KR101507986B1

KR101507986B1 - A water purification system

Info

Publication number: KR101507986B1
Application number: KR20140169633A
Authority: KR
Inventors: 김병철
Original assignee: 김병철
Priority date: 2014-12-01
Filing date: 2014-12-01
Publication date: 2015-04-07
Also published as: WO2016089043A1

Abstract

The present invention relates to a method for producing a water-soluble polymer, which is capable of being installed in a place where size reduction and improvement in water quality are required, by incorporating an ionic resin and a compressed carbon cartridge in a housing, To a water purification apparatus.

Description

{A water purification system}

The present invention relates to a functional water purifier, and more particularly, to a water purifier having a structure in which an ion resin and a compressed carbon cartridge are housed in a housing, And more particularly, to a functional water purification apparatus that can be used throughout living water such as plant cultivation and beauty water.

Generally, a method of refining water quality of raw water is a filter water purification method which filters polluted suspended matters, taste and smell by using a filter, and a reverse osmosis pressure filtration method which removes positive and negative ions through a membrane, , And ion exchange resins.

The filter constant method has a problem in that it is difficult to manage not only the manufacturing cost but also the manufacturing cost because of the complexity of the process because the filters of each function are staged step by step and there is a problem that bacteria and microorganisms .

In addition, the reverse osmosis method has a problem that the purified water is less purified compared with the production cost, and the property (PH) is acidic, resulting in a lower utilization value than the drinking water.

In addition, the water softening method using the ion exchange resin determines the stability and efficiency of the purified water according to the type of resin and the regeneration method, and it is difficult to miniaturize due to the regeneration apparatus, There is a problem that it is difficult to use in a place where it is necessary.

In order to solve the above problems, a composite filter assembly has recently been registered in Korean Utility Model Registration No. 20-0367658.

In the registered utility model, a carbon filter, a sediment filter, a functional ceramic filter, and a hollow fiber filter are sequentially installed inside a cylindrical body having an inlet and an outlet, thereby maximizing the performance of the filter and making it possible to produce a compact size So that the conventional problems can be solved.

However, there is a problem that since the pre-registered utility model has built-in filters inside the main body, the structure is complicated and the manufacturing cost rises, resulting in poor economical efficiency and difficulty in post-management, which is inconvenient to use. The function of the functional ceramic filter is deteriorated because it is eccentrically installed at the lower end of the main body.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and it is an object of the present invention to provide a structure in which an adsorption portion having a compressed carbon cartridge incorporated in an ion resin is housed in a housing, And which can be used throughout the living water such as plant cultivation and beauty water requiring an improved purified water.

It is another object of the present invention to provide a carbon cartridge which is superior in adsorption efficiency to a carbon cartridge which is not compressed and which can prevent propagation of germs and microorganisms, The present invention provides a functional water purification apparatus that improves water quality performance and efficiency of a purified water by a cartridge and facilitates post management by simplifying the structure.

According to the present invention,

A housing having an opening;

A cap mounted at an inlet of the housing, the cap having an inlet and an outlet;

An ionic resin embedded in the housing to remove ions contained in water supplied to the inlet;

The water passing through the ion resin and the absorption pipe is vortexed in the induction plate and is uniformly supplied to the compressed carbon cartridge through the distribution plate, and at the same time, the adsorption part for adsorbing, filtering and discharging the chemical contained in the water in the compressed carbon cartridge ;

And a pipe connecting the adsorption unit and the outlet so that the purified water passing through the adsorption unit is discharged to the outflow port of the cap,

The water flowing into the inlet port is converted into a purified water through which ions and chemicals are filtered while sequentially passing through the ion resin and the adsorption section, and is discharged to an outlet port.

According to the present invention, it is possible to carry out installation in a place where size reduction and improvement of water quality are required by a structure in which a suction unit with a carbon cartridge embedded in an ion resin is built in, and thus, a plant cultivation and cosmetic water It is possible to have an advantage that it can be used throughout the living water.

Further, according to the present invention, by using carbon particles compressed and used, the adsorption efficiency is much higher than that of the uncompressed carbon cartridge, and propagation of germs and microorganisms can be prevented, and the ion resin and the compressed carbon cartridge Thereby improving water quality performance and efficiency of the purified water and simplifying the structure and facilitating post-management.

1 is a cross-
2 is an exploded perspective view of the adsorption unit of the present invention.
Figures 3-5 illustrate the operating state diagram of the present invention

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Fig. 1 is a sectional view of the present invention, and Fig. 2 is an exploded perspective view of the adsorption part of the present invention.

The functional water purification apparatus 100 according to the present invention includes a housing 110 having an inlet 111 opened and is mounted to an inlet 111 of the housing 110 and includes an inlet 121 and an outlet 122 And an ion resin 130 is embedded in the housing 110 to remove ions contained in water supplied to the inlet 111. The ion resin 130 and the absorption pipe The water passing through the filter 160 is swirled in the guide plate 144 and is uniformly supplied to the compressed carbon cartridge 146 through the distribution plate 145. At the same time, the chemical contained in the compressed carbon cartridge 146 is adsorbed And the adsorption unit 140 and the outlet 122 are connected to each other so that the purified water passing through the adsorption unit 140 is discharged to the outlet 122 of the cap 120 The water flowing into the inlet 121 flows through the ion resin 130 and the adsorption unit 140 sequentially While being ions and chemicals are converted to an integer which is filtered discharged to the outlet 122, it will be described in more detail.

The adsorption unit 140 is provided with an adsorption body 141 on which the inlet and outlet members 142 and 143 are mounted and a water And the guide plate 144 is provided with an induction hole 144 'for allowing the water to pass through the induction plate 144 so as to be closely attached to the induction plate 144, A plurality of distribution plates 145 are provided so as to pass through the distribution plate 145 and are mounted inside the other end of the absorption body 141 so as to be in close contact with the distribution plate 145, And a polygonal network 147 mounted on the front and rear sides of the compression carbon cartridge 146 to prevent the outflow of carbon grains.

The absorption pipe 160 includes a tube body 161 having one side opened and the other side closed and includes a plurality of absorption holes 162 penetrating the outer circumferential surface of the tube body 161 to guide water movement .

Further, it further comprises a wall-hanging protrusion 170 protruding from one side of the housing 110.

The following describes the combining and operating procedure of the present invention constructed as described above.

The introduction member 142 is attached to one end of the adsorption body 141 and then the induction plate 144, the distribution plate 145 and the compression carbon cartridge 146 are sequentially introduced into the adsorption body 141 And an outflow member 143 is mounted on the other side of the adsorption body 141 to form a suction unit 140.

At this time, it is preferable that a polygonal network 147 is disposed on the front and rear sides of the compressed carbon cartridge 146 to guide the movement of purified water while preventing the outflow of carbon grains.

The absorption member 160 of the adsorption unit 140 is attached to the water inlet member 143 and the pipe 150 is attached to the water outlet member 143. The pipe 150 is connected to the cap 120, The housing 110 is positioned inside the housing 110 in which the ion resin 130 is embedded and is positioned on the adsorption unit 140. When the housing 110 is installed in the cap 120, The installation of the present invention is completed.

Here, the housing 110 may be supported by a separate supporting member 110 ', or may be vertically held by fixing the wall-mounted protrusion 170 protruding from the housing 110 to the wall.

In the state where the inlet pipe 121 'and the outlet pipe 122' are installed in the inlet 121 and the outlet 122 of the cap 120 of the present invention installed as described above, as shown in FIGS. 3 to 4 , The water supplied to the inflow pipe 121 'flows into the housing 110 through the inflow opening 121.

At this time, the inside of the housing 110 is filled with the ionic resin 130 only about 70% of the volume of the housing 110, and the ionic resin 130 adsorbs various calcites and ions, that is, When the volume of the housing 110 is 4.2 liters and the ion resin 130 is charged to 3.0 liters in the housing 110, a space of 1.2 liters, which is the difference between the volume of the housing 110 and the resin filling amount, As the air is compressed, the internal pressure is expanded to about 4.3 kg / cm 2, and the water in which the lime section and the inorganic ions are adsorbed by the expansion pressure is supplied to the water intake member 142 of the adsorption member 140.

Here, the ionic resin 130 is made of a cationic resin having a strong adsorbing property and a solid material. When the inflowed water (hard water) moves down from the upper portion of the housing 110 to the lower portion, all of the inorganic ions In particular, it is possible to adsorb calcareous material and make the water quality into soft water to soft water.

The water adsorbed on the calcareous material may be supplied to the water intake member 142 through the absorption pipe 160 mounted on the water intake member 142, The water is supplied to the water-absorbing member 142 through the water-absorbing holes 162 penetrating the outer circumferential surface of the water absorbent body 161 and penetrating into the hemispherical shape of 0.7 mm or less, (130) does not pass through, so that the outflow of the ion resin (130) can be blocked.

5, the water supplied to the water intake member 142 is supplied to the induction plate 144 and is vortexed along the induction hole 144 'formed in the induction plate 144 to pass therethrough The water that has passed through the induction plate 144 is supplied to the distribution plate 145 and is distributed to a plurality of distribution holes 145 'passing through the distribution plate 145, And is supplied to the carbon cartridge 146.

When water is supplied to the compressed carbon cartridge 146 through the distribution hole 145 'of the distribution plate 145 while being edited along the guide hole 144' of the guide plate 144, This is because the water can be uniformly moved without being moved to one place to easily adsorb chlorine ions and chemicals in the compressed carbon cartridge 146 to increase the quality of the purified water filtered by the foreign matter.

The porous network 147 located at the front and the rear of the compressed carbon cartridge 146 can guide the movement of water and prevent the leakage of carbon grains while using the carbon nanotubes in a stable manner.

The purified water that has passed through the adsorption unit 140 and is filtered by the foreign substance is discharged to the outflow pipe 122 'via the pipe 150 and the outflow port 122 and discharged to the outflow pipe 122' And beauty water can be used according to the purpose for all the living water.

Although the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted to limit the scope of the present invention. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

100: water purification apparatus 110: housing
120: cap 130: ionic resin
140: suction part 150: piping
160: absorption pipe 170: wall-hanging projection

Claims

A housing having an opening;
A cap mounted at an inlet of the housing, the cap having an inlet and an outlet;
An ionic resin embedded in the housing to remove ions contained in water supplied to the inlet;
The water passing through the ion resin and the absorption pipe is vortexed in the induction plate and is uniformly supplied to the compressed carbon cartridge through the distribution plate, and at the same time, the adsorption unit for adsorbing, filtering and discharging the chemical contained in the water in the compressed carbon cartridge ;
And a pipe connecting the adsorption unit and the outlet so that the purified water passing through the adsorption unit is discharged to the outflow port of the cap,
Wherein water flowing into the inlet port is converted into an ion through which ions and chemicals are filtered while sequentially passing through the ion resin and the adsorption section, and is discharged to an outlet port.

[2] The apparatus according to claim 1,
A suction body on which the mouth and the water outlet member are mounted;
An induction plate having an induction hole formed in one end of the adsorption body to swirl water supplied to the inlet member;
A distribution plate which is in close contact with the guide plate and through which a plurality of distribution holes are passed so that water passing through the guide plate is uniformly distributed to the press carbon cartridge;
A compression carbon cartridge mounted inside the other end of the absorption body so as to be in close contact with the distribution plate to remove chemical substances;
And a porous net installed to prevent carbon particles from flowing out to the front and rear of the compressed carbon cartridge.

The water treatment system according to claim 1,
A tube having one side opened and the other side closed;
And a plurality of absorption holes penetrating the outer peripheral surface of the tubular body to guide the movement of water.

The method according to claim 1,
And a wall protrusion protruding from a side of the housing.