KR100723910B1 - Apparatus for producing oxygen using water - Google Patents

Abstract

The present invention relates to an apparatus for producing oxygen using water. More particularly, the present invention relates to an apparatus for producing oxygen by using water to electrolyze water without using an electrolyte, an additive, or the like to produce high purity oxygen. Water is introduced through the water inlet pipe (11) A water tank (10) in which a water tank (12) is formed; A water level adjusting unit 20 installed on the water inlet pipe 11 to adjust the water level in the water tank 10; A porous anode 31 disposed below the water tank 10 to electrolyze water to be in contact with water in the water tank 10 and an electrode assembly 30 disposed below the porous anode 31. [ (32), and a porous cathode (33) positioned below the electrode junction body film (32); A hermetic member (40) for hermetically sealing the electrolytic part (30); And a case 50 disposed below the electrolytic unit 30 and having a discharge port 51 through which water and hydrogen are discharged. The electrolytic cell is easy to operate, does not generate noise, It is safe, easy to manage, has high efficiency, low power consumption, and has a compact appearance.

Oxygen, electrolysis, porous, electrode junction membrane, airtight member.

Description

[0001] Apparatus for producing oxygen using water [0002]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a first embodiment of an oxygen-

       Cross-section,

FIG. 2 is a view showing an embodiment of a water level control unit of an apparatus for producing oxygen using water according to the present invention.

       Showing the detail,

3 is a view showing another embodiment of the water level control unit of the oxygen-

       Showing the detail,

Fig. 4 is a view showing the second embodiment of the apparatus for producing oxygen using water according to the present invention

       Resolution,

Fig. 5 is a cross-sectional view of the electrolysis unit of the second embodiment of the oxygen-

       Sectional view,

6 is a view showing a third embodiment of the apparatus for producing oxygen using water of the present invention

       Cross-section.

Description of the Related Art

10: water tank 11: inlet pipe

12: Oxygen outlet port 20:

30: electrolysis unit 40: airtight member

50: Case

The present invention relates to an apparatus for producing oxygen using water, and more particularly, it relates to an apparatus for producing oxygen using water, in which water is electrolyzed to produce high purity oxygen without using an electrolyte, an additive, The present invention relates to an oxygen production apparatus using water which is safe, easy to manage, high efficiency, low in power consumption, and has a compact outer shape.

Oxygen is inhaled into the body by breathing, supplied to the organs of the body by blood, and the oxygen supplied is consumed by brain activity and kinetic energy.

Oxygen consumption in vivo varies considerably from one tissue to another, and oxygen consumption in the brain and muscles is greater than oxygen consumption in the brain. The brain, the largest oxygen consumer in the entire organ or organ, weighs only 1.4 kilograms, about 2 percent of body weight, but about 25 percent of the body's consumption.

Like muscles, it does not have the same material as myoglobin, which can store oxygen in the body to some extent. If the breathing air becomes anaerobic, the required partial pressure of oxygen does not occur due to the pulmonary blood, so even breathing of the oxygen-free air can lead to loss of consciousness.

Oxygen oxidizes our bodies and gives them resistance to infectious microorganisms and pathogens. It can not live unless oxygen is constantly sent to the inner corners of the body. These movements are heart and lungs, and lungs have about 700 million left and right lung cells (alveoli) to supply oxygen to the blood, and by the pumping action of the heart, blood is supplied to the corners of the body.

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

An example of an oxygen-water-producing machine for producing water containing a large amount of oxygen as described above is an oxygen-water-producing machine of Patent Applicant 2003-0034755 by the present applicant.

The oxygen-water generator uses an oxygen generator using three methods of PSA, membrane and flat membrane to generate oxygen and dissolve rapidly in water to produce oxygenated water.

However, in the conventional oxygen water generator as described above, the process of generating oxygen is complicated. When moisture generated when the compressor sucks and compresses the air and sends it to the nozzle acts on the zeolite in the nozzle to generate oxygen, . In addition, noise and vibration generated by the compressor may cause stress to the user or interfere with sleeping, and there is a fear that the bacteria may propagate inside.

Recently, an apparatus for producing oxygen using an electrolysis method has been developed and used. However, since the use of an alkaline electrolyte solution requires attention to its handling, there is a disadvantage that safety is a problem.

Disclosure of the Invention The present invention has been made to solve the above drawbacks, and it is an object of the present invention to provide a fuel cell system that is simple in operation, generates no noise, is safe and easy to manage by using no electrolyte such as alkali, To provide an apparatus for producing oxygen using water.

The present invention provides a water purifier comprising: a water tank into which water is introduced through a water inlet pipe and in which an oxygen outlet is formed; A water level adjusting unit installed at the water intake observation to adjust the water level in the water tank; A porous anode in contact with the water of the water tank; an electrode assembly body film positioned below the porous anode; and a porous cathode disposed under the electrode assembly body membrane, An electrolytic unit comprising: A hermetic member for airtightness of the electrolytic unit; And a case disposed below the electrolytic unit and having a discharge port through which water and hydrogen are discharged.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view showing a first embodiment of an apparatus for producing oxygen using water according to the present invention. FIG. 1 is a sectional view of a water tank 10 )Wow; A water level adjusting unit 20 installed on the water inlet pipe 11 to adjust the water level in the water tank 10; A porous anode 31 disposed below the water tank 10 to electrolyze water to be in contact with water in the water tank 10 and an electrode assembly 30 disposed below the porous anode 31. [ (32), and a porous cathode (33) positioned below the electrode junction body film (32); A hermetic member (40) for hermetically sealing the electrolytic part (30); And a case 50 located below the electrolytic unit 30 and having a discharge port 51 through which water and hydrogen are discharged.

The hermetic member 40 is located on the edge side of the anode 31 and the cathode 33 and the electrode junction body film 32 so that the water in the water tank 10 is separated from the cathode 31, The anode 33 and the electrode assembly body film 32 and the sealing member 41 are connected to the case 50 or the water tank (not shown) 10 and the bolts 42 and the nuts 43 are used.

The water tank 10 is connected to the case 50 in a horizontal direction so that the electrolytic unit 30 can be fixedly positioned between the water tank 10 and the case 50. [ It is preferable to provide a fixing plate 52 to fix the positive electrode 31 to the fixing plate 52 and to fix the sealing member 41 and the electrode conjugate film 32 and the negative electrode 33 together.

The electrodes of the positive electrode 31 and the negative electrode 33 are coated with iridium oxide and tin oxide.

FIG. 2 is a detailed view showing an embodiment of a water level control unit of an apparatus for producing oxygen using water according to the present invention, wherein the water level control unit 20 includes a knitting sensor 21 installed on the lower side of the water intake pipe 11, Wow; And a solenoid valve (22) connected to the knitting sensor (21) and controlling the inflow of water.

Thus, when water flows into the water tank 10 and the water level sensor 21 reaches a certain level, the solenoid valve 22 is closed to adjust the water level.

3 is a detailed view showing another embodiment of the water level adjusting part of the oxygen-producing apparatus using water according to the present invention, wherein the water level adjusting part 20 is rotated by a shaft 23 on the lower side of the water- Water is introduced into the water tank 10 by the use of the buoy 25 which is provided at the end of the possible arm 24 and opens and closes the water inlet pipe 11 so that the buoy 25 is floated The arm 24 is rotated to block the side of the water inlet pipe 11.

FIG. 4 is an exploded view showing a second embodiment of the apparatus for producing oxygen using water of the present invention, and FIG. 5 is a cross-sectional view showing an electrolysis unit of the second embodiment of the apparatus for producing oxygen using water according to the present invention, A water tank 10 into which water flows through the water inlet pipe 11 and has an oxygen outlet 12 and a through hole 13 formed at a lower side thereof; A water level adjusting unit 20 installed on the water inlet pipe 11 to adjust the water level in the water tank 10; An electrolysis unit 30 in which oxygen and hydrogen are generated through electrolysis of water; And a case (50) for housing the electrolytic part (30).

The electrolytic unit 30 is located below the water tank 10 and electrolytates the water. The electrolytic unit 30 is attached to the through hole 13 of the water tank 10, An upper side plate 34 on which a water receiving portion 34a is formed; A positive electrode 31 attached to the lower side of the upper side plate 34 and having a transmitting portion 31a for allowing water to pass therethrough; An electrode junction body film (32) located under the anode (31); A cathode 33 on the lower side of the electrode junction body film 32 on which the transmission portion 33a is formed; A lower vessel 36 coupled to the lower side of the cathode 33 and having a discharge port 39 for discharging hydrogen or water; An engaging member 40 for engaging with an edge portion of the upper side plate 34, the anode 31, the electrode assembly film 32, the cathode 33, and the lower vessel 36; And a hermetic member 41 provided at a rim portion between the upper side plate 34 and the positive electrode 31 and at a rim between the negative electrode 33 and the lower container 36.

An O-ring 35 for airtightness is provided in the peripheral portion of the water intake portion 34a to prevent water in the water tank 10 from permeating into the rims of the anode 31 and the cathode 33. [

6 is a cross-sectional view showing a third embodiment of the apparatus for producing oxygen using water according to the present invention, and differs from the second embodiment in the configuration of the electrolysis section 30. As shown in Fig.

That is, the transmission portion 31a of the anode 31 protrudes downward, and the transmission portion 33a of the cathode 33 protrudes upward, so that the distance between the anode 31 and the cathode 33, The contactability of the bonding film 32 is improved, and the oxygen generating efficiency is improved.

In this case, the upper side plate 34 is provided with an upper supporting step 37 for preventing the transmission part 31a of the positive electrode 31 from being bent upward by the engagement of the engaging member 40, It is preferable that the transmissive portion 33a of the cathode 33 is bent downward by the engagement of the engaging member 40 in the lower shell 36.

The hole for allowing the coupling member 40 of the positive electrode 31 and the negative electrode 33 to pass therethrough is formed larger than the coupling member 40 so as to prevent a short circuit due to contact with the coupling member 40 An upper protrusion 31b for fixing the position of the positive electrode 31 is formed at one side of the rim of the positive electrode 31 and an upper protrusion 31b for fixing the position of the positive electrode 31 is inserted into the upper plate 34, And a lower protrusion 33b for fixing the position of the cathode 33 inserted into the lower vessel 36 is formed at a side of the lower vessel 36 so that the positions of the anode 31 and the cathode 33 are not rotated desirable.

As shown in FIG. 5, the permeable portions 31a and 33a of the positive electrode 31 and the negative electrode 33 may be formed of a porous material or a plurality of small holes may be formed as shown in FIG. A part of the water that does not act on the electrode junction body film 32 and does not act on the electrode junction body film 32 collects in the lower vessel 36 and is discharged to the discharge section 39 together with hydrogen.

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

As described above, oxygen and hydrogen are generated by electrolysis of water by the electrolysis section 30 composed of the porous anode 31, the electrode junction body film 32 and the porous cathode 33, And the generated oxygen is used.

The apparatus for producing oxygen of the present invention as described above can be manufactured in a comparatively compact size, does not generate noise or other contaminants, and can produce oxygen safely using water instead of the electrolytic solution.

In order to operate the apparatus for producing oxygen of the present invention, when purified water is introduced into the water inlet pipe (11) and supplied to the water tank (10), the water tank (10) Is filled. On the other hand, the water in the water tank 10 is produced through electrolysis while passing through the electrolytic unit 30.

At this time, purified water is to be supplied to the water flowing into the electrolytic unit 30. To this end, the water flowing into the water inlet pipe 11 is first passed through the water purifier 60 such as an ion exchange resin, and then introduced.

The ion exchange resin is also used in a water purifier. In order to lower the hardness, the cation resin 61 is used. In order to remove nitrate, fluorine, iron, chlorine and sulfate ions, anion resin 62 is used, The water flowing into the membrane 32 side is made into purified water.

The purified water flowing into the water tank 10 is transferred to the porous anode 31. The porous anode 31 is formed so as to allow water to pass therethrough so that water passes through the anode 31 And electrolysis occurs at the cathode 33. The formula of the reaction occurring in the anode 31 and the cathode 33 at this time is expressed as follows.

Anode reaction: 2H ₂ O -> O ₂ + 4H ⁺ + 4e ^-

Cathodic reaction: 4H ⁺ + 4e ^- - > 2H ₂

Therefore, oxygen is generated on the side of the anode 31. The oxygen is collected to the outside through the oxygen outlet 12 and hydrogen is generated on the side of the cathode 33. The hydrogen and the remaining water are discharged through the outlet 51 ). ≪ / RTI >

In the second embodiment shown in FIGS. 4 and 5, the electrolytic unit 30 is modularized to have a more compact appearance, and can not participate in the reaction with the electrolytic unit 30, It is possible to minimize the collection of a water in the lower container 36.

That is, in the first embodiment, the airtightness member 40, in particular, the bolt 42 and the nut 43 are exposed directly to the water in the water tank 10, so that electric short- However, in the second embodiment, this phenomenon does not occur because the water in the water tank 10 is not in direct contact with the hermetic member 40.

On the other hand, in the third embodiment shown in Fig. 6, as described above, the positive electrode 31 and the negative electrode 33 are protruded toward the electrode junction body film 32 so as to be in closer contact with the electrode junction body film 32 The efficiency of electrolysis can be further improved.

In this case, as in the second embodiment, the edge portions of the anode 31, the cathode 33 and the electrode junction body film 32 are not directly exposed to water in the water tank 10, And the O-ring 35 provided between the through-hole 13 further reduce this possibility.

When the bolts 42 and the nuts 43 of the coupling member 40 are tightened while the positive electrode 31 and the negative electrode 33 protrude as described above, The upper protrusion 31b and the lower protrusion 33b are provided, respectively, so that the electrolysis efficiency can be improved while preventing such a phenomenon.

The holes through which the bolts 42 pass through the positive electrode 31 and the negative electrode 33 are formed to be larger than the bolts 42 so that when the bolts 42 and the nuts 43 are engaged, The upper protrusion 31b and the lower protrusion 33b are formed on the anode 31 and the cathode 33 and are coupled to the upper plate 34 and the lower container 36. Therefore, So that they are firmly coupled.

The above embodiment is an example for explaining the technical idea of the present invention specifically, and the scope of the present invention is not limited to the above-mentioned drawings or embodiments.

The present invention as described above is effective in that it is simple in operation, does not generate noises, is safe and easy to manage because it does not use an electrolyte such as alkali, has a high efficiency, has a small power consumption, and has a compact appearance.

Claims (8)

delete A water tank in which water flows in through the water inlet pipe, and an oxygen outlet and a through hole are formed in the lower side; A water level adjusting unit provided at an end of the arm that is rotatable by a shaft on the lower side of the water intake pipe and having a buoy opening / closing the water intake pipe; An upper plate disposed below the water tank for electrolyzing water, the upper plate being attached to the through hole of the water tank and having a receiving portion connected to the through hole; A positive electrode attached to a lower side of the upper side plate and having a transmitting portion for allowing water to pass therethrough; An electrode junction body film positioned below the anode; A cathode on which a transmissive portion is formed and which is located below the electrode junction body film; A lower vessel coupled to the lower side of the cathode and having a discharge port for discharging hydrogen or water; A joining member for joining through the upper plate, the anode, the electrode assembly body film, the cathode, and the rim of the lower vessel; An electrolytic part comprising an airtight member provided at a rim portion between the upper plate and the anode, and at a rim between the cathode and the lower container; And a case accommodating the electrolysis unit, Wherein the permeable portion of the anode protrudes downward, and the permeable portion of the cathode protrudes upward. delete [3] The apparatus according to claim 2, wherein the upper side plate is provided with an upper side support tine for preventing the transmissive portion of the anode from being bent upward due to the engagement of the engaging member, And the lower supporting jaw is bent downward. [3] The apparatus of claim 2, wherein an upper protrusion for fixing the position of the anode inserted into the upper plate is formed at one side of the rim of the anode, and at one side of the rim of the cathode, And a lower protrusion is formed on the lower surface of the water tank. The apparatus for producing oxygen using water according to claim 2, wherein the hole for allowing the coupling member of the positive electrode and the negative electrode to pass therethrough is formed to be larger than the coupling member, thereby preventing a short circuit due to contact with the coupling member. delete delete

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