KR101379348B1 - A complexed ion-purifier - Google Patents

Abstract

The present invention relates to a complex ion-purifier. The complex ion-purifier according to one embodiment of the present invention comprises: an electrolytic water generator divides tap water into alkaline water and acidic water; an alkaline water line for discharging alkaline water to a connected hose; an acidic water line for discharging acidic water; an acidic water divergence control unit which is divided into a first acidic water line and a second acidic water line and has first and second control valves; and a bubble amplifying unit which is installed on the alkaline water line and generates fine bubbles.

Description

A complexed ion-purifier

Complex ionizer of the present invention, by providing a bubble amplifier in the alkaline water line can not only provide the alkaline water containing a large amount of dissolved hydrogen and dissolved oxygen, but also provides a first acidic water line supplied with acidic water through the branch After the neutral water is generated by being connected to the alkaline water line, the neutral water is passed through the bubble amplifier to generate fine bubbles, thereby providing ionized water containing a large amount of dissolved hydrogen and dissolved oxygen, and the case configured in the bubble amplifier. It is possible to amplify the vortex phenomena in alkaline water and neutral water passing through the pores by spaced up and down amplifying plate formed with polygonal pores in the upper and lower stages, thereby producing high quality ionized water having a large amount of fine bubbles. Through the bypassed second alkaline water line, pure alkyla water, as well as To achieve the province's related to complex water ionizer which the user can selectively drinking the water.

It is well known that conventional ionizers have a structure in which purified water is ionized while passing through an electrolytic cell, alkaline water is stored in a cooling water container for drinking, and acidic water is discarded as it is or used as washing water. Alkaline water generated by electrolysis is produced by amplification of hydrogen, so that oxygen is inadequate and disadvantages occur in the elderly, children or people taking drugs.

Accordingly, in order to solve such a problem, an electrolytic water generating device has been developed, which is registered in Korean Patent Publication No. 10-0700918, and the conventional electrolytic water generating device includes a non-capacitance electrolyzed water generator, a diaphragm electrolyzed water generator, and the non-diaphragm electrolyzed water. A raw water line for supplying raw water to the generator and the diaphragm electrolyzed water generator, a discharge line in which any one or two or more of the electrolyzed water generated from the non-diaphragm electrolyzed water generator and the electrolyzed water generated from the diaphragm electrolyzed water generator are mixed and discharged; One of the acidic water and the alkaline water generated from the diaphragm electrolyzed water generator is connected to the discharge line, the other one has a distributor for feeding back to the raw water line or discharged to the outside, the electrode plate of the diaphragm electrolyzed water generator, Reticulated, perforated or tip plates that are perpendicular or perpendicular to the flow of water inside Exposed and is arranged.

However, the conventional electrolytic water generating device as described above is composed of a non-diaphragm electrolyzed water generator and a diaphragm electrolyzed water generator separately, which is not only complicated, but also simply mixes alkaline and acidic water to generate hydrogen when generating neutral water. There was a problem that the ion concentration was significantly lowered and lost value as ionized water.

Therefore, the applicant has not only prevented the hydrogen ion concentration from dropping even in the generation of neutral water, but has also developed a complex ion water group containing a lot of dissolved hydrogen and dissolved oxygen.

Composite ion water of the present invention for achieving the above object, the electrolyzed water generator for separating the raw water supplied through the raw water line into alkaline water and acidic water; An alkaline water line connected to the electrolytic water generator and discharging the separated alkaline water to a connection hose; An acidic water line connected to the electrolyzed water generator and discharging the separated acidic water; A branching port connected to the acidic water line is formed to branch the acidic water line into the first acidic water line connected to the alkaline water line, and the second acidic water line discharged to the outside, and the first and second acidic water lines. An acidic water branch control unit including first and second control valves for controlling an acid water flow path; It is characterized in that consisting of; bubble amplification unit is installed in the alkaline water line to generate micro bubbles.

Complex ionizer of the present invention, by providing a bubble amplifier in the alkaline water line can not only provide the alkaline water containing a large amount of dissolved hydrogen and dissolved oxygen, but also provides a first acidic water line supplied with acidic water through the branch Since the neutral water is generated by being connected to the alkaline water line, the neutral water is passed through the bubble amplification unit to generate fine bubbles, thereby providing ionized water containing a large amount of dissolved hydrogen and dissolved oxygen.

In addition, the present invention, because it is possible to amplify the vortex phenomenon in the alkaline water and neutral water passing through the pores by installing a multi-stage spaced up and down amplifying plate formed with polygonal pores inside the case configured in the bubble amplification part There is an advantage that can generate high quality ionized water having a large amount of micro-bubbles.

In addition, the present invention allows the user to drink only the pure alkaline water that has not passed the bubble amplification part through the control valve for controlling the flow of the bypassed second alkaline water line and the alkaline water, and only the acidic water passes through the bubble amplification part. In the first alkaline water line located at the outlet of the amplification unit, the neutral water mixed with the alkaline water supplied through the second alkaline water line and the acidic water with microbubbles can be formed, so that the user can selectively drink ionized water having different concentrations. It is a useful invention that can be.

1 is a state in which alkaline water according to the first embodiment of the present invention passes through the bubble amplifier and is discharged to the connection hose.
2 is a state in which neutral water mixed with alkaline water and acidic water according to the first embodiment of the present invention passes through a bubble amplifier and is discharged to a connection hose.
Figure 3 is a state in which the alkaline water is discharged through the connection hose passing through the bubble amplifier in accordance with a second embodiment of the present invention.
4 is a state in which neutral water mixed with alkaline water and acidic water according to the second embodiment of the present invention is discharged to the connection hose through the bubble amplifier.
5 is a state in which alkaline water is discharged through a connection hose by-passing the bubble amplifier according to the second embodiment of the present invention.
6 is a state diagram in which alkaline water bypasses the bubble amplification unit according to the second embodiment of the present invention, while acidic water passes through the bubble amplification unit to generate new neutral water.
Figure 7 is a perspective view showing a bubble amplification section of the present invention in front cross section.

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

The present invention relates to a composite ionizer capable of selectively generating alkaline water and neutral water, as shown in FIGS. 1 and 2, an electrolytic water generator 10, an alkaline water line 20, and an acidic water line 30. And an acidic water branch control unit 40 and a bubble amplifier 50.

First, the electrolyzed water generator 10 functions to separate alkaline water into a negative electrode and acidic water into a positive electrode through a diaphragm (not shown) installed inside the raw water supplied through the raw water line 1. Detailed description is omitted since it is a configuration.

Here, although the raw water supplied through the raw water line 1 may use tap water as it is, it is preferable that the raw water line 10 further includes a water filter 5 for drinking clean water.

And, the feed control valve 3 for controlling the supply of the raw water so that the supply of raw water is made only by the user's intention is further included in the raw water line (1), the flow sensor for detecting the flow rate of the raw water supply ( The configuration of 4) may be further included.

Second, the alkaline water line 20 is connected to the electrolytic water generator 10 is configured to move the alkaline water separated by the negative electrode, is connected to the connection hose (9) connected to the outside is configured to allow the user to drink.

Third, the acidic water line 30 is connected to the electrolytic water generator 10 to move the acidic water separated by the positive electrode, alkaline water line 20 through the branch port 41 configured in the acidic water branch control unit 40 It is configured to branch to the first acidic water line 31 and the second acidic water line 33 discharged to the outside.

Fourth, the acidic water branch control unit 40 is configured to branch the acidic water line 30 into the first and second acidic water lines 31 and 33 as described above, and is formed in a U-shape to connect the connector in three directions. The formed branch port 41 is comprised.

That is, the branch 41 has a first connector 41a connected to the acidic water line 30 connected to the electrolytic water generator 10 and a second connector 41b connected to the first acidic water line 31. And a third connector 41c connected to the second acidic water line 33 so that the acidic water line 30 is connected to the first acidic water line 31 and the second acidic water line through the branch 41. It is configured to branch to 33.

The acidic water branch control unit 40 includes a first control valve 43 installed in the first acidic water line 31 and a second control valve 47 installed in the second acidic water line 33. It is also configured to further include a function to control the flow of the acidic water discharged through the acidic water line (30).

Therefore, when the second control valve 47 is opened while the first control valve 43 is closed, the acidic water moved through the acidic water line 30 is transferred to the third connector 41c of the branch 41. When the action is discharged to the outside through the second acidic water line 33 connected to the, and the second control valve 47 is closed while the first control valve 43 is opened, the acidic water line 30 The acidic water moved through the second acidic water line 31 connected to the second connector 41b of the branch 41 is mixed with alkaline water to generate neutral water.

Here, the neutral water generated as described above is significantly reduced hydrogen ion concentration (PH) due to the mixing of alkaline water and acidic water, through the present invention can increase such hydrogen ion concentration again, a detailed description will be described later .

Fifth, the bubble amplification unit 50 is installed in the alkaline water line 20, as shown in Figure 1 to Figure 7 is fine in alkaline water or alkaline water mixed with alkaline water and acidic water is moved through the alkaline water line 20 In the configuration for generating bubbles, the alkaline water and the acidic water is mixed through the first acidic water line 31 to be formed in the direction in which the neutral water is generated and moved, the case 51 is installed in the alkaline water line 20, and It consists of an amplifying plate 55 installed inside the case 51. In addition, the amplification plate 55 is characterized in that a plurality of pores 53 are formed.

Therefore, the neutral water introduced into the case 51 of the bubble amplification unit 50 through the alkaline water line 20 is rotated by the vortex phenomenon, passing through the pores 53 at a high flow rate occurs. In this process, the particles of water are broken small so that a large amount of fine bubbles in the neutral water.

That is, since neutral water having reduced hydrogen ion concentration through the mixing of alkaline water and acidic water contains a large amount of microbubbles generated by vortex phenomena in the course of passing through the bubble amplification part 50, the amount of dissolved hydrogen increases. In addition to increasing hydrogen ion concentration, dissolved oxygen saturation is increased.

In addition, in the present invention, the acidic water may be discharged to the outside through the second acidic water line 33, and only alkaline water may be passed to the bubble amplifier 50 through the alkaline water line 20. The alkaline water introduced into the case 51 of the bubble amplification part 50 through 20) generates microbubbles due to vortex phenomena generated in the process of rapidly passing the pores 53 at a flow rate, thereby increasing the amount of dissolved oxygen. In other words, the alkaline water separated from the electrolytic water generator 10 is ionized water containing a relatively small amount of oxygen by containing a relatively large amount of hydrogen, and when such alkaline water is passed through the bubble amplifier 50, The amount of dissolved oxygen is increased while maintaining the hydrogen ion concentration to produce high quality alkaline water.

On the other hand, the alkaline water line 20 of the present invention, as shown in Figures 3 to 6 is connected between the electrolytic water generator 10 and the connection hose 9, the first alkaline water passing through the bubble amplifier 50 Line 21 and the second alkaline water line 23 is bypassed in the first alkaline water line 51 and does not pass through the bubble amplification unit 50. In this case, the first and second alkaline water Lines 21 and 23 should be provided with third and fourth control valves 25 and 27 for controlling the flow path of alkaline water.

In addition, when the second alkali water line 23 is bypassed from the first alkali water line 21 and does not pass through the bubble amplifier 50 under the control of the third and fourth control valves 25 and 27, It is possible to drink only pure alkaline water separated from the electrolytic water generator 10.

In addition, the acidic water separated from the electrolytic water generator 10 may be discharged to the outside through the second acidic water line 33 connected to the branch 41, as well as the first and second control valves 43 and 47. By passing the acidic water to the bubble amplification unit 50 by the manipulation of a large amount of fine bubbles in the acidic water, through which the alkaline water and the bubble amplification unit 50 passed through the second alkaline water line The acidic water is mixed with each other in the alkaline water line 20 connected to the outlet side of the bubble amplifier 50 so as to generate new neutral water having different concentrations.

Therefore, by using the complex ionizer of the present invention, the user can selectively drink the desired ionized water.

In addition, the amplification plate 55 of the bubble amplifier 50 is installed in multiple stages spaced apart from the inside of the case 51 to increase the hydrogen ion concentration and dissolved oxygen amount as shown in FIG. Preferably, the pores 53 of the amplifying plate 55 spaced apart in multiple stages is more preferably formed narrower in a larger number toward the discharge direction of the alkaline water.

In addition, the pores 53 formed in the amplifying plate 55 may be formed in a circular shape, so that the effect of breaking the particles of water is easily broken through the resistance of the corner angle, in a polygonal shape such as a square or a pentagon. Preferably, the material of the amplifying plate 55 is made of a metal plate that is harmless to the human body so as to sharpen the angle of the processed pores 53 to increase the resistance to passage of water.

Hereinafter will be described the action according to the configuration of the composite ionizer of the present invention.

First, as shown in FIG. 1, when the user operates the water purifier through the supply control valve 3 while the first control valve 43 is closed and the second control valve 47 is opened, raw water Tap water flowing through the line 1 is supplied to the electrolytic water generator 10 in a purified state through the purified water filter 5.

The purified water supplied to the electrolytic water generator 10 is decomposed into alkaline water having a high hydrogen ion concentration and acidic water having a low hydrogen ion concentration through the action of the electrolytic water generator 10, and thus, an alkaline water line 20 and an acidic water line ( 30 respectively, the acidic water flowing into the acidic water line 30 is connected to the second acidic water line through the third connector 41c of the branch 41 according to the closing of the first control valve 43. (33) is generated and discharged to the outside occurs, the alkaline water introduced into the alkaline water line 20 is generated by a large amount of fine bubbles in the alkaline water by the vortex phenomenon generated in the process of passing through the explosion amplifier 50 Therefore, the alkaline water discharged through the connection hose 9 through the bubble amplifier 50 not only has a high hydrogen ion concentration, but also contains a large amount of dissolved oxygen.

In addition, if the water purifier is operated in a state in which the first control valve 43 is opened and the second control valve 47 is closed at the same time as described above, as shown in FIG. The acidic water flows into the first acidic water line 31 through the second connector 41b of the branch 41 as the first control valve 43 opens, and neutral water mixed with alkaline water and acidic water is generated.

In addition, since the generated neutral water appears to have a large amount of fine bubbles in the alkaline water due to the vortex phenomenon generated in the process of passing through the bubble amplification unit 50, the amount of dissolved oxygen and dissolved hydrogen is increased and The action of increasing the concentration of hydrogen ions, which has been reduced due to the mixing of acidic water, is achieved.

Therefore, the user can selectively drink the ionized water consisting of alkaline water and neutral water having a high dissolved oxygen amount and a high dissolved hydrogen amount through the first and second control valves 43 and 47.

Hereinafter, the first alkali water line 21 and the bubble amplifier 50 passing the alkali water line 20 to the bubble amplifier 50 so that the alkaline water of the present invention may not pass through the bubble amplifier 50. Branch to the second alkaline water line 23 bypassing the first and second alkaline water lines 21 and 23, wherein the third and fourth control valves 25 and 27 for flow path control are further configured. The action is described in more detail.

First, as shown in FIG. 3, when the first and fourth control valves 43 and 27 are closed and the second and third control valves 47 and 25 are opened, the acidic water is supplied to the second acid water line 33. Alkaline water is discharged to the outside through) and at the same time, the alkali water passes through the bubble amplification unit 50, the alkaline water is converted into high quality alkaline water through a large amount of fine bubbles generated in the process of passing the alkali water through the bubble amplification unit 50 Is done.

Second, as shown in FIG. 4, when the first and third control valves 43 and 25 are opened and the second and fourth control valves 47 and 27 are closed, alkaline water and acidic water are mixed to neutral water. In the converted state, since the neutral water passes through the bubble amplifier 50, the neutral water is converted into high-quality ionized water by the amount of dissolved hydrogen and the amount of dissolved oxygen that are increased through a large amount of fine bubbles.

Third, as shown in FIG. 5, when the first and third control valves 43 and 25 are closed and the second and fourth control valves 47 and 27 are opened, the acidic water is separated from the second acid water line ( At the same time as being discharged to the outside through 33), the alkaline water is discharged through the connecting hose (9) without passing through the bubble amplification unit 50 through the bypassed second alkaline water line (23).

Fourth, when the first and fourth control valves 43 and 27 are opened and the second and third control valves 47 and 25 are closed as shown in FIG. 6, alkaline water is bypassed in the second alkali water line. While not passing through the bubble amplifier 50 through 23, the acidic water passes through the bubble amplifier 50 through the first acidic water line 31 so that a large amount of fine bubbles are formed in the acidic water. It becomes possible. Therefore, new neutral water having a different concentration of ions can be formed by mixing acidic water having a high dissolved oxygen amount and a dissolved oxygen amount through pure bubbles with pure alkaline water.

Through the present invention as described above, there is an advantage that the user can selectively drink the ionized water containing a large amount of dissolved hydrogen and dissolved oxygen amount.

Meanwhile, the amount of dissolved hydrogen and dissolved oxygen of tap water flowing through the raw water line to confirm the amount of dissolved hydrogen and the amount of dissolved oxygen generated through the complex ionizer of the present invention, and the neutral water discharged through the connection hose through the present invention. The amount of dissolved hydrogen and dissolved oxygen was compared 10 times.

Number of times Dissolved hydrogen (ppb) Dissolved oxygen (ppm) tap water Complex ionizer tap water Complex ionizer One



2 to 3



189



7 to 11



19 2 197 21 3 185 20 4 191 23 5 210 22 6 201 21 7 198 24 8 212 20 9 179 22 10 190 25 Average 2.5 195 9 22

As shown in Table 1 above, it can be seen that the use of the complex ionizer of the present invention significantly increases the hydrogen content and dissolved oxygen in the purified ionized water.

1: Raw water line 3: Supply control valve 4: Flow sensor
5: Water filter 9: Connection hose
10: electrolytic water generator
20: alkali water line 21, 23: first, second alkaline water line
25, 27: 3rd, 4th control valve
30: acidic water line 31, 33: first, second acidic water line
40: acidic water branch control unit 41: branch port
41a, 41b, 41c: 1st, 2nd, 3rd connectors 43, 47: 1st, 2nd control valve
50: bubble amplification part 51: case 53: pore 55: amplifying plate

Claims (5)

An electrolytic water generator 10 for separating raw water supplied through the raw water line 1 into alkaline water and acidic water;
An alkaline water line 20 connected to the electrolytic water generator 10 and discharging the separated alkaline water to a connection hose 9;
An acidic water line 30 connected to the electrolytic water generator 10 to discharge the separated acidic water;
The first acidic water line 31 is connected to the alkaline water line 20 by forming a branch 41 connected to the acidic water line 30, and the second discharged to the outside. The acidic water branch control unit 40 branches to the acidic water line 33 and has first and second control valves 43 and 47 configured to control the flow path of the acidic water in the first and second acidic water lines 31 and 33. );
It is installed in the alkaline water line (20) bubble amplification unit for generating a fine bubble (50); complex ionizer characterized in that consisting of.
According to claim 1, wherein the alkaline water line 20 is connected between the electrolytic water generator 10 and the connection hose 9, the first alkaline water line 21 passing through the bubble amplifier 50, and the first The second alkaline water line 23 is bypassed in the first alkaline water line 51 and does not pass through the bubble amplification unit 50. The first and second alkaline water lines 21 and 23 control the flow path of alkaline water. Complex ionizer characterized in that three or four control valves (25, 27) are configured.
The amplification plate of claim 1, wherein the bubble amplification unit 50 is provided with a case 51 coupled to the alkaline water line 20 and a plurality of pores 53 to be installed inside the case 51. Composite ionizer characterized in that it consists of (55).
The method of claim 3, wherein the amplifying plate 55 is installed in multiple stages spaced apart from the inside of the case 51, the number of pores 53 of the amplifying plate 55 spaced in multiple stages toward the moving direction of the alkaline water Composite ionizer characterized by being narrowly formed.
The complex ionizer of claim 3, wherein the pores (53) formed in the amplifying plate (55) are formed in a polygonal shape.

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