KR200173525Y1 - Sterilization-clean water apparatus for water tank - Google Patents

Abstract

The present invention relates to a sterilizing water purification method and a sterilizing water purification device for a water tank for continuously and uniformly disinfecting water in a water tank by ultraviolet light and ozone, wherein the ozone generated by irradiating air to the air is continuously Water is firstly sterilized by uniformly mixing, and then the first sterilized water is circulated from the lower part of the ultraviolet lamp used to generate ozone to the upper side to uniformly sterilize the water secondarily by ultraviolet light. It is a task to provide a sterilizing water purifying apparatus for a water tank capable of continuously and completely sterilizing all the water in the water tank by the process.

The sterilizing water purifying apparatus for the water tank provided by the present invention has an air passage 3 formed between the upright ultraviolet lamp 2 and the ultraviolet lamp 2 and the lower side while forming an air passage 3 between the ultraviolet lamp 2. It is fitted to the closed air induction pipe (1) and the air induction pipe (1) to form a water passage space (6) between the air induction pipe (1) and both ends of the longitudinal direction is sealed and A water inlet pipe 5 having a inlet hole 5a formed at a lower side thereof and an outlet hole 5b formed at an upper side thereof; 9), an ejector 13 installed in the lower side of the water pipe 5 so as to face the water passage space 6, and an ozone supply pipe 14 connecting the lower part of the air passage 3 and the ejector 13 to each other. ) And an air supply means 17 connected to an upper portion of the air passage 3.

In the sterilizing water purifying apparatus for a water tank of the present invention as described above, ozone is generated by irradiating air passing through an air passage, and the ozone is uniformly mixed with water introduced into the inlet by the ejector. The first sterilized water is continuously and uniformly sterilized and the first sterilized water, which is moved to the upper side of the water passage by the spraying force of ozone, is moved to the upper side from the lower side of the water passage to the upper side, and is continuously uniformed by the ultraviolet rays irradiated from the ultraviolet lamp. To be sterilized.

Description

Sterilization water purifier for water tank {Sterilization-clean water apparatus for water tank}

The present invention relates to a sterilizing water purifying apparatus for a water tank for continuously and uniformly sterilizing water in a water tank by ultraviolet rays and ozone.

Industrial or industrial plants for the manufacture of food and pharmaceuticals in factories, or constant or plant cultivation for use as drinking or washing water in homes and restaurants, in particular, require safety for humans or animals and plants.

The water used for the above uses is a sterilization process is essentially performed in order to ensure the safety before supplying, as a method of disinfecting, chlorine or other antibiotics in water has been widely used. However, when water is sterilized by drugs such as chlorine or antibiotics, the activity of the enzymes in the cells of the microorganism is weakened and strong sterilization is performed, but the disinfectant remains in the water, and the safety is concerned. In addition, resistant bacteria are generated that have resistance to the disinfectant remaining in the water, which is likely to impair the safety of the water.

As a sterilization method in consideration of the problem of sterilization by chlorine or other antibiotics, sterilization by ozone or ultraviolet rays is widely performed.

In particular, ozone is 7 times more potent than chlorine, and can get 15 to 20 times more sterilizing effect than chlorine. Since ozone directly decomposes the molecules that make up bacteria and fungi, it can effectively sterilize food poisoning bacteria or pathogenic E. coli. In addition, it has strong oxidizing power to decompose heavy metals and odors. It is lighter than air and highly unstable gas, so it is converted into oxygen or stable substance after sterilization, oxidation and decomposition (hereinafter referred to as 'sterilization'). It is known to have excellent sterilization effect and safety after sterilization.

Devices using excellent sterilization of ozone are provided with a method and a simple device for sterilizing water by supplying ozone to a container or a tank containing water. However, in the conventional technology, ozone is supplied only to a limited range in the container or tank. It is impossible to sterilize water continuously and uniformly, so we cannot expect perfect water sterilization.

The present invention takes into account the various problems of the prior art as described above, by continuously and uniformly mixing ozone generated by irradiating air with ultraviolet light to water, and then firstly sterilizing the water, and then the first sterilized water to generate ozone Sterilization for water tank that can sterilize water continuously in 2nd and evenly by ultraviolet light by circulating from the lower part of UV lamp used to the upper side and by this process. It is a problem to provide a water purifying device.

1 is a cross-sectional view of the sterilizing water purifying apparatus according to the present invention

FIG. 2 is an enlarged view of a portion A in FIG. 1; FIG.

3 is an enlarged view of a portion B in FIG.

4 is a perspective view of an ejector

5 is a cross-sectional view of the use state of the present invention

※ Code explanation for main part of drawing

1. Air induction pipe 2. UV lamp

3. Air passage 4. Spacer

5. Water pipe 6. Water space

7. Water pipe sealing cap 9. Filtration filter

10. Cap Plate 13. Ejector

14. Ozone supply pipe 17. Air supply means

WT. Water Tank WD. Sterilization Water Purifier

The sterilizing water purifying apparatus for the water tank provided by the present invention includes an upright ultraviolet lamp, an air induction pipe which is fitted to the outside of the ultraviolet lamp and forms an air passage between the ultraviolet lamps, and the lower side thereof is closed, and an air induction pipe. A water supply space formed between the air induction pipe and the air induction pipe, and a front end portion of both longitudinal directions is sealed, an inflow hole is formed at the lower side, and an outflow hole is formed at the upper side; A filtration filter which is fitted and the front ends of both longitudinal directions are closed, an ejector installed in the lower side of the water pipe to face the water passage space, an ozone supply pipe connecting the lower part of the air passage and the ejector, and the air cylinder Characterized in that the air supply means connected to the upper side of the furnace.

In the sterilizing water purifying apparatus for a water tank of the present invention as described above, ozone is generated by irradiating air passing through an air passage, and the ozone is uniformly mixed with water introduced into the inlet by the ejector. The first sterilized water is continuously and uniformly sterilized and the first sterilized water, which is moved to the upper side of the water passage by the spraying force of ozone, is moved to the upper side from the lower side of the water passage to the upper side, and is continuously uniformed by the ultraviolet rays irradiated from the ultraviolet lamp. To be sterilized.

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to the drawings.

1 is a cross-sectional view of a sterilizing water purifying apparatus according to the present invention, FIG. 2 is an enlarged view of portion A in FIG. 1, and FIG. 3 is an enlarged view of portion B in FIG.

The air induction pipe 1, which is made of a quartz material capable of transmitting ultraviolet rays and whose lower end is closed, is fitted outside the upright ultraviolet lamp 2 to form an air passage 3 between the ultraviolet lamp 2 and these air inductions. The spacer 4 is coupled to the upper end of the tube 1 and the ultraviolet lamp 2.

The spacer 4 has a hollow ring shape, and the upper end portion of the air induction pipe 1 is coupled to the large diameter portion 4a formed therein, and the upper end portion of the ultraviolet lamp 2 is attached to the small diameter portion 4b. A through hole 4c is formed in the axial direction so as to penetrate the large diameter portion 4a so that the through hole 4c communicates with the air passage 3.

The water inlet hole 5a is formed at the outer side of the air induction pipe 1 and the water inlet 5 is formed at the outer periphery of the air induction pipe 1 and the outlet hole 5b is formed at the upper periphery. (6) is formed and the upper end part of the water pipe 5 is sealed by the water pipe sealing cap 7.

The water pipe sealing cap 7 has a hollow cylindrical shape and a fastening wing portion 7a is formed on the outer surface thereof, and one side of the inner diameter portion thereof is screwed to the outer surface of the spacer 4 and its shaft One end of the direction is closely coupled to the front end of the water pipe (5).

An airtight cap 8 is coupled to the other end of the water pipe sealing cap 7 in the axial direction by a fastening bolt 8a, so that the water sealing pipe 8 between the water sealing cap 8 and the spacer 4 is closed. The space portion 7a is formed.

A filtration filter 9 is fitted to the lower outer side of the water pipe 5, and the front end portions of the filtration filter 9 in both longitudinal directions are closed by cap plates 10 and 10, respectively. Then, the cap plate 10 and the fastening blade portion 7a of the water pipe sealing cap 7 are fastened as a plurality of fastening rods 11 and fastening bolts 12.

An ejector 13 is installed in the lower side of the water pipe 5 so as to face the water space 6.

As shown in Figs. 3 and 4, the ejector 13 has a threaded portion 13a formed from the lower front end in the axial direction and a water inflow groove 13b formed on the outer surface of the middle portion in the axial direction. A small diameter ozone injection hole 13c is formed from the water inlet groove 13b toward the screw portion 13a, and the other end of the axial direction from the water inlet groove 13b is smaller than the ozone injection hole 13c. 13 d of mixing injection holes which have a large diameter are formed. Further, a screw engaging portion 13e is formed on the lower outer surface of the water inflow groove 13b. In the ejector 13 of this configuration, the screw coupling portion 13e is screwed to the lower cap plate 10 so that the mixing spray hole 13d faces the water passage space 6.

One end of the ozone supply pipe 14 is coupled to the threaded portion 13a of the ejector 13, and the other end of the ozone supply pipe 14 connects the space 7a and the spacer 4 in the water pipe sealing cap 7. It extends to the lower side of the air passage (3) and the check valve 15 is provided in the ozone supply pipe (14).

The magnetic 16 is fixed to the lower portion of the water supply space 6 to filter iron in water flowing into the inlet 5a of the water pipe 5.

Reference numeral 17 denotes normal air supply means connected to the air passage 3 through the space portion 7a and the through-hole 4c of the spacer 4 in the water pipe sealing cap 7. The wire is connected to the positive electrode terminal of the ultraviolet lamp 2, the reference numeral 19 is a hook fixed to the upper portion of the water pipe sealing cap (7), the reference numeral 20 is a leg member coupled to the lower cap plate (10). . Reference numeral 21 denotes a fixed plate that firmly fixes the air induction pipe 1 in the water supply pipe 5.

The action of sterilizing the water in the water tank by the present invention as described above is as follows.

Sterilization water purification device (WD) for the water tank of the present invention is placed in the water tank (WT) shown in Figure 5 and the inlet of the hook 19 and the water tank (WT) fixed to the discharge pipe sealing cap (7) Install and fix the fixed hook (H) with chain (C).

In the state in which the sterilizing water purification device (WD) for the water tank of the present invention is installed as described above, water is filled in the water passage space 6, and in this state, the air supply unit 17 is operated and the ultraviolet lamp 2 When light is emitted, the air supplied by the air supply means 17 passes through the space portion 7a formed in the water passage sealing cap 7 and the through hole 4c formed in the spacer 4 to the lower side of the air passage 3. Will be moved to.

When the air moves along the air passage 3, the oxygen in the air is converted into ozone by irradiating the ultraviolet light of the ultraviolet lamp 2 to the air during the movement, and ozone is generated. It is transferred to the ejector 13 through).

The ozone transported to the ejector 13 is injected from the ozone injection hole 13c of the ejector 13 to the water inlet groove 13b to rise through the mixing injection hole 13d. Water flowing into the inlet hole 5a of the pipe 5 flows into the water inlet groove 13b of the ejector 13 and is uniformly and continuously mixed with ozone while passing through the mixing injection hole 13d together with ozone. Sterilized by tea. Here, water flows into the inlet hole 5a of the water pipe 5 by the injection pressure of ozone, is sucked into the water inlet groove 13b of the ejector 13, and passes through the mixing spray hole 13d to pass through the water space 6. Since it moves to the upper side of the separate means for circulating the water is not required.

Then, when the water sterilized by ozone first moves from the lower side to the upper side of the water passage 6, the water is sterilized continuously and uniformly by the ultraviolet rays irradiated from the ultraviolet lamp 2 in this process. The discharged water flows into the water tank WT through the outflow hole 5b formed on the upper side of the water pipe 5. In this process, since the air induction pipe 1 inserted to the outside of the ultraviolet lamp 2 is made of a quartz material capable of transmitting ultraviolet light, no problem occurs in sterilizing water by ultraviolet light emitted from the ultraviolet lamp 2. Will not.

Accordingly, when the water in the water tank WT is sterilized by the sterilizing water purification device WD for the water tank of the present invention as described above, the water in the water tank WT is purified uniformly by ozone and ultraviolet rays for two times. By sterilization and continuous sterilization, all the water in the water tank (WT) can be completely sterilized and purified.

The present invention is used to firstly sterilize water by continuously spraying and uniformly mixing ozone generated by irradiating air with ultraviolet light to water, and then to generate ozone by the injection pressure of ozone. It is circulated from the outer bottom of the ultraviolet lamp to the upper side so that the water can be sterilized by the ultraviolet light continuously and uniformly.

Therefore, the present invention is to sterilize water by continuously mixing ozone with water in the circulating water tank, so that the water can be sterilized uniformly, and the first sterilized water can be irradiated with UV light continuously and then uniformly with the secondary. Since sterilization, all water in the water tank can be completely and effectively sterilized.

Furthermore, the sterilizing water purifying device for the water tank of the present invention, without installing a separate ultraviolet lamp to sterilize the water by ultraviolet light, as well as the second sterilization of water by the ultraviolet lamp used to generate ozone Since a device for circulating water in the tank is not provided separately and the water in the water tank is circulated by the injection pressure of ozone, the configuration can be extremely simple and can be supplied at low cost.

Claims (2)

The air induction pipe (1) and the air induction, which are inserted in the upright ultraviolet lamp (2) and the outside of the ultraviolet lamp (2), form an air passage (3) between the ultraviolet lamp (2), and the lower side is closed. Inserted to the outside of the pipe (1) to form a water passage space (6) between the air induction pipe (1), the front end portion of both longitudinal direction is sealed, the inlet hole (5a) is formed on the lower side, the outflow on the upper side Water pipe 5 having a hole 5b formed therein, a filtration filter 9 fitted in the lower outer side of the water pipe 5, and closed at both ends in the longitudinal direction, and in the lower side of the water pipe 5; In the ejector 13 installed to face the water passage space 6, the ozone supply pipe 14 connecting the lower portion of the air passage 3 and the ejector 13, and the upper portion of the air passage 3; It is connected to the air supply means 17, the ozone is generated by the irradiation of ultraviolet light to the air passing through the air passage and the ozone As the water is uniformly mixed with the water flowing into the inflow hole by the ejector, the water is continuously and uniformly sterilized first and the first sterilized water moved to the upper side of the water space by the spraying force of ozone is above the water space. Sterilizing water purifying apparatus for a water tank, characterized in that the sterilization in a second successive uniform by the ultraviolet rays irradiated from the ultraviolet lamp while moving to. The ejector 13 has a threaded portion 13a for connecting the ozone supply pipe 14 from one end in the axial direction to the inside of the ejector 13, and a water inflow groove 13b on the outer surface of the middle portion in the axial direction. In addition, a small diameter ozone injection hole (13c) is formed from the water inlet groove (13b) toward the screw portion (13a), and the ozone injection is carried out from the water inlet groove (13b) to the other end in the axial direction. A sterilizing water purifier for a water tank, characterized in that a mixing spray hole (13d) having a diameter larger than that of the hole (13c) is formed.