a full flow of the supply water supplied from the supply water pipe 511 can occur, and the vortex generating end 520 is formed around the inside of the vertical guide pipe 512 . characterized.

The vortex inducing member 521 is formed such that the supply water supplied through the inlet 518 generates a vortex and moves to the inside of the second cylinder 524, and the vortex inducing member 513 moves to the upper part of the first cylinder 513. characterized in that it is formed.

The guide hole 522 is formed so that the supply water can move, and the guide hole 522 is formed on one side of the vortex guide member 521 .

The foreign material discharge path 523 is formed so that foreign substances separated from the supply water can be discharged, and the foreign material discharge path 523 is formed on one side of the lower side of the first cylinder 513 .

The second cylinder 524 is formed to separate foreign substances mixed with the supply water, and the second cylinder 524 is formed in a plurality in the vertical direction above the first cylinder 513 .

The second fixing protrusion 525 is formed such that the second cylinder 524 is seated on the upper inclined surface of the first cylinder 513 and the other second cylinder 524 is seated and fixed to the upper part of the second cylinder 524. to be, the second fixing protrusion 525 is characterized in that it is formed in the lower side of the second cylinder (524).

The support plate 526 is formed so that the guide blade 527 can be fixed, and the support plate 526 is formed above the guide blade 527 .

The guide hole 528 is formed so that the supply water can move from the inside of the second cylinder 524 to the inside of the other second cylinder 524, and the guide hole 528 is formed between the guide blades 527. characterized.

The discharge water pipe 529 is formed so that the supply water from which foreign substances are separated is discharged, and the discharge water pipe 529 is formed above the second cylinder 524 formed as an upper part of the plurality of second cylinders 524. characterized.

The backflow prevention plate 530 is formed to prevent the foreign substances discharged through the foreign material discharge path 523 from flowing back to the upper side of the temporary purification chamber chamber in the settling tank 531, and the backflow prevention plate 530 is It is characterized in that it is formed in the lower part of the vertical guide pipe (512).

The settling tank 531 is formed so that foreign materials separated from the feed water through the foreign material discharge path 523 are collected, and the settling tank 531 is formed below the purification apparatus chamber 510 .

The foreign material outlet 532 is formed to discharge the foreign material deposited in the settling tank 531 to the outside, and the foreign material outlet 532 is characterized in that it is formed in the lower part of the settling tank 531 .

The circulation motor 533 is formed to rotate the circulation shaft 534 , and the circulation motor 533 is formed above the discharge water pipe 529 .

The circulation motor 533 is formed so as to be formed on the upper and lower portions, and the circulation motor 533 is formed toward the foreign material outlet to generate a vortex at the lower portion.

The circulation shaft 534 is formed to rotate by receiving rotational power generated by the circulation motor 533, and the circulation shaft 534 is connected to the motor shaft of the circulation motor 533. .

The fixed shaft bearing 535 is formed to maintain the rotation concentricity of the circulation shaft 534, and the fixed shaft bearing 535 is formed above the first cylinder 513 so that one side of the circulation shaft 534 is fixed. It is characterized in that it is formed on the upper surface of the chimney plate.

The shaft bushing 536 is formed to prevent friction between the circulation shaft 534 and the discharge water pipe 529 when the circulation shaft 534 rotates. characterized in that it is formed.

The impeller 537 is formed to generate rotational force of the moving feed water to increase circulation speed, and the impeller 537 is selected from a single or a plurality on the circulation shaft 534 and installed. .

That is, as shown in the figure, one impeller 537 is installed above the circulation shaft 534, or one is installed below the circulation shaft 534 to generate a vortex, and the circulation shaft 534. It is characterized in that a plurality is formed on the top to maximize the vortex.

4 is a view showing a micro-air injection unit 600 that is another embodiment for the water purification device 500, and FIG. 5 is a detailed view of FIG.

As shown in the figure, the micro-air injection unit 600 is configured to be further included in the water purification device 500, and the micro-air injection unit 600 injects fine air to decompose foreign substances in the supply water. It is characterized in that it is formed around the discharge water pipe (529).

The mesh air injection unit includes a bubble generating plate 610 , a perforated hole 611 , an air jet nozzle 612 , and a flow rate inducing end 613 .

The bubble generating plate 610 is formed so that the air injected through the air injection nozzle 612 can be rubbed, and the bubble generating plate 610 is formed in a plurality around the inner circumference of the discharge water pipe 529. do.

The perforated hole 611 is formed in order for the air to pass through to generate micro-bubbles when the sprayed air comes into contact with the bubble generating plate 610 , and the perforated hole 611 is a plurality of characterized in that it is formed.

The air jet nozzle 612 is formed to jet the air received from the outside toward the bubble generating plate 610, and the air jet nozzle 612 is formed in a plurality around the inner circumference of the discharge water pipe 529. do.

The flow rate inducing end 613 is formed to increase the flow rate by inducing the flow of air injected through the air injection nozzle 612 in the downward direction, and the flow rate inducing end 613 is a bubble generating plate 610 ) is characterized in that it is formed to protrude in an oblique direction from the top.

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6 is a view showing another embodiment of the flow rate amplifying unit 800 for the water purification apparatus 500, FIG. 7 is a detailed view of FIG.

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As shown in the drawing, the flow rate amplifying unit 800 is further installed in the water purification device 500, and the flow rate amplifying unit 800 guides the supply water moving along the discharge water pipe 529 to the outside. Thus, it is characterized in that it is formed on one side of the purifier chamber 510 so as to inject high pressure into the inner side of the first cylinder 513 using the high-pressure pump 813 .

The flow speed amplifying unit 800 is characterized in that it consists of an inlet 810, an inlet pipe 811, an on/off valve 812, a high pressure pump 813, a discharge pipe 814, and a discharge injection nozzle (815).

The inlet 810 is formed so that a part of the moving supply water is introduced, and the inlet 810 is formed at one side inside the discharge water pipe 529 .

The inlet pipe 811 is formed to move the supply water flowing in along the inlet 810 to the high-pressure pump 813 side. The inlet pipe 811 has one side connected to the inlet 810 and the other side. It is characterized in that it is connected to the high-pressure pump (813).

The on-off valve 812 is formed to move and block the supply water moving along the inlet pipe 811 , and the on-off valve 812 is formed on the inlet pipe 811 .

The high-pressure pump 813 is formed to move the supply water flowing in through the inlet pipe 811 toward the discharge pipe 814 at high pressure, and the high-pressure pump 813 is formed on one side of the inlet pipe 811 . characterized.

The discharge pipe 814 is formed to move the supply water moved at high pressure by the high-pressure pump 813 to the discharge injection nozzle 815 side, and the discharge pipe 814 has one side connected to one side of the high-pressure pump 813 . It is characterized in that the other side is connected to the discharge injection nozzle (815).

The discharge jet nozzle 815 is formed to high-pressure the supply water moved at high pressure through the discharge pipe 814 into the first cylinder 513, and the discharge jet nozzle 815 is the first cylinder 513. ) is characterized in that it is formed on the other side of the inside.

The micro-air injection unit 600 or the flow rate amplification unit 800 is characterized in that any one of the two configurations is selected and installed.

The above-described embodiments are for illustration, and those of ordinary skill in the art to which the above-described embodiments pertain can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. you will understand Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope to be protected through this specification is indicated by the claims described below rather than the above detailed description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents. .

500: water purification device
510: purification device chamber 511: supply water pipe
512: vertical guide tube 513: first cylinder
514: first fixing projection 515: bulkhead
516: discharge port 517: discharge guide plate
518: inlet 519: inlet guide plate
520: vortex generating stage 521: vortex inducing member
522: guide hole 523: foreign matter discharge path
524: second cylinder 525: second fixing projection
526: support plate 527: guide wing
528: guide hole 529: discharge water pipe
530: backflow prevention plate 531: settling tank
532: foreign matter outlet 533: circulation motor
534: circulation shaft 535: fixed shaft bearing
536: shaft bushing 537: impeller
600: micro air injection unit
610: bubble generating plate 611: perforated hole
612: air injection nozzle 613: flow rate induction stage
800: flow rate amplification unit
810: inlet 811: inlet pipe
812: on/off valve 813: high pressure pump
814: discharge pipe 815: discharge injection nozzle

Claims (3)

In the water purification device for supplying clean treated water by generating a vortex to separate foreign substances in the feed water,
The water purification device is
A purification device chamber formed so that one side is connected to the supply water pipe and the other side is connected to the discharge water pipe in order to separate foreign substances mixed with the supply water;
A supply water pipe formed on one side of the lower part of the purification apparatus chamber to supply supply water to the interior of the purification apparatus chamber;
A vertical guide pipe connected to one side of the supply water pipe to move the supply water flowing in from the supply water pipe in the vertical direction;
A first cylinder formed in the lower part of the purifier chamber to separate foreign substances mixed in the feed water supplied through the vertical guide pipe;
A first fixing protrusion formed on one side of the lower portion of the first cylinder to fix the first cylinder to the vertical guide tube;
a bulkhead formed in the center of the vertical guide pipe to separate and move the supply water supplied to the vertical guide pipe;
An outlet formed on one side of the upper part of the vertical guide pipe so that the supply water supplied through the vertical guide pipe is discharged to one side by the bulkhead;
A discharge guide plate formed on the outer peripheral surface of the vertical guide pipe so that the supply water discharged through the outlet can be rotated and discharged in one direction;
An inlet formed in the lower side of the vertical guide pipe so that the supply water discharged into the first cylinder can be re-introduced to the vertical guide pipe side;
An inlet guide plate formed below the outer peripheral surface of the vertical guide pipe so that the supply water can be rotated and supplied to the inlet side;
A vortex generating stage formed around the inside of the vertical guide pipe so that a vortex phenomenon of the supply water supplied from the supply water pipe can occur;
A vortex inducing member formed above the first cylinder so that the supply water supplied through the inlet generates a vortex and moves toward the inside of the second cylinder;
An induction hole formed on one side of the vortex inducing member so that the supply water can be moved;
A foreign material discharge path formed on one side of the lower part of the first cylinder so that foreign materials separated from the supply water can be discharged;
A second cylinder formed in plurality in the vertical direction above the first cylinder to separate foreign substances mixed in the supply water;
A second fixing protrusion formed on one side of the lower part of the second cylinder so that the second cylinder is seated on the upper inclined surface of the first cylinder and the other second cylinder can be seated and fixed to the upper part of the second cylinder;
A support plate formed on the upper part of the guide blade so that the guide blade can be fixed;
A guide blade formed between the support plate and the upper surface of the second cylinder so that the supply water moving along the guide hole can be rotated;
A guide hole formed between the guide blades so that the supply water can move from the inside of the second cylinder to the inside of another second cylinder;
A discharge water pipe formed as an upper portion of a second cylinder formed as an upper portion of a plurality of second cylinders so that the supply water from which foreign substances are separated is discharged;
A backflow prevention plate formed under the vertical guide pipe to prevent the foreign substances discharged through the foreign material discharge path from flowing backward into the upper part of the temporary purification device chamber in the settling tank;
A settling tank formed at the bottom of the purification device chamber to collect foreign substances separated from the feed water through the foreign substance discharge path;
a foreign material outlet formed at the bottom of the settling tank to discharge foreign substances deposited in the settling tank to the outside;
A circulation motor formed above the discharge water pipe to rotate the circulation shaft;
a circulation shaft connected to the motor shaft of the circulation motor to be rotated by receiving rotational power generated by the circulation motor;
A shaft fixed bearing formed on the upper surface of the support plate formed above the first cylinder so that one side of the circulation shaft is fixed in order to maintain the concentricity of rotation of the circulation shaft;
A shaft bushing formed on one side of the discharge water pipe to prevent friction between the circulation shaft and the discharge water pipe when the circulation shaft rotates;
In order to generate the rotational force of the moving feed water to increase the circulation speed, it is composed of an impeller that is respectively installed above or below the circulation shaft, or is formed so that a plurality of them can be installed on the circulation shaft,
The water purification device is
Water purification apparatus, characterized in that it further comprises a micro-air injection part formed around the inner circumference of the discharge water pipe in order to inject micro-air to decompose foreign substances on the supply water.
According to claim 1,
The micro-air injection unit,
A plurality of bubble generating plates are formed around the inside of the discharge water pipe so that the air injected through the air jet nozzle can be rubbed;
A water purifier comprising a plurality of perforated holes formed on the bubble generating plate to generate fine bubbles through the air passing through when the sprayed air comes into contact with the bubble generating plate.
According to claim 1,
The micro-air injection unit,
A plurality of air injection nozzles formed around the inner circumference of the discharge water pipe to inject air provided from the outside toward the bubble generating plate;
A water purifier comprising a flow rate inducing end protruding from the bubble generating plate in an oblique direction to increase the speed of the flow by guiding the flow of air injected through the air jet nozzle in the downward direction.

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