KR200237414Y1 - Device For Manufacturing The Ozone Water - Google Patents

Abstract

The present invention relates to an ozone water maker that allows ozone and water, which are not completely dissolved in a jet spray device of an ozone water generator, to significantly improve the dissolved rate of ozone while passing through a separate dissolved amplification apparatus.

The present invention is in the ozone water maker to generate ozone by mixing with water to generate ozone, the water inlet passage (1) to receive the external raw water (water) through the water inlet (1a) formed on one side of the outer case (1) an electronic valve (E) for controlling the opening and closing of f); A jet injection device (A) connected to the water inflow passage (f) opened and closed by the electromagnetic valve (E) and receiving raw water; An ozone generator (B) connected to one side of the jet injection apparatus (A) through an ozone supply pipe (8) so as to supply ozone to the jet injection apparatus (A), and generating ozone using ultraviolet rays; A dissolved amplification device (C) connected to the discharge port (4a) side of the jet injector (A) and configured to dissolve undissolved raw water and ozone; An air pump (P) for sucking and supplying external air to the ozone generator (B); It is configured to include a ballast (T) for stably supplying power to each of the devices that require power supply.

Description

Ozone Water Maker {Device For Manufacturing The Ozone Water}

The present invention relates to an ozone water generator, and more specifically, ozone is dissolved by mixing and mixing ozone and water in a jet spraying device of a direct type ozone water generator that generates ozone through photochemical reaction using ultraviolet light after adding air. When manufactured with ozone water, ozone and water, which are not completely dissolved in the jet injector, pass through a separate dissolved amplification device, and are capable of greatly improving the ozone dissolution rate.

As is well known, the problem of pollution of water, air, and other foods that have a direct impact on human life due to global environmental pollution is a serious social problem.

In particular, the water pollution of the raw water (water) used for our drinking water, domestic water and agricultural water is a big problem, and the water quality of the raw water has reached an unbelievable level.

According to such water pollution, even in the case of supplying drinking water and living water through water pipes, sterilization through strong chlorine disinfection to kill bacteria causing various diseases in raw water, Although it supplies clean water, the tap water supplied after being sterilized and purified is not used as drinking water in general households, but is purified or cut off by drinking water with a separate water purifier, sometimes manufactured by a bottled water manufacturer. There was also a case of drinking bottled water to buy.

In addition, even when drinking water is used to purify water using the water purifier, a filter may be used to remove contaminants contained in tap water or to remove bacteria by using a separate water filter. As it is used throughout, foreign substances accumulate in the filter, rather, the purified water is used as sieve-contaminated drinking water, which causes problems such as causing side effects such as abdominal pain in the user.

On the other hand, in recent years, when growing crops necessary for eating, most of the crops are grown by small scale organic farming, which increases the acidification of the soil by overusing toxic pesticides to kill pests that damage most crops. Pesticides are often absorbed by crops and supplied to the surviving humans. Pesticides accumulate in the body of a person who eats crops that contain pesticides. Problems such as causing diseases are emerging.

As a result, various measures have been taken to protect the crops from pests while increasing the disinfection and water purification effects of tap water in general households, as well as improving the water quality of agricultural water, while refraining from using pesticides.

In response to these demands, it has the strongest sterilizing power after fluorine, has 7 times more sterilizing power than chlorine, and does not generate residues, promotes plant growth, removes odors and discolors. It is effective to use the ozone which has the property of decomposing pesticide (carvinyl), oil and minerals.

In other words, by artificially generating ozone and mixing ozone with water to produce and supply ozone water, sterilize drinking water through ozone characteristics and use it as drinking water or supply ozone water to crops to promote plant growth and control against pests. In addition, ozone water makers have been researched and presented to prevent the use of pesticides.

The ozone water producer as described above introduces water through an inlet pipe into a predetermined case, and the water thus injected is injected into the vortex chamber at a high flow rate through a jet injector to form a vortex, and also provides air to a separate air inlet. Ozone is generated through photochemical reaction after irradiation with ultraviolet rays, and the ozone generated in this way is sent to the vortex chamber, ozone is mixed with water causing ozone and dissolved in ozone to produce ozone water having the above characteristics. It is supposed to be.

Some of such ozone water generators have patent applications (Patent Application Nos. 2000-31415 and 2000-31416) under the names of "ozone water maker" and "jet injection device for ozone water production."

That is, the jet injection apparatus used in the above-mentioned patent application ozone water maker is shown in Figs.

Looking briefly, the jet injection device (A) of the conventional ozone water maker is connected to the threaded portion 24 to the inlet pipe 10 through which the raw water (water) is introduced, the pressure tube 102 is fastened to the screw hole 22 A first body 20 formed to measure the pressure of the raw water moving to the first moving hole 26 by the pressure gauge 100; An insert 30 inserted into the locking jaw 28 of the first body 20 to increase the flow rate of the raw water 32 moving in a tapered shape; A first taper fitting portion 42 into which the end portion of the insert 30 is fitted is formed, raw water moves to the second moving hole 43, and a second taper fitting portion 44 is formed at the other end thereof. A second body 40 having a protruding portion 46 formed thereon and mixing ozone into the first vortex chamber 41 and mixing the raw water with the vortex; A spiral vortex wing 52 which is inserted into the second tapered fitting portion 44 of the second body 40 and is formed on the fixed shaft 50 to generate vortex in the moving water; The third moving hole 76 pressurizes the spiral vortex wing 52, the screw portion 47 of the second body 40 is engaged, a second vortex chamber 72 is formed, and ozone water moves. A third body 70 having a discharge pipe 12 fixed to the third screw portion 77; The ozone opening and closing means 80 is installed on the protruding portion 46 of the second body 70 to block or open the supply of ozone introduced into the ozone inlet pipe 92 according to the internal pressure of the second body 40. It is composed.

In addition, a locking jaw 76 is formed on an inner wall surface of the third moving hole 76 of the third body 70, and the locking jaw 74 has a vortex spring pressed by the spiral vortex wing 52. 60) is installed to form a vortex.

The ozone opening and closing means 80 includes a spring 82 inserted into the protrusion 46 of the second body 40; A ball (84) operating up and down by receiving the elastic force of the spring (82); A packing 86 for contacting and blocking the ball 84 formed therein, the packing 86 being seated on the locking projection 49 of the protrusion 46 to perform sealing; It is composed of a cap member 88 is fastened and fixed to the screw thread 47 of the protrusion 46 to press and press the packing 86, the fitting protrusion 89 is formed in which the ozone inlet pipe 92 is fitted.

The ozone inlet pipe 92 is connected to an ozone generator 90 that generates ozone to supply necessary ozone.

However, in the conventional ozone water makers that manufacture and supply ozone water as described above, in mixing and supplying the incoming raw water (water) and ozone to produce ozone water, vortices are generated through jet spraying to the incoming water and mixed well with ozone. Despite this, the amount of ozone dissolved in the water stays at about 70 to 80%, which reduces the efficiency of ozone water to be treated.

In addition, when the ozone and water are not mixed properly and properly, as described above, when the dissolved rate of ozone dissolved in water drops, the smell of ozone gas diffuses severely when the ozone water is used, giving not only a sense of rejection to the user, but also The sterilization effect was deteriorated as well as the problem of not maximizing the characteristics of ozone water.

The present invention was devised to supplement the above problems, and an object of the present invention is to introduce ozone and water in a jet spray apparatus of a direct ozone water generator that generates ozone through a photochemical reaction using ultraviolet light after inputting air. When ozone is mixed and manufactured with ozone dissolved in water, ozone and water, which are not completely dissolved by the jet injector, pass through a separate dissolved amplification device and provide an ozone water maker that can greatly improve the dissolved rate of ozone. There is.

1 is an exploded perspective view showing a jet injection value of a conventional ozone water producer,

Figure 2 is a cross-sectional view showing a jet jet of the conventional ozone water production machine,

3 is a block diagram showing a schematic configuration of the ozone water production machine according to the present invention,

Figure 4 is a block diagram showing a schematic configuration of the ozone generator and dissolved amplification device in the ozone water maker according to the present invention,

FIG. 5 is a cross-sectional view illustrating an installation state of a diffuser along an X-X line of FIG. 4;

FIG. 6 is a plan view showing a state of the ozone generator and the dissolved amplifier shown in FIG. 4 as viewed from above. FIG.

* Description of the symbols for the main parts of the drawings *

1: exterior case 2: inner tube

3: ultraviolet lamp 4: outer tube

5: Mounting Base 6: Fixed Cap

7: air pipe 8: ozone supply pipe

9: ozone water discharge pipe

A: jet injection device B: ozone generator

C: dissolved amplifier E: electron valve

P: Air Pump T: Ballast

f: water inflow passage m: luminous body

w: power line

In order to achieve the above object, the present invention generates ozone by irradiating inlet air with ultraviolet rays, and in the ozone water maker for generating ozone water by mixing the ozone generated in this way with water, on one side of the exterior case forming a certain space. An electronic valve for controlling the opening and closing of the water inflow passage so as to receive external raw water (water) through the formed water inlet; A jet injection device connected to the water inflow passage opened and closed by the electromagnetic valve to receive raw water; An ozone generator connected to one side of the jet injector through an ozone supply pipe to supply ozone to the jet injector, and generating ozone using ultraviolet rays; A dissolved amplification device connected to an outlet of the jet injector and configured to dissolve undissolved raw water and ozone when the raw water and ozone are mixed from the jet injector; An air pump for sucking and supplying external air to the ozone generator; It characterized in that it comprises a ballast for stably supplying power to each of the devices that require a power supply.

At this time, the ozone generator and the dissolved amplification device is integrally formed in a double pipe structure; The ozone generator comprises an inner tube made of a glass tube, an ultraviolet lamp mounted along the center of the inner tube, and the dissolved amplifying apparatus surrounds the ozone generator and comprises an outer tube made of a transparent acrylic tube. It has a plurality of minute holes so that ozone water is aerated up between the inner wall of the tube and the outer wall of the inner tube, and is composed of a mountain base installed at regular intervals on the inner wall of the outer tube and at a lower side thereof.

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

Figure 3 is a block diagram showing a schematic configuration of the ozone water producer according to the present invention, Figure 4 is a block diagram showing a schematic configuration of the ozone generator and dissolved amplification device in the ozone water maker according to the present invention, Figure 5 It is sectional drawing which shows the installation state of an acid base along line XX of FIG. 4, and FIG. 6 is a top view which shows the state which looked at the ozone generator and dissolved amplifier shown in FIG.

As shown in FIG. 3, the ozone water producer according to the present invention has a water inflow passage so that external raw water (water) can be supplied through a water inlet 1a formed at one side of an exterior case 1 forming a predetermined space ( an electronic valve (E) for controlling the opening and closing of f); A jet injection device (A) connected to the water inflow passage (f) opened and closed by the electromagnetic valve (E) and receiving raw water; An ozone generator (B) connected to one side of the jet injection apparatus (A) through an ozone supply pipe (8) so as to supply ozone to the jet injection apparatus (A), and generating ozone using ultraviolet rays; Dissolved amplification device (C) connected to the outlet 4a side of the jet injection device (A) and configured to dissolve undissolved raw water and ozone when supplied from the jet injection device (A) in the form of mixed ozone water and ozone. ), An air pump (P) for sucking and supplying external air to the ozone generator (B), and a ballast (T) for stably supplying power to the devices requiring power supply; Consists of.

At this time, the jet injection device (A) employs the jet injection device (A) described in the prior art, detailed description thereof will be omitted.

In addition, the electronic valve (E), the air pump (P) and the ballast (T) is already known in the art and the specific configuration and its operations are omitted here.

3 and 4, in the ozone water producer according to the present invention, the ozone generator B and the dissolved amplification device C are arranged in a double pipe structure.

That is, the ozone generator B is composed of an inner tube 2 made of a glass tube and an ultraviolet lamp 3 for irradiating about 184.7 nm ultraviolet rays mounted along the center of the inner tube 2.

At this time, the outer wall of the inner tube (2) is coated with a special agent, which is a titanium oxide film that secondly forms OH radicals (Radical) to absorb ultraviolet rays, etc. irradiated from the ultraviolet lamp (3) to double the sterilization power It is supposed to be.

The dissolved amplifying device (C) is dissolved between the outer tube (4) made of a transparent acrylic tube while surrounding the ozone generator (B), and between the inner wall of the outer tube (4) and the outer wall of the inner tube (2). It consists of an acid stage 5 provided at predetermined intervals on the inner wall of the outer tube 4 and below so that the ozone water is aerated and raised.

In this case, as shown in FIG. 5, minute holes 5a are disposed in the acid base 5, and when raw water and ozone are mixed and supplied in the ozone water form from the jet injector A, they are not dissolved. The ozone water collides with the acidic base (5) and escapes in the form of aeration through the fine holes (5a), thereby maximizing the dissolved effect as residual ozone is dissolved.

The reason why the outer tube 4 is formed of a transparent acrylic tube is that the ultraviolet light of the ultraviolet lamp 3 lit in the inner tube 2 can be seen from the outside, so that the ozone water is added to the acid base 5. When bumped up and aerated, so that the bunch of bubbles can be combined with the ultraviolet light of the ultraviolet lamp 3 to increase the visual effect.

In addition, in order to maximize the visual effect as described above, while being able to float in the water between the acid base 5 of the outer tube (4) while receiving the light of the ultraviolet lamp (3) in various colors It is also preferable to insert the light-emitting body m capable of emitting light.

On the other hand, the upper and lower ends of the inner tube (2) and outer tube (4) is covered with a fixed cap (6) is sealed.

At this time, the inner tube (2) and the ultraviolet lamp (3), the upper and lower ends are respectively inserted into the fixing cap (6) is fixed in a sealed state through the fixing O-ring (2a, 3a).

Of course, the upper and lower ends of the ultraviolet lamp 3 are connected to a power line w for supplying power from the outside of the fixing cap 6 through the fixing cap 6.

In addition, the fixed cap 5 located at the upper and lower ends of the inner tube 2 introduces air into the inner tube 2 and penetrates the inner tube 2 to discharge ozone generated in the inner tube 2. The air suction port 6a and the ozone discharge port 6b are respectively formed.

An air pipe 7 connected to an air pump P for introducing external air is connected to the air inlet 6a, and the ozone outlet 6b is ozone connected to one side of the jet injector A. The supply pipe 8 is piped.

In addition, an upper portion of the outer tube 4 is provided with an ozone water outlet 4b for discharging ozone water in which the dissolved state is maximized by hitting an acidic base 5, and the ozone water outlet 4b is outside the exterior case 1. An ozone water discharge pipe 9 is connected to discharge ozone water.

In addition, as shown in Figure 6, the jet injection device (A) connected to the lower side of the outer tube 4 is the jet because the discharge port (4b) is slightly eccentrically connected at the center of the outer tube (4) In the injector A, raw water and ozone are mixed in a vortex state, and when the raw water and ozone thus mixed in the ozonated water state are introduced into the outer tube 4, the vortex is caused to flow again at a high speed.

Looking at the operation and effects of the ozone water production machine according to the present invention configured as described above are as follows.

First, when a user turns on a switch (not shown) to supply power, external electronic water (water) is introduced through the water inlet 1a as indicated by an arrow in FIG. 3 while the electronic valve E is opened. Then, the water is injected into the jet spraying device (A) along the inflow passage (f).

At this time, the raw water introduced from the outside forms a vortex while increasing the flow rate in the jet injection device (A).

On the other hand, while the raw water is introduced into the jet injection device (A) and at the same time the outside air is introduced by the operation of the air pump (P) to the inner tube of the ozone generator (B) through the air pipe (7) When the air flows into (2) and the air flows into the inner tube 2, ultraviolet rays of about 184.7 nm are irradiated from the ultraviolet lamp 3 to generate ozone.

Then, the generated ozone is supplied to the jet injection device (A) through the ozone supply pipe (8), in the jet injection device (A) by mixing ozone and raw water in a vortex state, the ozone dissolved in the raw water primary Ozone water is generated.

At this time, the amount of ozone dissolved in the raw water in the jet injector A is approximately 70 to 80% of the incoming ozone, and the remaining ozone remains in the primary ozone water.

When the primary ozone water is generated by the jet injector A, the primary ozone water is introduced into the outer tube 4 of the dissolved amplification device C.

As the primary ozone water introduced into the outer tube (4) hits the acid base (5), the water particles break down finely, so that residual ozone remaining in the primary ozone water by 20-30% is more easily dissolved. It will produce almost perfect secondary ozone water.

Thus, the secondary ozone water sufficiently dissolved between the inner tube 2 and the outer tube 4 is supplied to an appropriate place of use through the ozone water discharge pipe 9.

On the other hand, in the present invention, as the titanium oxide film formed on the outer wall of the inner tube 2 absorbs ultraviolet rays irradiated from the ultraviolet lamp 3 to make OH radicals, the sterilizing power is doubled.

As described above, according to the ozone water maker according to the present invention, the ozone dissolved in the primary ozone water supplied from the jet injector may be almost completely dissolved through the dissolved amplification device, thereby maximizing the ozone dissolved amount. Therefore, it can be usefully used in concentrated farming, fishing, and food manufacturing plants that require a large amount of ozone water.

In addition, by absorbing ultraviolet rays from the titanium oxide film formed on the outer wall of the inner tube to make and supply OH radicals, sterilization and ozone capacities may be maximized.

In addition, according to the present invention, since the ozone generator and the dissolved amplification device passing by the ozone water are formed in a double tube structure, the ozone water passing through the outer tube can be cooled by heating the heat generated from the ultraviolet lamp of the ozone generator. There is no need to provide a device is not only economical but also structurally simple, the inner tube is always clean, there is an effect that can produce high-quality ozone.

The ozone water maker according to the present invention has an effect of providing a very aesthetic feeling to the user as the light emitting body which emits light of the ultraviolet lamp emits light while the ozone water is aerated in terms of visual effects.

Claims (4)

In the ozone water maker that generates ozone by irradiating inlet air with ultraviolet rays and mixing the generated ozone with water, An electronic valve (E) for controlling opening and closing of the water inflow passage (f) to receive external raw water (water) through a water inlet (1a) formed at one side of the exterior case (1) forming a predetermined space; A jet injection device (A) connected to the water inflow passage (f) opened and closed by the electromagnetic valve (E) and receiving raw water; An ozone generator (B) connected to one side of the jet injection apparatus (A) through an ozone supply pipe (8) so as to supply ozone to the jet injection apparatus (A), and generating ozone using ultraviolet rays; Dissolved amplification device connected to the discharge port (4a) side of the jet injection device (A) is configured to dissolve the raw water and ozone that is not dissolved when received from the jet injection device (A) in the form of mixed ozone water ( C); An air pump (P) for sucking and supplying external air to the ozone generator (B); Ozone water producer comprising a ballast (T) for stably supplying power to each of the devices requiring power supply. The method of claim 1, The ozone generator (B) and the dissolved amplification device (C) are integrally formed in a double tube structure; The ozone generator (B) is composed of an inner tube (2) consisting of a glass tube, and an ultraviolet lamp (3) mounted along the center of the inner tube (2), The dissolved amplification device (C) surrounds the ozone generator (B) and surrounds the ozone water between an outer tube (4) made of a transparent acrylic tube and an inner wall of the outer tube (4) and an outer wall of the inner tube (2). An ozone water maker, characterized in that it has a plurality of minute holes (5a) to be aerated up, and is composed of an acid stage (5) provided at a predetermined interval on the inner wall, the lower side of the outer tube (4). The method of claim 2, The outer wall of the inner tube (2) ozone water producer, characterized in that the coating of a special agent, which is a titanium oxide film to absorb the ultraviolet light emitted from the ultraviolet lamp (3) to make OH radicals. The method of claim 2, An ozone water maker, characterized in that between the acid base (5) in the outer tube (2) is inserted a light emitter (m) which can float while receiving buoyancy in water and emits light upon receiving the light of the ultraviolet lamp (3).