KR102253769B1 - Water Purifying System - Google Patents

Abstract

A water purification system according to the present invention includes: a water purification unit which includes a cyclone housing having an accommodation space in which water before being purified is introduced and accommodated, and separating suspended material by applying centrifugal force to the water introduced into the accommodation space, and a water purification module for discharging purified water by including a filter unit for filtering the water from which suspended material is separated, and an ion exchange unit containing an ion exchange resin for ion exchange with water passing through the filter unit; and a regeneration unit that is connected to the water purification unit and is formed to supply regeneration water to the accommodation space to regenerate the ion exchange resin accommodated in the ion exchange unit.

Description

Water Purifying System

The present invention relates to a water treatment system, and more particularly, to a water treatment system capable of maximizing a water purification effect by separating and purifying suspended matter contained in water through centrifugal force.

In recent years, not only the problem of drinking water shortage has emerged around the world, but there are many difficulties in ingesting natural water as it is due to environmental pollution and the like. Therefore, water purifiers that purify various foreign substances contained in water to make them suitable for drinking water are widely used.

In the case of a general water purifier, one or more filters that can filter out foreign substances contained in water are provided inside, and the water supplied to the water purifier is removed through one or more such filters to extract only components that are not harmful to the human body. Have.

However, since the water purifier of this type depends entirely on the filter for the water purification process, frequent replacement of the filter is required, and when the allowable capacity of the filter is exceeded, there is a problem that the water purification effect is greatly degraded.

In addition, conventional general water purifiers have been mostly products that simply perform a water purification function, and water purifiers that undergo an additional treatment process so that water can have more beneficial components for the human body have a problem that the volume is very large and the price is high.

Therefore, a method for solving these problems is required.

Korean Patent Publication No. 10-2020-0008855

The present invention is an invention conceived to solve the problems of the prior art described above, including an additional treatment process in addition to the purification process by a filter, it is possible to more effectively remove foreign substances contained in water, and the purified water is beneficial to the human body. It has an object to provide a water treatment system that provides a plurality of treatment processes so as to have more components.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the water treatment system of the present invention comprises a cyclone housing for forming a receiving space in which water before water treatment is introduced and receiving, and for separating floating matter by applying a centrifugal force to the water introduced into the receiving space, A water purification unit including a filter unit provided in the receiving space to filter water from which the floating matter is separated, and an ion exchange unit in which an ion exchange resin for ion exchange with water passing through the filter unit is accommodated, and a water purification module for discharging purified water And a regeneration unit connected to the water purification unit and formed to supply regenerated water to the accommodation space to regenerate the ion exchange resin accommodated in the ion exchange unit.

At this time, the cyclone housing includes an upper housing portion in which the water purification unit is located, and a lower housing portion connected to a lower portion of the upper housing portion to form the accommodation space together with the upper housing portion, and to discharge the separated floating matter to the outside. Can include.

In addition, a spiral-shaped water flow guide may be formed on the inner surface of the upper housing part.

In addition, the water purification module may further include a water purification housing through which water from which the floating matter is separated in the receiving space is introduced from a lower portion, the filter unit and the ion exchange unit are provided therein, and the purified water is discharged to the upper portion. .

In this case, the water purification module may further include a suction fan provided inside the water purification housing, provided below the filter part and the ion exchange part, and generating a suction force to introduce water into the water purification housing. have.

And the water purification module further comprises an ion sensor for sensing the concentration of the Na + component contained in the ion exchange resin accommodated in the ion exchange unit, the regeneration unit, Na + contained in the ion exchange resin as a result of sensing by the ion sensor. When it is determined that the concentration of the component is less than or equal to a preset concentration, it may be controlled to supply regenerated water to the receiving space.

In addition, the water purification module may further include a vibration unit for removing foreign substances accumulated in the filter unit as vibration is applied to the filter unit.

Meanwhile, the present invention may further include an aeration unit that increases the amount of dissolved oxygen in the water purified by the water purification unit.

And the present invention may further include a multi-filtration filter unit for secondary purification of the water purified by the water purification unit.

In addition, the present invention may further include a communication unit that transmits the driving history data of the water purification unit and the regeneration unit to an external management device and receives a control command from the external management device to control the water purification unit and the regeneration unit. .

In the water purification system of the present invention for solving the above problems, the purification effect of water can be maximized as the water purification unit separates the suspended matter from water through centrifugal force and then performs filtering through the filter unit and ion exchange through the ion exchange unit. There is an advantage.

In addition, the present invention is provided with a regeneration unit together with the water purification unit, so that the ion exchange resin provided in the ion exchange unit can be automatically regenerated, so that long-term use is possible. There is an advantage in that the purified water can have more beneficial ingredients for the human body.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a view showing an appearance of a water treatment system according to a first embodiment of the present invention;
2 is a view showing a treatment process in a water purification unit in the water treatment system according to the first embodiment of the present invention;
3 is a view showing a state of a water purification module in a water treatment system according to a second embodiment of the present invention; And
4 is a view showing a state of a water purification unit in the water treatment system according to the first embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention in which the object of the present invention can be realized in detail will be described with reference to the accompanying drawings. In the description of the present embodiment, the same names and the same reference numerals are used for the same components, and additional descriptions thereof will be omitted.

1 is a view showing the state of the water treatment system according to the first embodiment of the present invention, Figure 2 is a treatment process in the water purification unit 100 in the water treatment system according to the first embodiment of the present invention It is a view showing.

1 and 2, the water treatment system according to the first embodiment of the present invention includes a main case 5 in which each component to be described below is accommodated, and the interior of the main case 5 The water purification unit 100 and the regeneration unit 200 are provided.

In addition, the water treatment system of the present embodiment may further include an aeration unit 300, a multi-filtration filter unit 400, a magnet unit 500, and a mineral elution unit 600.

The water purification unit 100 includes a cyclone housing 110 in which an accommodation space 111 is formed therein, and a water purification module 120 accommodated in the accommodation space 111.

The receiving space 111 inside the cyclone housing 110 receives and receives water before water treatment, and the cyclone housing 110 separates the floating matter by applying a centrifugal force to the water introduced into the receiving space 111 Perform.

More specifically, in this embodiment, the cyclone housing 110 is connected to the upper housing portion 110a in which the water purification unit 120 is located, and is connected to the lower portion of the upper housing portion 110a to be connected with the upper housing portion 110a. It forms the receiving space 111 and includes a lower housing part 110b for discharging the floating matter separated by centrifugal force to the outside.

In addition, the cyclone housing 110 includes a first inlet pipe 10 for introducing water before water treatment into the receiving space 111, and a first discharge pipe 20 for discharging the water contained in the receiving space 111 to the outside. Is connected. At this time, the first inlet pipe 10 and the first discharge pipe 20 may be provided with on-off valves 11 and 21 capable of manual control or automatic control, respectively.

In this embodiment, the first inlet pipe 10 is connected to the upper housing part 110a, and the first discharge pipe 20 is connected to the lower end of the lower housing part 110b, but this is limited to the form of this embodiment. It does not become.

In addition, in the present embodiment, the upper housing portion 110a is formed to have a conical shape as a whole, and a spiral-shaped water flow guide (not shown) may be formed on the inner surface thereof. Therefore, the cyclone housing 110 separates the floating matter by flowing water flowing into the receiving space 111 through the water flow guide in a spiral direction and falls toward the lower housing portion 110b.

The water purification module 120 is a component that directly purifies the water from which the floating matter is separated in the receiving space 111, and in this embodiment, the water purification module 120 is the water from which the floating matter is separated from the receiving space 111 A filter unit 140 and an ion exchange unit 150 are provided therein, and a water purification housing 125 through which purified water is discharged to the top is included.

At this time, the filter unit 140 performs filtering by a filter in the process of passing the water separated from the floating material, and the ion exchange unit 150 accommodates an ion exchange resin for ion exchange with water passing through the filter unit 140. Thus, the water that has passed through the ion exchange unit 150 is ionized.

In addition, a first flow pipe 30 for flowing purified water to the outside of the cyclone housing 110 is provided on the upper portion of the water purification housing 125, and an opening/closing valve 31 may be provided in the first flow pipe 30 as well. have.

In addition, in the present embodiment, the water purification module 120 is provided inside the water purification housing 125, and is provided below the filter unit 140 and the ion exchange unit 150, and generates a suction force so that the receiving space 111 is A suction fan 130 for introducing water into the water purification housing 125 may be further included.

Meanwhile, the regeneration unit 200 is connected to the water purification unit 100 and is formed to supply regenerated water to the receiving space 111 to regenerate the ion exchange resin accommodated in the ion exchange unit 150.

In this embodiment, the regeneration unit 200 includes a regeneration water receiving housing 210 in which the regenerated water introduced therein is accommodated, and the regeneration water receiving housing 210 may be connected through the cyclone housing 110 and the regeneration water transfer pipe 60. have. In addition, a second inlet pipe 70 through which the regenerated water flows is provided at one side of the regeneration water receiving housing 210. It goes without saying that the regeneration water transfer pipe 60 and the second inlet pipe 70 may also be provided with opening/closing valves 61 and 71.

In addition, a regeneration water inlet 214 through which regeneration water can be manually injected may be formed at the top of the regeneration water receiving housing 210, and a water level confirmation window 212 through which the water level of the regeneration water can be checked on the side of the regeneration water housing 210 ) Is formed.

In addition, the regeneration unit 200 detects the level of the regeneration water contained in the regeneration water housing 210 and transmits it to an external management device so that the external management device can control the opening/closing valve 71 of the second inlet pipe 70. It may include a water level sensor 220.

As described above, in the present invention, the regeneration unit 200 is connected to the water purification unit 100 and can be automatically controlled by an external management device. To this end, the present embodiment transmits the driving history data of the water purification unit 100 and the regeneration unit 200 to an external management device, and receives a control command from the external management device, so that the water purification unit 100 and the regeneration unit 200 are connected. It may further include a communication unit (not shown) to control.

In addition, referring to FIG. 2, the process of purifying water and regenerating the ion exchange resin by the water purification unit 100 and the regeneration unit 200 may be performed as follows.

First, the opening/closing valve 11 of the first inlet pipe 10 is opened to introduce water before being purified into the receiving space 111 inside the cyclone housing 110.

The water introduced into the receiving space 111 flows in a spiral direction from the upper housing part 110a to separate foreign substances, and the separated foreign substances fall toward the lower housing part 110b.

Thereafter, the suction fan 130 introduces water from which foreign substances are separated into the water purification housing 125, and the water flowing into the water purification housing 125 is purified through the filter unit 140 and the ion exchange unit 150. After that, it is discharged through the first flow pipe 30.

In addition, the opening/closing valve 21 of the first discharge pipe 20 is opened with this, so that the foreign matter accumulated in the lower housing part 110b is discharged to the outside together with a certain amount of water.

After the water purification process is performed, a process of regenerating the ion exchange resin accommodated in the ion exchange unit 150 may be followed.

To this end, the opening/closing valve 61 of the regeneration water transfer pipe 60 is opened, and the regeneration water accommodated in the regeneration water receiving housing 210 flows toward the receiving space 111 of the cyclone housing 110. Thereafter, the level of the regenerated water introduced into the receiving space 111 is raised to reach the ion exchange unit 150, and the ion exchange resin is regenerated.

At this time, the ion exchange resin may be a Na+ type strongly acidic cation exchange resin, and since such an ion exchange resin significantly decreases the Na+ component due to continuous contact with water, it is regenerated through regenerated water made of NaCl to preserve it. Is to do.

And in this embodiment, the water purification module 120 may further include an ion sensor 160 for sensing the concentration of the Na + component contained in the ion exchange resin accommodated in the ion exchange unit 150, the ion sensor 160 When the sensing result determines that the concentration of the Na+ component contained in the ion exchange resin is less than or equal to the preset concentration, the regeneration unit 200 may be controlled by an external management device to supply the regenerated water to the receiving space 111.

In addition, after the regeneration of the ion exchange resin is completed, the opening/closing valve 21 of the first discharge pipe 20 is opened to discharge the regenerated water to the outside, and the above process can be repeated.

Meanwhile, the aeration unit 300 is a component that increases the amount of dissolved oxygen in the water purified by the water purification unit 100, and is provided between the first flow pipe 30 and the second flow pipe 40 to flow the purified water. Is located on the top.

And in this embodiment, the aeration unit 300 includes a gas tank 310 in which oxygen or carbon is accommodated, and a gas control unit that controls the internal pressure of the gas tank 310 and controls the amount of gas supplied to the purified water ( 320).

The multi-filtration filter unit 400 is a component for secondaryly purifying water purified by the water purification unit 100, and may include a plurality of filter modules 410 to 440.

In this embodiment, the filter modules 410 to 440 are composed of a total of four, and are connected to the second flow pipe 40 to receive the purified water. In addition, since the filter modules 410 to 440 may have a structure of various known filters, detailed descriptions will be omitted. However, it goes without saying that the number of filter modules 410 to 440 and types of filters are not limited to a specific form and may be variously applied.

In addition, water that has been purified through the multi-filtration filter unit 400 may be supplied to the outside through the third discharge pipe 50.

In addition, in this embodiment, a magnet unit 500 and a mineral eluting unit 600 are provided on the first flow tube 30.

The magnet unit 500 can generate magnetized hexagonal water by allowing water flowing through the first flow pipe 30 to be affected by a magnetic field, and thus, the magnet unit 500 is provided in the first flow pipe 30. The part can allow water to flow in a spiral shape inside so that it can be sufficiently affected by the magnetic field.

In addition, the mineral elution unit 600 is a component for additionally supplying minerals to the water flowing through the first flow pipe 30, and a material that can be supplied to the water may be accommodated as minerals such as tourmaline are eluted therein. .

As described above, the first embodiment of the present invention has been described, and hereinafter, another embodiment of the present invention will be described.

3 is a view showing the state of the water purification module 120 in the water treatment system according to the second embodiment of the present invention.

In the case of the second embodiment of the present invention shown in FIG. 3, the filter unit 142 of the water purification module 120 is further provided with a vibration unit 142.

The vibration unit 142 may perform cleaning by removing foreign substances accumulated in the filter unit 140 by applying vibration to the filter unit 140 in a state where the water inside the receiving space 111 is emptied. .

In particular, in the process of cleaning the filter unit 140 in this way, the suction fan 130 at the bottom rotates in a direction of rotation and a vast direction to generate a suction force, so that foreign matters dropped from the filter unit 140 are more smoothly lowered. Can be discharged.

4 is a view showing the state of the water purification unit 100 in the water treatment system according to the first embodiment of the present invention.

In the case of the second embodiment of the present invention illustrated in FIG. 4, the opening and closing partition 170 is further provided in the receiving space 111.

Such a retractable partition 170 is provided at a boundary portion between the upper housing portion 110a and the lower housing portion 110b so that one side is axially rotatable by a hinge portion 171, and the receiving space ( 111) is divided into an upper space and a lower space, or is formed to communicate with each other.

Accordingly, in the present embodiment, when it is determined that the floating matter contained in water from the upper housing part 110a has sufficiently fallen to the lower housing part 110b, the suction fan 130 is in a state in which the passage is closed through the retractable partition 170. ), the water in the upper portion of the receiving space 111 is sucked into the inside of the water purification module 120, so that the floating matter contained in the water accommodated in the lower portion of the receiving space 111 can be prevented from rising to the upper side.

In particular, in this embodiment, the retractable partition 170 is further provided with an auxiliary fan 172, so that the water above the receiving space 111 is more smoothly toward the water purification module 120 in the state in which the retractable partition 170 closes the passage. It was made to be able to flow.

In addition, a first turbidity sensor 180a may be provided inside the upper housing part 110a, and a second turbidity sensor 180b may be provided inside the lower housing part 110b, and the first turbidity sensor (180a) and the second turbidity sensor 180b sense the turbidity of the water accommodated in the upper and lower portions of the receiving space 111, respectively, so that the turbidity of the water accommodated in the upper receiving space 111 is set in advance. If it is less than 1 reference value and the turbidity of the water contained in the lower part of the receiving space 111 is more than a preset second reference value, the retractable partition 170 may be driven to block the passage.

As described above, preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms without departing from its spirit or scope other than the above-described embodiments is known to those skilled in the art. It is self-evident to them. Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

5: main case
10: 1st inflow pipe
20: first discharge pipe
30: first flow tube
40: second flow tube
50: second discharge pipe
60: recycled water transfer pipe
70: re-inflow pipe
100: water purification unit
110: cyclone housing
111: accommodation space
120: water purification module
130: suction fan
140: filter unit
150: ion exchange unit
160: ion sensor
200: regeneration unit
210: regeneration water receiving housing
212: water level confirmation window
214: regeneration water inlet
220: water level detection sensor
300: aeration unit
310: gas tank
320: gas control unit
400: multiple filtration filter unit
410~440: filter module
500: magnet unit
600: mineral elution unit

Claims (10)

A cyclone housing in which water before water treatment is introduced and accommodated is formed, and a cyclone housing that separates suspended matter by applying a centrifugal force to the water introduced into the receiving space, and a filter provided in the receiving space to filter the water from which the suspended matter is separated A water purifying unit including a water purifying module for discharging the purified water including a part and an ion exchange part in which an ion exchange resin for ion exchange with water passing through the filter part is accommodated; And
A regeneration unit connected to the water purification unit and formed to supply regenerated water to the accommodation space to regenerate the ion exchange resin contained in the ion exchange unit;
Including,
The water purification unit,
An upper housing part in which the water purification module is located;
A lower housing unit connected to a lower portion of the upper housing unit to form the accommodation space together with the upper housing unit, and for discharging the separated floating matter to the outside; And
It is provided inside the receiving space and is provided to be axially rotatable by a hinge portion formed at a boundary portion of the upper housing portion and the lower housing portion at one side, and a passage connecting the upper housing portion and the lower housing portion is selectively provided. An opening/closing partition formed to divide the accommodation space into an upper space and a lower space by opening and closing or to communicate with each other;
Including,
The upper housing part,
A first turbidity sensor provided inside the upper housing and sensing turbidity of the water accommodated in the receiving space;
Including,
The lower housing,
A second turbidity sensor provided inside the lower housing and sensing turbidity of water accommodated in a lower portion of the receiving space;
Including,
The retractable partition,
The turbidity of the water contained in the upper portion of the receiving space sensed by the first turbidity sensor is less than a preset first reference value, and the turbidity of the water contained in the lower portion of the receiving space sensed by the second turbidity sensor is a second preset When it is more than a reference value, it is characterized in that the passage connecting the upper housing part and the lower housing part is shielded,
The retractable partition,
An auxiliary fan that assists the smooth flow of water in the upper portion of the receiving space toward the water purification module when the passage connecting the upper housing portion and the lower housing portion is closed;
Water treatment system comprising a. delete The method of claim 1,
A spiral-shaped water flow guide is formed on the inner surface of the upper housing part,
Water treatment system. The method of claim 1,
The water purification module,
Water from which the floating matter is separated in the receiving space is introduced from a lower portion, the filter unit and the ion exchange unit are provided therein, and a water purification housing in which the purified water is discharged to the upper portion is further included,
Water treatment system. The method of claim 4,
The water purification module,
Is provided inside the water purification housing, further comprising a suction fan provided below the filter part and the ion exchange part, generating a suction force to introduce water into the water purification housing,
Water treatment system. The method of claim 1,
The water purification module,
Further comprising an ion sensor for sensing the concentration of the Na + component contained in the ion exchange resin accommodated in the ion exchange unit,
The regeneration unit,
When it is determined that the concentration of the Na+ component contained in the ion exchange resin is less than a preset concentration as a result of sensing by the ion sensor, the regenerated water is controlled to be supplied to the receiving space,
Water treatment system. The method of claim 1,
The water purification module,
Further comprising a vibration unit for removing foreign substances accumulated in the filter unit as vibration is applied to the filter unit,
Water treatment system. The method of claim 1,
Further comprising an aeration unit for increasing the amount of dissolved oxygen in the water purified by the water purification unit,
Water treatment system. The method of claim 1,
Further comprising a multi-filtration filter unit for secondary purification of the water purified by the water purification unit,
Water treatment system. The method of claim 1,
Further comprising a communication unit that transmits the driving history data of the water purification unit and the regeneration unit to an external management device, receives a control command from the external management device, and controls the water purification unit and the regeneration unit,
Water treatment system.

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