KR100998441B1 - Dissolved oxygen device and apparatus of producing oxygen-rich water using the same - Google Patents

Abstract

PURPOSE: A nano oxygen generator and an apparatus for supplying dissolved oxygen water using the same are provided to maintain maximum dissolved oxygen and to supply dissolved oxygen water. CONSTITUTION: A nano oxygen generator includes an oxygen nozzle pipe(110) in which screw threads(110a,110b) are formed in both ends and a plurality of oxygen nozzle pipes equipped with a plurality of spray holes; a membrane(120) which is externally inserted in the oxygen nozzle pipe; a membrane holding fixture(130) screwed with the oxygen nozzle pipe; a membrane sealing hole(140); and a fixture(150) in which a supply tube coupling part(151) is perpendicularly projected to the outside.

Description

Dissolved oxygen device and apparatus of producing oxygen-rich water using the same}

The present invention relates to a nano-oxygen generator and a jar-type oxygen water supply device using the same, and more particularly, to provide oxygen water having a high dissolved oxygen amount by supplying oxygen in a bubble state of a nano size to be well dissolved in water. The present invention relates to a nano oxygen generator capable of supplying a jar and an oxygen water supply device using the same.

In recent years, studies on the prevention and treatment of various diseases caused by the absorption of oxygen in the body have been published. Especially, ingesting dissolved oxygen-rich oxygen water increases the blood oxygen concentration in the human body, thereby improving the metabolism of the intake of the body, Some of the oxygen enriched in the brain is supplied to the brain to improve thinking and concentration, in addition to cardiopulmonary function is improved and fatigue is promoted.

Therefore, various methods have been attempted to increase the amount of dissolved oxygen by supplying oxygen to water, and to this end, conventionally, a method of generating oxygen water using water electrolysis and supplying oxygen to a storage tank in which water is stored is a storage tank. There is a method of producing oxygen water by saturating all the water contained in the oxygen.

However, the former method has a problem that it does not dissolve oxygen in a short time because of the small amount of oxygen generated by the water electrolysis method, the latter method requires a solid tank, high pressure pump, high pressure oxygen generator system There is a problem that the bulky, heavy weight of the high production cost of oxygen water.

That is, the conventional methods have a problem that it is difficult to apply to problems such as volume and weight, production cost, noise when dissolving oxygen in drinking water in the diet.

Therefore, it is urgent to develop a nano-oxygen generator and a jar-type oxygen water supply device using the same to maintain the maximum dissolved oxygen while having a simple structure and a small volume and capacity to be used in a diet.

Accordingly, the present invention is to solve the above problems, the present invention is the oxygen nozzle tube with a screw thread formed on both ends and provided with a plurality of injection holes, and the membrane for generating oxygen of the nano-size extrapolated to the oxygen nozzle tube And a membrane support and a membrane seal are coupled to both sides of the oxygen nozzle tube so that the nozzle tube coupling parts are protruded inwardly so as to be in close contact with both sides of the membrane, and are coupled to a screw thread of an oxygen nozzle tube located outside the membrane seal. The support and the membrane seal is to be in close contact with both sides of the membrane and to provide a nano-oxygen generator consisting of a fastener with a supply pipe fastening portion protruded on the outside.

In addition, the present invention is provided in the jar-shaped container, but the screw thread is formed at both ends and provided with a plurality of injection holes, the oxygen nozzle tube, the membrane for generating the oxygen of the extrapolated to the oxygen nozzle tube, and the The nozzle tube fastening portion is formed to protrude inwardly so as to be in close contact with both sides of the membrane, and the membrane support and the membrane seal are coupled to the oxygen nozzle tube, and are coupled to the threads of the oxygen nozzle tube located outside the membrane seal and are projected outwardly. Nano-oxygen generator consisting of a fastener having a supply pipe fastening portion, a through-hole perforated in the lower end of the jar container, the thread of the nano-oxygen generator through the through-hole is exposed to the outside of the jar, the fastener is screwed to the screw thread nano One end of the oxygen generator is fixed to the jar, Ward supply pipe connection part is directed to providing the oxygen supply can be of a jar-type device using the nano-oxygen generator that is configured such that the combined oxygen in the oxygen supply line generator.

As such, the present invention provides a nano-oxygen generator for supplying oxygen water through a simplified structure while maintaining the maximum dissolved oxygen amount and an oxygen water supply device of the jar type using the same, so that oxygen water can be easily ingested in daily life at any time. It is a very useful invention.

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

As shown in FIG. 1, the nano oxygen generator 100 according to the present invention includes an oxygen nozzle tube 110 having threads 110a and 110b formed at both ends and provided with a plurality of injection holes 111. Membrane 120 for generating nano-size oxygen extrapolated to the oxygen nozzle tube 110, and the screw portion (131a) of the nozzle tube fastening portion 131 is in close contact with one end of the membrane 120 and protrudes inwardly The nozzle support 130 which is screwed to the screw thread (110a) formed on one side of the oxygen nozzle tube 110 by a) and the other end of the membrane 120 is in close contact with the nozzle tube fastening portion 141 Membrane seal 140 is screwed to the screw thread (110b) formed on the other side of the oxygen nozzle tube 110 by a screw portion (141a) of the) and the oxygen nozzle tube ( It consists of a fixture 150 is coupled to the thread (110b) of 110.
At this time, the membrane support 130 and the membrane seal 140 is screwed to the threads (110a, 110b) of the oxygen nozzle tube 110, respectively, so as to be able to be in close contact with both sides of the membrane 120, the membrane 120 Will be able to seal both ends of.
One side of the fixture 150 is formed so that the supply pipe fastening portion 151 for the oxygen supply pipe 161 is connected to protrude.

One end of the oxygen nozzle tube 110 is coupled to the membrane support 130, the outer surface is closed, the other end is coupled to the membrane sealing hole 140 through the center, wherein the oxygen nozzle tube 110 Sealing members 120a and 120b may be further formed on both side surfaces of the membrane 120 which are extrapolated to be in close contact with and supported by the membrane support 130 and the membrane seal 140. That is, the membrane 120 is in close contact with the inner surface of each of the membrane support 130 and the membrane seal 140, the oxygen supplied to the oxygen nozzle tube 110 and the water of the jar container 101 is To prevent the inflow and discharge of the membrane 120 and the membrane support 130 and the membrane sealing opening 140 in the gap.

In addition, O-ring insertion grooves 142 and 152 are formed at one side of the membrane sealing member 140 and the fixing member 150 which are coupled to the other end of the oxygen nozzle tube 110, respectively. 142a and 152a are inserted and formed so as to protrude. That is, the O-rings 142a and 152a prevent the jar container 101 from being damaged when the nano oxygen generator 100 of the present invention is coupled to the lower end of the jar container 101, and the membrane sealing hole 140. Is in close contact with and supported by the inner surface of the jar container 101, so that the membrane 120 is prevented from being twisted and damaged.

A flat coupling surface 151a is formed on the upper and lower surfaces of the supply pipe coupling portion 151 of the fixture 150, wherein the coupling surface 151a is a thread 110b of the oxygen nozzle tube 110 using a tool. In order to facilitate the coupling of the fixture 150).

The membrane 120 is a sintered compact formed by mixing one or more nano-size powders (hereinafter referred to as 'materials') of natural minerals such as silica powder, alumina powder, loess, charcoal, tourmaline or diatomaceous earth, and pearlite. It has a pipe shape. That is, since the membrane 120 has numerous nano-sized vents formed on the characteristics of the material, the oxygen injected through the injection holes 111 of the oxygen nozzle tube 110 is nano-sized through the vent holes of the membrane 120. It is discharged in size, and thus the oxygen discharged to the nano-size is directly dissolved in the water can maintain a high concentration of dissolved oxygen.

In addition, the material of the membrane 120 is far-infrared and anion is released, so that the antibacterial, deodorization of water, the effect of automatically controlling the humidity and temperature, and active the physiology of the cell and generate thermal energy to release harmful substances, It can be expected various effects beneficial to the human body, such as biological activity, blood circulation.

As described above, the urn type oxygen water supply device 10 using the present invention, the oxygen generator 100 having the above-described configuration, the nano-oxygen in order to supply a small amount of dissolved oxygen. The thread 110b of the oxygen nozzle tube 110 is formed to protrude to the lower end of the jar container 101 while the fixture 150 is separated from the generator 100, and the fixture 150 is mounted on the protruding screw 110b. ) To couple the nano-oxygen generator 100 to the inside of the jar container 101, and the supply pipe fastening portion 151 of the fixture 150 is configured such that the oxygen supply pipe 161 of the oxygen generator 160 is coupled. .

At this time, the oxygen supply pipe 161 is fastened to the connector 162 to the supply pipe fastening portion 151 of the fixture 150 to be more firmly coupled to the end of the connector 162 by fastening the oxygen supply pipe 161 It can also be configured.

In addition, the jar container 101 is made of ocher material because the jar manufactured by the traditional method of our country prevents the generation of microorganisms, and has a sterilizing and detoxifying ability, which is very aesthetically and functionally excellent. An oxygen water discharge portion 101a for discharging oxygen water is formed at a lower end of the jar container 101.

As described above, the present invention has been described by means of a limited embodiment, but the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains to the technical spirit of the present invention and claims to be described below. Various modifications and variations are possible within the scope of equivalents.

1-an exploded perspective view showing a nano-oxygen generator of the present invention.

2-a perspective view of the combined state of FIG.

3-cross-sectional view of FIG.

Figure 4 is a state diagram showing a oxygen-type oxygen water supply device using a nano-oxygen generator of the present invention.

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

10: jar type oxygen water supply device

100: nano oxygen generator

101: jar container 101a: oxygen water discharge portion

110: oxygen nozzle pipe 110a, 110b: thread

111: injection hole 120: membrane

120a and 120b: sealing member 130: membrane support

131: nozzle tube fastening portion 131a: screw portion
141: nozzle tube coupling portion 141a: screw portion
140: membrane seal

142,152: O-ring insert groove 142a, 152a: O-ring

150: fixture 151: supply pipe fastening portion

151a: bonding surface 160: oxygen generator

161: oxygen supply pipe 162: connector

Claims (2)

Threads 110a and 110b are formed at both ends, and an oxygen nozzle tube 110 including a plurality of injection holes 111 and a membrane 120 for generating nano-size oxygen extrapolated to the oxygen nozzle tube 110. ), A membrane supporter 130 screwed to the oxygen nozzle tube 110 by a screw portion 131a of the nozzle tube fastening portion 131 which is in close contact with one end of the membrane 120 and protrudes inwardly, The membrane sealing hole 140 is screwed to the oxygen nozzle tube 110 by the screw portion (141a) of the nozzle tube fastening portion 141 is in close contact with the other end of the membrane 120 and protrudes inwardly, and the membrane sealing It is coupled to the thread (110b) of the oxygen nozzle tube 110 located on the outside of the sphere 140 to make the membrane support 130 and the membrane seal 140 in close contact with both sides of the membrane and the supply pipe fastening portion 151 on the outside B) is characterized in that it is composed of a fixture 150 protruding Oxygen generator. Oxygen nozzle tube 110 is installed inside the jar-shaped container 101, the threads (110a, 110b) are formed at both ends and provided with a plurality of injection holes 111, and extrapolated to the oxygen nozzle tube (110) Oxygen nozzle tube 110 by the membrane 120 for generating the nano-sized oxygen and the screw portion (131a) of the nozzle tube fastening portion 131 is in close contact with one end of the membrane 120 and protrudes inwardly. And screw connection with the oxygen nozzle tube 110 by a screw support portion 141a of the membrane support 130 that is screwed with the nozzle support portion 141 that is in close contact with the other end of the membrane 120 and protrudes inwardly. Fixture having a supply pipe fastening portion 151 which is coupled to the screw thread (110b) of the oxygen nozzle pipe 110 located on the outside of the membrane sealing opening 140 and the membrane sealing opening (140) Nano oxygen generator 100 consisting of 150, and the jar container (10) The through hole 102 perforated at the lower end of 1) and the thread 110b of the nano-oxygen generator 100 are exposed to the outside of the jar container 101 through the through hole 102, and the fixture 110 is fixed to the thread 110b. 150 is screwed so that one end of the nano-oxygen generator 100 is fixed to the jar, the supply pipe fastening portion 151 of the fixture 150 is configured to be combined with the oxygen supply pipe 161 of the oxygen generator 160 Jar type oxygen water supply device comprising a nano-oxygen generator characterized in that.

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