KR101173077B1 - Auto ion water manufacturing apparatus - Google Patents

Abstract

PURPOSE: An automatic ionized water manufacturing apparatus is provided to electrolyze suspended feed water on the surface of lakes and fountains and to separate and discharge precipitated sludge from electrode plates. CONSTITUTION: An automatic ionized water manufacturing apparatus includes an electrolyzing unit, a box body, a floating member, a plurality of weighs, and an underwater motor. An electrolyzing bath(2) is arranged at the upper side of the electrolyzing unit. The upper side of an electrolytic cell case(21) is opened, and the lower side of the electrolytic cell case is closed. A variable pair of copper electrode plates(22, 23) is installed along the inner sidewall of the electrolytic cell case. A feed water circulating path is formed between the electrode plates. An electrolytic cell cover is combined with the electrolytic cell case.

Description

Automatic ion water manufacturing apparatus

The present invention relates to an automatic ionized water production apparatus, and more particularly, to sterilize natural surface water such as fountains and lakes by continuously repeating the discharge of the raw water in the ionized state by electrolysis in the water floating state Sedimentation sludge produced during the electrolysis process can be suppressed more efficiently and the high water pressure generated by the operation of the underwater motor can be maintained until it is discharged to the outside through the electrolysis process. And an automatic ionized water production device that makes it easier to discharge the gas, the lower part of the heat-producing electrolysis device is cooled in water, and the upper part is naturally cooled with raw water that is electrolyzed. It is about.

As is well known in Korea, green algae occur from spring to late autumn, resulting in poor aesthetics such as a fountain or a lake, and it takes a lot of effort and expense to remove green algae. Accordingly, various apparatuses have been proposed to suppress the occurrence of algae, and a device for sterilizing and ionizing natural surface water such as a fountain and a lake using an electrolysis device is mainly used.

However, since the conventional automatic ionized water production apparatus is configured to discharge and discharge raw water centrally, even distribution of sterilization and ionization is not achieved, resulting in a decrease in efficiency of sterilization and suppression of algae generation, The raw water sucked into the electrolytic cell of the electrolyzer by the water drops during the electrolysis process and the flow rate is slowed, so that the sludge produced during the electrolysis process is not discharged to the outside, and the electrode plate is irregularly worn by the deposited sludge. There is a problem of shortening the life of the electrode plate inside the electrolytic cell, and securing a space for installation of a control box of the electrolysis device controlling the electrode plate of the electrolytic cell, as well as a problem of causing wiring and piping work due to concrete pavement. there was.

In addition, the electrolysis device is to be placed in an inoperable state by increasing the internal temperature of the decomposition device to 70 ~ 80 degrees due to the synergism of the external heat with the heat generated itself in the summer, for this purpose, conventionally, such as a blower fan The same separate cooling device is to be installed, and in this case, there is a problem that the quality and reliability of the device are reduced by causing a risk of short circuit in the water installation.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of which is to continuously discharge the water in the ionized state by electrolyzing the raw water in the water while floating on the water fountain and lake It is possible to more effectively suppress the sterilization and algae generation of natural surface water such as, and to maintain the high water pressure generated by the operation of the underwater motor until it is discharged to the outside through the electrolysis process. The sedimentation sludge and gas generated during the electrolysis process can be more easily discharged, and the lower part of the heat generating electrolysis device is cooled in water and the upper part is naturally cooled with raw water which is electrolyzed. The present invention provides an automatic ionized water production apparatus.

One embodiment of the automatic ionized water production apparatus according to the present invention for achieving the object of the present invention comprises an electrolysis device having an electrolytic cell on the upper side of the electrolyzed to change the raw water introduced into the ionized water state; A box body made of stainless steel formed of a rectangular enclosure opened to an upper side to accommodate the electrolysis device therein; A buoyant material coupled to the upper side of the box body so that the lower part of the box body is submerged below the water surface and the upper part is floated above the water surface, and a plurality of submerged weights connected by rope to the buoyant material; It is installed on one side of the box body; an underwater motor to supply and circulate the raw water to the electrolytic cell of the electrolysis device; characterized in that consisting of.

In addition, the electrolyzer is provided with a pair of (+) (-) copper electrode plate capable of variable conversion inside the electrolyzer case in which the upper part is open and the lower part is blocked, but spaced along the inner wall of the electrolyzer case. By forming a raw water circulation path between the (+) (-) copper electrode plate, the electrolytic cell cover on the upper side of the (+) (-) copper electrode plate combined with a rubber packing to the electrolytic cell case, the raw water circulation It is characterized in that the inlet and the drain port is formed in the electrolytic cell cover of the bottom side and the upper side of the electrolytic cell case to be the inlet and outlet of the passage.

In addition, the present invention is characterized in that the spacing between the (+) (-) copper electrode plates 22 and 23 and the diameter of the drain hole formed in the electrolytic cell cover are the same, the electrolytic cell case and (+) The raw water circulation path by the (-) copper electrode plate and the electrolytic cell cover are formed in a square shape, and the electrolytic cell cover may visually check the state of the (+) (-) copper electrode plate inside the electrolytic cell case. Characterized in that formed of a transparent material.

In addition, the present invention is the discharge hole 28 and the inlet hole on one side and the other side of the (-) copper electrode plate located in the inner side of the pair of (+) (-) copper electrode plate provided along the inner wall of the electrolytic cell case (29) is formed so that some raw water circulating along the raw water circulation path between the (+) (-) copper electrode plates is discharged to the bottom surface of the electrolytic cell case and flows back into the raw water circulation path again. Characterized in that configured.

As described above, according to the present invention, by discharging the raw water in the water to the ionized state continuously in a floating state, the sterilization and the generation of algae for natural surface water such as a fountain and a lake are more efficiently performed. It has an effect that can be suppressed.

In addition, the present invention is to maintain the high water pressure generated by the operation of the underwater motor until it is discharged to the outside through the electrolysis process as well as the (+) (-) copper electrode plate of the (+) (-) It is configured to change the polarity and to ensure the ease of wiring and piping, the discharge of the deposited sludge and gas generated during the electrolysis process, as well as the deposited sludge is more easily separated and discharged from the electrode plate of the device It has the effect of further improving the quality and reliability.

In addition, the present invention is configured to allow the cooling of the electrolysis device deteriorated by synergy by external heat with the heat generated in the summer itself, the lower portion in the water and the upper portion can be naturally cooled with the raw water to be electrolyzed by a blower fan and the like. Since the same separate cooling device is not required, the safety of the device due to the prevention of the electric leakage risk, as well as the simplification and miniaturization of the device as well as the economical effect can be further increased.

In addition, the present invention by forming the electrolytic cell cover made of a transparent material, such as transparent acrylic, it is possible to visually check the deposition state of the (+) (-) copper electrode plate and sludge inside the electrolytic cell case by the (+) (-) copper It is possible to more accurately understand the replacement timing of the electrode plate and the state of the deposited sludge, which also has the advantage of further increasing the ease of maintenance and repair of the device.

In addition, the present invention is also installed in the water by using the weight for immersion, even when installing a plurality of devices, there is no interference due to the rake or boundary stone also has the advantage of easy wiring work.

1 is a perspective view showing the overall configuration of the present invention.
2 is a longitudinal cross-sectional view of FIG.
Figure 3 is an exploded perspective view showing the electrolytic cell structure of the present invention.
4 and 5 are a perspective view and a plan view showing the assembled state of FIG.

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

Figure 1 is a perspective view showing the overall configuration of the present invention, Figure 2 is a longitudinal cross-sectional view of Figure 1, as shown in the present invention, the electrolysis device 1 accommodated in the inside of the box body 3 is the weight for immersion It is submerged below the surface by the weight (5), the upper electrolytic cell (2) of the electrolysis device (1) is floated above the surface by the buoyant material (4), the submersible motor (6) is the raw water to the electrolyzer (2) The raw water is supplied to the side, and the raw water is electrolyzed and ionized by the electrolytic cell 2, and the water is repeatedly drained into the water, and the variable conversion, that is, the polarity conversion of (+) (-), is possible inside the electrolytic cell 2 (+ A gap between the (-) copper electrode plates 22 and 23 is formed to form a raw water circulation passage 24, and the gap and ion water between the (+) (-) copper electrode plates 22 and 23 are formed. The same diameter of the drain port 27 discharged is formed until the high water pressure generated by the initial submersible motor 6 is drained without change. It can be maintained continuously, the heat generated from the upper side of the electrolysis device 1 is characterized in that the natural cooling is made by the raw water circulating inside the electrolytic cell 2 without a separate cooling device When described in more detail with reference to the accompanying drawings as follows.

The box body (3) is formed of a rectangular box opened to the upper side to accommodate the electrolysis device (1) connected to the upper electrolytic cell 2 and the electric circuit therein, any material may be any metal In this case, stainless steel is preferably corrosion resistant to prevent corrosion, and includes a fixing jaw 31 fixed to the main body insertion hole 4a of the buoyancy material 4 to be described later. The buoyancy material 4 is formed of a plate material with a styrofoam as usual, but is not limited to this, as long as it can have a buoyancy, the main body insertion opening (4a) is inserted into the box body 3 in the center portion Is formed, each corner portion is connected to the weight (5) for the immersion weight (5a). In addition, the box body 3 further includes a fixing bracket 32 for supporting and fixing the lower portion of the submersible motor 6 on one side, and one suction pipe 6a of the submersible motor 6 is located in the water. , The other side water supply pipe 6b is connected to the electrolytic cell 2 of the electrolysis device 1 and is configured to continuously supply the raw water in the electrolytic cell 2 with high water pressure as well as to continuously circulate.

3 is an exploded perspective view showing the electrolytic cell structure of the present invention, Figures 4 and 5 are a perspective view and a plan view showing the assembled state of Figure 3, the electrolytic cell 2 according to the present invention as shown therein is open at the top And a lower portion of the electrolyzer case 21, a pair of (+) (-) copper electrode plates 22 and 23 provided inside the electrolyzer case 21, and the electrolyzer case 21. It is composed of an electrolytic cell cover 21a coupled to the upper side by a bolt fastening together with rubber packings 25 and 25a, and the electrolyzer case 21 and the (+) (-) copper electrode plates 22 and 23 are formed. And the electrolytic cell cover 21a is formed in a square shape.

The (+) (-) copper electrode plates 22 and 23 are formed at intervals along the inner wall of the electrolytic cell case 21, but the electrolysis device so that the sludge deposited from the electrode plate can be more easily separated. The polarity of (+) (-) is variably converted by the electrical control operation of (1), and the raw water circulation passage 24 is provided between the (+) (-) copper electrode plates 22 and 23. In this case, the raw water circulation passage 24 is formed in a square shape like the (+) (−) copper electrode plates 22 and 23. In this way, if the positive (+) (-) copper electrode plates 22, 23 and the raw water circulation passage 24 are formed in a square, the circulation length of the raw water can be increased without occupying a large area, and thus the space utilization efficiency is increased. It is advantageous.

In addition, a suction port 26 that is an inlet of the raw water circulation passage 24 is formed at one corner of the bottom surface of the electrolytic cell case 21, and rubber packing 25 and 25 a are provided on the upper side of the electrolytic cell case 21. The electrolytic cell cover 21a coupled with the water discharge port 27 is formed to be an outlet of the raw water circulation passage 24 adjacent to the suction port 26 of the electrolytic cell case 21, and the suction port 26 and the drain port ( On the inner wall of the electrolytic cell case 21, a backflow preventing partition 21b is provided on the inner wall of the electrolytic cell case 21 to prevent the raw water introduced through the suction port 26 from flowing back toward the drain port 27 through which the electrolyzed and ionized raw water is discharged. It is provided.

On the other hand, an important issue here is that the gap between the (+) (-) copper electrode plates 22 and 23 and the diameter of the drain port 27 of the electrolytic cell cover 21a through which the ionized water is discharged are equally formed. When the gap between the + and (-) copper electrode plates 22 and 23 and the diameter of the drain port 27 of the electrolytic cell cover 21a through which the ionized water is discharged are equal, the initial high water pressure generated by the underwater motor 6 is formed. The raw water flows through the suction port 26 of the electrolytic cell cover 21a to the raw water circulation passage 24 between the (+) (-) copper electrode plates 22 and 23, and then circulates to the electrolytic cell cover 21a. Until the ionized water is drained through the drain hole 27 of the continuously maintained without variation, the sludge deposited during the electrolysis process and the gas (H ₂ ) generated during the electrolysis is discharged naturally with the ionized water to the outside It will be easier to remove the deposited sludge and gas (H ₂ ), When the electrolytic cell cover 21a is formed of a transparent material such as acrylic, the visual confirmation of the replacement timing of the (+) (-) copper electrode plates 22 and 23 and the state of the deposited sludge is performed visually. It will be possible.

In addition, the present invention is discharged in the (-) copper electrode plate 23 of the pair of (+) (-) copper electrode plate 22, 23 provided along the inner wall of the electrolytic cell case 21 ( 28 and the inlet hole 29, the raw water in the raw water circulation passage 24 through the discharge hole 28 is discharged to the bottom surface of the electrolytic cell case 21 and flows back to the inlet hole 29 By repeating the inlet to the inside of the raw water circulation passage 24 through it is configured to cool the upper heat of the electrolysis device (1) naturally without a separate cooling device, such as a blowing fan.

In the present invention configured as described above, the box body 3 having the electrolysis device 1 embedded therein by the buoyancy material 4 and the submerged weight 5 is immersed under the water surface and the electrolyzer 2 of the electrolysis device 1 Is floated on the surface of the water, the raw water is electrolyzed through the water supply pipe (6b) of the underwater motor (6) through the suction pipe (6a) of the underwater motor (6) by the operation of the underwater motor (6) It is absorbed into the electrolyzer 2 of the apparatus 1. In addition, the raw water supplied through the water supply pipe 6b of the submersible motor 6 is a positive (+) (-) copper electrode plate 22 inside the electrolyzer case 21 through the suction port 26 of the electrolyzer case 21. (23) is sucked toward the raw water circulation passage (24) side and circulated along the raw water circulation passage (24), electrolysis and ionization, the ionized water back into the water through the drain port 27 formed in the electrolytic cell cover (21a) By repeating the discharge, it is possible to sterilize surface water in natural conditions such as fountains and lakes, or to suppress the generation of algae.

And, since the gap between the (+) (-) copper electrode plates 22 and 23 and the diameter of the drain port 27 of the electrolytic cell cover 21a are equal, the raw water is (+) (-) copper electrode. Since the high water pressure by the operation of the underwater motor 6 is maintained as it is discharged through the raw water circulation passage 24 between the plates 22 and 23 through the drain port 27 of the electrolytic cell cover 21a, electrolysis The deposition sludge and gas (H ₂ ) generated during the process can be more easily discharged and removed, and the electrolytic cell cover 21a is formed of a transparent material such as acryl, etc. (22) The discharge timing 28 formed in the (-) copper electrode plate 23 located inside the electrolytic cell case 21, as well as the replacement timing of the sludge can be visually confirmed. By configuring some raw water in the raw water circulation passage 24 through the inlet hole 29 to flow along the bottom surface of the electrolytic cell case 21 The upper row of the electrolysis device 1 can be cooled without providing a separate cooling device such as a blowing fan.

In other words, the present invention can be more efficiently suppressed the sterilization of the natural surface water such as fountains and lakes and the generation of algae by repeatedly repeating the discharge of the raw water in the ionized state in the state of floating on the water surface. As the high water pressure generated by the operation of the submersible motor is maintained until it is discharged to the outside through the electrolysis process, it is possible to more easily discharge the deposited sludge and gas generated during the electrolysis process. The lower part of the electrolytic device that generates a lot of heat is cooled in water and the upper part is capable of natural cooling with raw water in which electrolysis is performed.

Although the automatic ionized water production apparatus according to the present invention has been described in detail above, this is only for describing the most preferred embodiments of the present invention, and the present invention is not limited thereto, and the scope thereof is determined by the appended claims. Become limited. In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations according to the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

1: electrolysis device 2: electrolyzer
21: electrolyzer case 21a: electrolyzer cover
21b: partition for preventing reverse flow 22, 23: (+) (-) copper electrode plate
24: raw water circulation passage 25, 25a: rubber packing
26: suction port 27: drain
28: discharge hole 29: inlet hole
3: box body 31: locking jaw
32: fixing bracket 4: buoyant material
4a: main body slot 5: immersion weight
6: underwater motor

Claims (6)

delete An electrolyzer 2 for electrolyzing the raw water introduced into the ionized water and draining the electrolyzed water; A box body (3) formed of a rectangular housing open to an upper side to accommodate the electrolysis device (1) therein; The lower part of the box body (3) is submerged below the water surface and the upper part is buoyant material (4) coupled to the upper side of the box body (3) to rise above the water surface, and a plurality of connected to the buoyancy material (4) by a rope (5a) The submerged weight 5 and; In the automatic ion water production apparatus consisting of; an underwater motor (6) installed on one side of the box body (3) for supplying and circulating raw water to the electrolytic cell (2) of the electrolysis device (1),
The electrolyzer 2 is provided with a pair of (+) (-) copper electrode plates 22 and 23 capable of variable conversion in the interior of the electrolyzer case 21 in which the upper part is open and the lower part is blocked. Installed at intervals along the inner wall of the case 21 to form a raw water circulation passage 24 between the (+) (-) copper electrode plates 22, 23, the (+) (-) copper The electrolytic cell cover 21a is coupled to the electrolytic cell case 21 together with the rubber packings 25 and 25a on the upper side of the electrode plates 22 and 23, and the positive side (+) ( And a backflow preventing partition 21b having the same width as that of the copper electrode plates 22 and 23, the bottom portion of one side of the electrolytic cell case 21 of the backflow preventing partition 21b and the other side of the electrolytic cell cover 21a. Automatic ion water production apparatus, characterized in that by forming a suction port 26 and the drain port 27 on the). The method of claim 2,
Automatic ion water production apparatus, characterized in that the interval between the (+) (-) copper electrode plates (22) and (23) and the diameter of the drain hole (27) formed in the electrolytic cell cover (21a) is the same. The method of claim 2,
Production of automatic ionized water, characterized in that the raw water circulation passage 24 and the electrolytic cell cover 21a formed by the electrolytic cell case 21 and the (+) (-) copper electrode plates 22 and 23 are formed in a square shape. Device. The method according to any one of claims 2 to 4,
The electrolytic cell cover (21a) is an automatic ionized water production apparatus, characterized in that formed with a transparent material to visually check the state of the (+) (-) copper electrode plate (22) (23) inside the electrolytic cell case (21). The method of claim 2,
The discharge hole 28 is formed in the (-) copper electrode plate 23 located inside the pair of (+) (-) copper electrode plates 22 and 23 provided along the inner wall of the electrolytic cell case 21. And some raw water circulating along the raw water circulation passage 24 between the (+) (-) copper electrode plates 22 and 23 by forming an inflow hole 29 to discharge to the bottom surface of the electrolytic cell case 21. Automatic ion water production apparatus, characterized in that configured to repeat flowing back after flowing back into the raw water circulation passage (24).

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