KR100796738B1 - Apparatus for producing water of high oxygen content having high velocity of dissolution - Google Patents

Abstract

The present invention relates to an oxygen water generator capable of rapidly dissolving oxygen, and in particular, to make oxygen water produced while high-purity oxygen produced by electrolysis using water without using electrolytes, additives, catalysts, etc. A water tank 100 containing water therein; An oxygen generator 200 for producing and supplying high purity oxygen; A pump 310 connected to the input pipe 110 connected to the reservoir 100 and the oxygen generator 200, and an injector 320 connected to both ends of the pump 310 are installed on the inner side of the nonwoven fabric. Between the dissolution tank 330 which is provided with the 331, the twist hose 340 connected to this dissolution tank 330, and the output hose 120 connected to this twist hose 340 and the said reservoir 100 Quick dissolution unit 300 consisting of a valve 350 is installed; It comprises a water outlet 130 made of a connection pipe 131 installed on one side of the reservoir 100 and the cock 132 connected to the connection pipe 131, the operation is easy, noise is generated It does not use an electrolyte such as alkali, so that it is safe and easy to manage, consumes less power, and can safely prepare a high concentration of oxygen water for drinking.

Oxygen water, electrolysis, melting vessels, rapid melting, oxygen generators.

Description

Oxygen water generator that can rapidly dissolve oxygen {Apparatus for producing water of high oxygen content having high velocity of dissolution}

1 is an embodiment of an oxygen water generator capable of rapid dissolution of oxygen of the present invention

       Indicating section,

2 is an oxygen generator of the oxygen water generator capable of rapid dissolution of oxygen of the present invention

       A schematic cross-sectional view showing a first embodiment,

3 is a rapid dissolving unit of the oxygen water generator capable of rapid dissolution of oxygen of the present invention

       Cross-sectional view showing another embodiment,

4 is an oxygen generator of the oxygen water generator capable of rapid dissolution of oxygen of the present invention

       Exploded view showing a second embodiment,

5 is an oxygen generator of the oxygen water generator capable of rapid dissolution of oxygen of the present invention

       Cross-sectional view showing an electrolysis unit of a second embodiment,

6 is an oxygen generator of the oxygen water generator capable of rapid dissolution of oxygen of the present invention

       Sectional drawing which shows 3rd Example.

<Explanation of symbols for the main parts of the drawings>

100: reservoir 130: water outlet

200: oxygen generator 300: rapid dissolution

310: Pump 320: Injector

330: melting vessel 340: twisted hose

The present invention relates to an oxygen water generator capable of rapidly dissolving oxygen, in particular, by allowing the high-purity oxygen produced by electrolysis using water without the use of electrolytes, additives, catalysts, etc., to produce oxygen water while undergoing rapid dissolution. Rapid operation of oxygen that is easy to operate, generates no noise and is safe and easy to manage because it does not use electrolytes such as alkali, and consumes less power and quickly produces safe high concentration oxygen water. It relates to an oxygen water generator that can be dissolved.

Oxygen is inhaled into the body by respiration, and blood is supplied to each organ of the human body, and the supplied oxygen is consumed by brain activity and kinetic energy.

Oxygen consumption in vivo varies considerably between tissues, and the oxygen consumption of the brain is greater in the oxygen consumption between the brain and muscles. The brain, the largest oxygen consumer of all organs and organs, weighs only 1.4kg and is about 2% of the body's weight, but about 25% of the body's consumption.

It doesn't have a substance like myoglobin that can store oxygen in the body like muscles, so the supplied oxygen is consumed all at once. When the air you breathe becomes anaerobic, the oxygen partial pressure required by the pulmonary blood does not occur, so that even one breath of the anaerobic air may cause loss of consciousness.

Oxygen oxidizes our bodies and gives us resistance to infectious microbes and pathogens. You can't live without sending oxygen to every corner of your body. These movements are the heart and lungs, and the lungs have about 700 million lung cells (alveoli) left and right to supply oxygen to the blood, and the heart pumping action to supply blood to the corners of the body.

Most people's blood is acidified due to lack of exercise and harmful foods, and cholesterol is attached to blood vessels, impeding blood flow and becoming a source of all adult diseases, but it can effectively restore the debilitated functions through the supply of fresh oxygen. .

As an example of the so-called oxygen water generator for producing water containing a large amount of oxygen as described above, there may be mentioned an oxygen water generator of Patent Application No. 2003-0034755 by the present applicant.

The oxygen water generator generates oxygen by using an oxygen generator using three methods, a PSA method, a membrane method, and a flat membrane method, to prepare oxygen water by rapidly dissolving the generated oxygen in water.

However, the conventional oxygen water generator as described above is complicated in the process of generating oxygen, and the moisture generated when the compressor inhales and compresses the air to be sent to the nozzle acts on the zeolite in the nozzle to generate oxygen. To reduce sharply, the noise and vibration generated by the compressor may rather stress the user or disturb sleep, there was a problem that there is a fear that bacteria inside.

In addition, the oxygen production apparatus using the electrolysis method has been developed and used in recent years, but this requires an attention to its handling by using an alkaline electrolyte solution, there was a disadvantage that safety is a problem.

In order to improve the drawbacks as described above, the inventor No. 10-2004-0079231 filed by the present applicant has an oxygen production apparatus for generating oxygen by electrolysis using water. The present invention is to provide an oxygen water generator using an oxygen production apparatus that is safe and easy to use, low power consumption.

The present invention is to solve the above-mentioned shortcomings, it is easy to operate, does not generate noise, and does not use electrolytes such as alkali, safe and easy to manage, low power consumption, safe high concentration of oxygen water An object of the present invention is to provide an oxygen water generator capable of rapidly dissolving oxygen, which can be manufactured and consumed quickly.

The present invention, and the water tank containing the inside; An oxygen generator for producing and supplying high purity oxygen; A pump connected to the water tank and an input pipe connected to the oxygen generator, a melting tank connected to the pump and having an injector installed at both ends and a nonwoven fabric provided at the inside thereof, a twist hose connected to the melting tank, and twisted. A rapid dissolving unit comprising a valve installed between a hose and an output pipe connected to the reservoir; It is achieved by including a conduit installed on one side of the reservoir and a water outlet consisting of a coke connected to the connector.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing an embodiment of an oxygen water generator capable of rapidly dissolving the oxygen of the present invention, the present invention includes a water reservoir 100 containing water therein; An oxygen generator 200 for producing and supplying high purity oxygen; A pump 310 connected to the input pipe 110 connected to the reservoir 100 and the oxygen generator 200, and an injector 320 connected to both ends of the pump 310 and installed on the nonwoven fabric. Between the dissolution tank 330 which is provided with the 331, the twist hose 340 connected to this dissolution tank 330, and the output hose 120 connected to this twist hose 340 and the said reservoir 100 Rapid dissolution unit 300 consisting of a valve 350 that is installed; It is characterized in that it comprises a water outlet 130 consisting of a connection pipe 131 is installed on one side of the reservoir 100 and the cock 132 connected to the connection pipe 131.

Figure 2 is a schematic cross-sectional view showing a first embodiment of the oxygen generator of the oxygen water generator capable of rapid dissolution of oxygen of the present invention, the oxygen generator 200 used in the present invention, the water through the inlet pipe 211 Water tank 210 is introduced, the oxygen outlet 212 is formed; A water level control unit 220 installed at the water inlet pipe 211 to adjust the water level in the water tank 210; Located at the lower side of the water tank 210 to electrolyze water, the porous anode 231 in contact with the water of the water tank 210, and the electrode assembly membrane located below the porous anode 231 An electrolysis unit 230 composed of a 232 and a porous cathode 233 positioned below the electrode assembly membrane 232; An airtight member 240 for airtightness of the electrolysis unit 230; Located in the lower side of the electrolysis unit 230 is characterized in that it comprises a case 250 formed with a discharge port 251 for discharging water and hydrogen.

The airtight member 240 is positioned at the edge of the positive electrode 231, the negative electrode 233, and the electrode assembly membrane 232, so that water in the water tank 210 is discharged from the positive electrode 231, the negative electrode 233, and the electrode. The case 250 or the water tank may include the sealing member 241 and the positive electrode 231 and the negative electrode 233, the electrode bonding film 232, the sealing member 241, and the like, which flow only toward the bonding film 232. Bolts 242 and nuts 243 are used to couple together 210.

In addition, the electrolytic unit 230 is fixed between the water tank 210 and the case 250, so that the water tank 210 and the case 250 in contact with the fixed position in the horizontal direction 252 is provided to fix the positive electrode 231 to the fixing plate 252, and the sealing member 241, the electrode assembly film 232, and the negative electrode 233 are preferably fixed together.

In order to operate the oxygen generator 200 as described above, when purified water is introduced into the water supply pipe 211 and supplied to the water tank 210, the water level control unit 220 adjusts the water level in the water tank 210. While the water passes through the electrolysis unit 230, electrolysis occurs to produce oxygen.

At this time, the water flowing into the electrolysis unit 230 should be supplied with purified water, for this purpose, the water flowing into the water inlet pipe 211 is first passed through a water purification device 260 such as an ion exchange resin.

The operation of the oxygen generator 200 as described above is the same as the operation of the oxygen water generator of the patent application No. 2003-0034755 by the present applicant, the operation and effects thereof will be omitted below.

On the other hand, the dissolution cylinder 330 of the rapid dissolution unit 300 is connected to each other in series, it is preferable that the at least two or more cylinders having a non-woven fabric 331 inside, more preferably, in Figure 3 As shown in the figure, four cylinders 332, 333, 334, and 335 connected in series with each other are configured.

That is, the melting cylinder 330 is connected in series with each other, the injector 320 is connected to the input pipe 110 is installed, the first melting vessel 332 is provided with a non-woven fabric 331 on the discharge side )and; A second melting container 333 connected to the first melting container 332 and having a nonwoven fabric 331 at the connection receiving side thereof; A third melting container 334 connected to the second melting container 333 and provided with a nonwoven fabric 331 at a connection inlet side thereof; It is connected to the third melting cylinder 334, the non-woven fabric 331 is provided on the inlet side, the outlet side is configured to include a fourth melter 335 is provided with an injector 320.

The position of the nonwoven fabric 331 installed in each of the melting cylinders 332, 333, 334, and 335 may be variable, but the highest dissolution efficiency is provided when provided in the above positions.

On the other hand, it is preferable to further configure the thermoelectric element 140 in the reservoir 100, to maintain a high concentration of oxygen water contained in the reservoir 100 at a constant temperature.

Figure 4 is an exploded view showing a second embodiment of the oxygen generator of the oxygen water generator capable of rapid dissolution of the oxygen of the present invention, Figure 5 is a second embodiment of the oxygen generator of the oxygen water generator capable of rapid dissolution of oxygen of the present invention As a cross-sectional view showing an electrolytic portion, the present invention, the water is introduced through the water pipe 211, the water tank 210, the through-hole 213 is formed in the oxygen outlet 212 and the lower side; A water level control unit 220 installed at the water inlet pipe 211 to adjust the water level in the water tank 210; An electrolysis unit 230 for generating oxygen and hydrogen through electrolysis of water; It characterized in that it comprises a case 250 for receiving the electrolysis unit 230.

The electrolysis unit 230, which is located under the water tank 210 to electrolyze water, is attached to the through hole 213 of the water tank 210, and the through hole 213. An upper plate 234 formed with an inlet portion 234a connected thereto; An anode 231 attached to the lower side of the upper plate 234 and having a permeable portion 231a formed therethrough to allow water to pass therethrough; An electrode assembly film 232 positioned below the anode 231; A cathode 233 positioned below the electrode assembly membrane 232 and having a permeable portion 233a formed thereon; A lower container 236 that is coupled to the lower side of the cathode 233 and has a discharge port 239 for discharging hydrogen or water; A coupling member 240 for coupling through the edges of the upper plate 234, the positive electrode 231, the electrode assembly film 232, the negative electrode 233, and the lower container 236; It is composed of the airtight member 241 provided in the edge portion between the upper plate 234 and the positive electrode 231, and the edge portion between the negative electrode 233 and the lower container 236.

An O-ring 235 for airtightness is provided at the periphery of the water inlet 234a to prevent the water of the water tank 210 from penetrating into the edges of the positive electrode 231 and the negative electrode 233.

FIG. 6 is a cross-sectional view showing a third embodiment of an oxygen generator of an oxygen water generator capable of rapidly dissolving oxygen of the present invention, and the configuration of the electrolysis unit 230 is different from that of the second embodiment.

That is, the permeable part 231a of the positive electrode 231 is recessed in the lower center portion, and the permeate part 233a of the negative electrode 233 is formed in the upper center portion to be raised, whereby the positive electrode 231, the negative electrode 233, and the electrode contact are formed. The contactability at the center of the film forming 232 is improved, and the oxygen generating efficiency is improved.

In this case, the upper plate 234 is provided with an upper support jaw 237 for preventing the transmission portion 231a of the positive electrode 231 bent upward by the coupling of the coupling member 240, the lower container 236 has a lower support jaw 238 for preventing the transmission portion 233a of the cathode 233 bent downward by the coupling of the coupling member 240, the positive electrode 231 and the negative electrode 233 It is preferable to prevent the occurrence of lifting between the transmission portions 231a and 233a and the electrode assembly membrane 232.

In addition, the hole for the coupling member 240 of the positive electrode 231 and the negative electrode 233 is larger than the coupling member 240 to prevent a short circuit due to contact with the coupling member 240. Preferably, at this time, one side of the edge portion of the positive electrode 231 is inserted into the upper plate 234, the upper projection 231b for fixing the position of the positive electrode 231 is formed, the edge of the negative electrode 233 A lower side protrusion 233b is formed at one side of the lower container 236 to fix the position of the negative electrode 233 so that the positions of the positive electrode 231 and the negative electrode 233 do not rotate. desirable.

The transparent portions 231a and 233a of the anode 231 and the cathode 233 are porous as shown in FIG. 5 or a plurality of small holes are formed as shown in FIG. 232, the excess water is delivered to the lower vessel 236 to be discharged to the outlet 239 along with the hydrogen.

Hereinafter, the operation and effects of the present invention will be described with reference to FIGS. 1 to 6.

As described above, by dissolving oxygen provided from the oxygen generator 200 in the rapid dissolution unit 300 together with the water of the reservoir 100, it is possible to quickly produce a high concentration of oxygen water. do.

Operation of the rapid dissolution unit 300 is, as described above, the water and oxygen is provided with the non-woven fabric 331, the injector 320 is provided on both sides of the dissolution tank 330, Oxygen is rapidly dissolved in water while passing through the twist hose 340 installed at the end.

At this time, as described above, by connecting two or more dissolution tanks in series to increase the dissolution effect, in this case, the injector 320 may be installed only at each end of the connected dissolution tank 330.

In addition, as shown in Figure 3, it is most preferable to connect the four in series, as shown in Figure 3, wherein the non-woven fabric 331 is installed on the inlet side in which water and oxygen are introduced, but is installed in the front end The non-woven fabric is installed on the outlet side of the first melting container 332, which is due to the influence of the injector 320.

The injector 320 is a tubular shape having an inner diameter of 0.5φ, and the water is made to pass through the input pipe 110 and pass through a narrow place to increase the speed.

As described above, the oxygen generator 200 used in the present invention adds water to the electrolysis unit 230 including the porous anode 231, the electrode assembly membrane 232, and the porous cathode 233, so that the water Oxygen and hydrogen are generated during electrolysis, which can be used by using oxygen.

As described above, the oxygen production apparatus of the present invention can be manufactured in a relatively compact size, does not generate noise or other contaminants, and can safely produce oxygen using water instead of an electrolyte solution.

By this action, the present invention is to safely produce a high concentration of oxygen water to be used rapidly.

The above embodiment is an example for explaining the technical idea of the present invention in detail, and the scope of the present invention is not limited to the above drawings and embodiments.

As described above, the present invention is easy to operate, does not generate noise, and does not use an electrolyte such as alkali, which is safe and easy to manage, consumes less power, and rapidly produces safe high concentration oxygen water for drinking. It is effective to make it possible.

Claims (7)

delete delete delete A water tank containing water therein; An oxygen generator for producing and supplying high purity oxygen; A pump connected to the water tank and an input pipe connected to the oxygen generator, a melting tank connected to the pump and having an injector installed at both ends and a nonwoven fabric provided at the inside thereof, a twist hose connected to the melting tank, and twisted. A rapid dissolving unit comprising a valve installed between a hose and an output pipe connected to the reservoir; In the oxygen water producer including a water discharge portion consisting of a connection pipe and a coke connected to the connection pipe is installed on one side of the reservoir, The oxygen generator, A water tank through which water is introduced through the inlet pipe, and a through hole is formed at an oxygen outlet and a lower side thereof; A water level control unit installed at the water supply side to adjust the water level in the water tank; An upper plate positioned at a lower side of the water tank to electrolyze water and attached to a through hole of the water tank, the upper plate having an inlet connected to the through hole; An anode attached to the lower side of the upper plate and having a permeable portion formed therethrough to allow water to pass therethrough; An electrode assembly film positioned below the anode; A cathode formed at a lower side of the electrode assembly membrane to form a permeable part; A lower container coupled to the lower side of the cathode, the lower container having a discharge port for discharging hydrogen or water; A coupling member for coupling through the upper plate, the positive electrode, the electrode assembly membrane, the negative electrode, and the edge of the lower container; An electrolysis unit including an airtight member provided at an edge portion between the upper plate and an anode, and an edge portion between the cathode and the lower container; Including a case for receiving the electrolytic part, The permeation part of the anode is formed to protrude downward, the permeate part of the cathode is formed oxygen protrudes, characterized in that the rapid dissolution of the oxygen. A water tank containing water therein; An oxygen generator for producing and supplying high purity oxygen; A pump connected to the water tank and an input pipe connected to the oxygen generator, a melting tank connected to the pump and having an injector installed at both ends and a nonwoven fabric provided at the inside thereof, a twist hose connected to the melting tank, and twisted. A rapid dissolving unit comprising a valve installed between a hose and an output pipe connected to the reservoir; In the oxygen water producer including a water discharge portion consisting of a connection pipe and a coke connected to the connection pipe is installed on one side of the reservoir, The oxygen generator, A water tank through which water is introduced through the inlet pipe, and a through hole is formed at an oxygen outlet and a lower side thereof; A water level control unit installed at the water supply side to adjust the water level in the water tank; An upper plate positioned at a lower side of the water tank to electrolyze water and attached to a through hole of the water tank, the upper plate having an inlet connected to the through hole; An anode attached to the lower side of the upper plate and having a permeable portion formed therethrough to allow water to pass therethrough; An electrode assembly film positioned below the anode; A cathode formed at a lower side of the electrode assembly membrane to form a permeable part; A lower container coupled to the lower side of the cathode, the lower container having a discharge port for discharging hydrogen or water; A coupling member for coupling through the upper plate, the positive electrode, the electrode assembly membrane, the negative electrode, and the edge of the lower container; An electrolysis unit including an airtight member provided at an edge portion between the upper plate and an anode, and an edge portion between the cathode and the lower container; Including a case for receiving the electrolytic part, The upper plate is provided with an upper support jaw for preventing the permeation portion of the positive electrode from bending upward by the coupling of the coupling member, and the lower vessel supports the lower side of the lower vessel from bending the permeation portion of the negative electrode by the coupling of the coupling member. Oxygen generator capable of rapid dissolution of oxygen, characterized in that the jaw is provided. delete delete

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