KR102023092B1 - Machine For be created Oxygen Water - Google Patents

Abstract

The present invention relates to an oxygen water generator,
The main body is formed by a combination of the upper round housing and the lower square case, and the fastening hole on one side of the lower end of the housing fastens the connection portion of the second coupling hole connected to the inlet of the first coupling hole, The fastening hole is fastened to the outlet of the third coupling hole, the lower portion of the housing body of the oxygen water generator consisting of the discharge port of the fourth coupling hole;
Inside the lower case, a lower stainless steel pipe is installed, and the water is introduced into the lower stainless steel pipe through an injection hole by combining with the connecting portion of the first connecting pipe and the second coupling hole. After raising the flow rate by the flow rate raising nozzle device;
The lower stainless steel pipe is coupled to the upper stainless steel pipe inside the housing, and when the flow rate increased water flows from the upper stainless steel pipe into the upper stainless steel pipe, the micro-bubble forming net installed in the upper stainless steel pipe is reached. Then, the micro bubbles are generated, and after that, the micro bubble droplets are generated by passing through the fine droplet generating nozzle tube fastened with the upper stainless steel tube, and the flow velocity becomes the maximum value. In the process of bumping and spreading into the housing, a droplet of oxygen bubbles of microbubbles is generated by collision mixing of the flow rate and the compressed air, and the heavy whirlwind generated by the self-pressing effect while repeating compression expansion;
While descending with strong rotation inside the housing, the particles of water are further split by the automatic rotary blades mounted on the outside of the upper stainless steel pipe, and the water in which the oxygen droplets of the ultra-fine bubbles are generated is discharged through the outlet of the third coupling hole. Characterized in that it is configured to come out.
In general, to generate oxygen bubbles of microbubbles; I need a motor pump and an air compression tank,
Features of the present invention
First, it is a product that can produce oxygen bubble of micro bubble using only supply water pressure without using motor pump using electricity.
Second, there is no need to install a separate air compression tank,
Third, it is designed to be directly connected to the raw water pipe and the direct water to produce oxygen droplets of ultra-miniature bubbles using only the supply water pressure, it is a feature of the oxygen water generator of the present invention that there is no convenience and failure in use.
The use of the present invention is for home use, industrial use, etc., at home, when a filter for water purification is installed in the sink, it is possible to drink water of oxygen droplets of ultra-fine bubbles with rapid recovery of fatigue, and the self-pressing effect when generating micro bubbles. The free radicals generated by the physical properties of the charging phenomenon have a bactericidal decomposition effect, so that the washing of dishes, vegetables, and fruits eliminates germs and residual pesticides. It is also used for house cultivation, horticulture, barns, fish farms and wastewater treatment.

Description

Machine for be created Oxygen Water

The present invention relates to an oxygen water generator, and more particularly, to an oxygen water generator that generates oxygen droplets of ultra-fine cells by mixing water and air using only a supply flow rate without using electricity.

In general, oxygen water generator is a device for generating oxygen water droplets of fine bubbles by finely splitting water particles. It is used at home for drinking drinking water, washing fruits and vegetables, and for industrial use in house cultivation and fish farms. .

Until now, the oxygen water generator generates oxygen water by using a motor pump and an air compression tank, and operates the motor pump by electricity to generate compressed air of the air compression tank by using hydraulic pressure or an air pressure motor pump. Compressing air by means of an air compression tank equipped with an air pressure tank is used to generate oxygen water droplets of the fine bubbles while passing through the microbubble generation nozzle portion by mixing expansion of water pressure and compressed air.

According to the prior art, there are the following problems.

First, in order to maintain the high pressure, the motor pump must use at least 24VDC motor to generate oxygen water due to the strong water pressure, which is a problem that a large noise and frequent failure occur when driving the motor.

Second, when the air compression tank needs a motor pump, the compressed air may not be formed properly due to abnormal operation of the compression control device due to the conversion pressure of the air pressure motor pump, so that fine bubbles of air bubbles of good quality are not generated. There was this.

Third, due to the attachment of the device as described above, there is a problem in that the volume of the device becomes large, such as uncomfortable space, and there is a problem that the maintenance cost is increased with a high failure rate, which is not suitable for popularization.

In order to solve the above problems, the present invention is to install an air inlet opening and closing device on the top of the oxygen water generator, so that the air layer is formed in a predetermined portion of the upper space inside the oxygen water generator to generate a fine micro bubble oxygen water droplets. The purpose is to provide an oxygen water generator so that it can be used.

In order to achieve the above object, the present invention solves the problem of forming an air layer in the upper part of the housing, which is an upper case, and generating oxygen droplets of ultra-fine bubbles by splitting the particles of water with only the supply flow rate of the feed water without electricity. as; Inside the lower case, a flow rate raising nozzle device is installed to increase the flow rate of water introduced through the inlet, and the upper center portion of the housing is equipped with an air inlet opening and closing device for inflow of air. An oxygen water generator body to form an air storage space by the water introduced into the housing at the upper and lower ends thereof; A stainless steel tube is installed inside the lower case and inside the housing to pass the microbubble generating mesh net by the inflow of increased water flow rate, and microbubble droplets sprayed at a strong flow rate by the microbubble generating nozzle tube combined with the stainless steel tube. Is characterized in that it is configured to generate a microbubble oxygen droplets by collision with the air of the air storage space hit the droplet jet plate installed on the upper inside of the housing.

As described above, the oxygen water generator of the present invention is designed to form an air storage space inside the housing to increase the efficiency by simplifying the volume, etc. In addition, the existing oxygen water generator is an inlet through which water enters by using a motor pump It is mainly installed in the upper portion, but the oxygen water generator of the present invention by connecting the inlet and the inlet of the lower side of the housing, in a straight line with the raw water pipe to facilitate the flow rate, more effectively useful for manufacturing and installation Can be.

Oxygen water generator of the present invention, due to the self-pressurization effect and the generation of negative ions due to charging phenomena during the generation of oxygen droplets of the ultra-mini-foam, when the water is used in the humidifier, the effect of the forest bath, and drinking water from the oxygen bubble As the delivery rate in the body is 10 times faster than the oxygen inhaled, the fatigue recovery is faster.In the case of ultra-miniature cannon generation, free radicals such as hydroxy radicals are generated in the process of extinction due to physical characteristics. Decomposes and kills bacteria.

By utilizing the function of oxygen water generator as above, at home, it is used for drinking water by attaching a filter for water purification. In case of dishwashing, it cleans the residual pesticides of fruits and vegetables, and showers pores of oxygen bubbles of fine bubbles. It can penetrate into and cleanse foreign substances such as fine dust in the pores and cosmetic residues. When used in house cultivation, horticulture, barn, fish farm, etc., the crops and fish grow well due to the absorption and inhalation of oxygen droplets of ultra-fine cells, and the sterilization effect also helps the pests. Very wide and diverse

Representative view is a front view showing an oxygen water generator according to the present invention
1 is a bottom square case plan view showing an oxygen water generator according to the present invention
Figure 2 is a plan view of the upper housing showing the oxygen water generator according to the present invention
3, 4, and 5 are enlarged views of the components of the oxygen water generator according to the present invention.
Figure 6 is a reference diagram for the operation principle of the oxygen water generator according to the present invention

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the oxygen water generator according to the present invention will be described in detail as follows.

As shown in the representative view, the configuration of the outer body of the present invention is divided into two of the housing 110 and the lower rectangular case 111 of the upper round case, the fastening hole (110a) of the lower side of the housing (110), The fastening hole 110a of one side of the 110b is coupled to the connection part 211 of the second coupling hole coupled with the injection port 210 of the first coupling hole, and the fastening hole 110b of the other side is the third coupling hole. Formed to be coupled to the outlet 212, the lower portion of the housing 110 and the lower square case 111, the automatic drain device 312 of the fourth coupling hole with the discharge port 213 of the separate coupling device An outer body;

The first coupling pipe 413 and the rubber packing (42a) of the leakage prevention by inserting the screw into the connection portion 211 of the second coupling hole, the coupling hole (211-2) of the connection portion 211 of the second coupling hole 1) the control valve 410 is installed in the position to be injected into the first connecting pipe 413, the first connecting pipe 413 and the "U" shaped inlet pipe 414 and the coupling hole (413-) 1), by fastening the bolt nut to the coupling member 413-2, the device is introduced into the lower stainless steel pipe 411, the water is introduced, the lower stainless steel pipe 411 is a square case 111 and the lower After the coupling, the lower stainless steel pipe 411 is fastened to the upper stainless steel pipe 412 in the housing 110 by screwing, so that the leak-proof screw-type rubber packing 41a is mounted on the upper and lower stainless steel pipes. The body is formed.

 The flow rate rising nozzle devices 415a and 415b are coupled to the inner coupling part 411-1 and the fastening hole 411-2 of the lower stainless steel pipe 411, and the flow rate rising nozzle devices 415a and 415b are flow rates. By forming a connection with the nozzles 415a-1 and 415b-1, the water inside the lower stainless pipe 411 increases in flow rate by being positioned inside the upper stainless steel pipe 412 inside the housing 110. An apparatus for raising a flow rate when water flows into the upper stainless steel pipe 412 by nozzle devices 415a and 415b;

6, the lower stainless steel pipe 411 is installed between the lower rectangular box 111 and the housing 110, and the upper stainless steel pipe 412 located in the housing 110. ) To form an inlet pipe, and the lower stainless steel through the inlet 210 of the first coupling hole and the connection portion 211 of the second coupling hole, the first connecting pipe 413 and the inlet pipe 414. The water flowing into the pipe 411 reaches the microbubble generating net 416 inside the upper stainless steel pipe 412 through the flow escalating nozzle devices 415a and 415b to generate microbubbles.

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The flow rate increase by the flow rate rise nozzle device (415a, 415b) is passed through the micro-bubble forming net 416 installed inside the upper stainless steel pipe 412, so that the micro-bubbles are generated, the micro-bubble generation The outer surface of the mesh 416 may be in contact with the inner surface of the upper stainless steel pipe 412, and may move up and down depending on the strength of the flow rate.

The microdroplet generating nozzle pipes 417 and 417-1 fastened to the upper end of the upper stainless steel pipe 412 by a screwing method have an inner coupling hole 417-2 and a leakage preventing packing 417a-1 and 417b-1. After the formation of the particle size of the dissolved oxygen dissolved water passes through the generation section (417a, 417b) more finely step by step, leading to a maximum flow rate increase;

The fine droplets passing through the droplet generation nozzle tubes 417 and 417-1 reach the droplet ejection plates 511 and 511a mounted on the housing 110, and are mixed with the dissolved oxygen droplets and the air. Due to the oxygen bubbles of the micro bubbles are generated, at this time, the reverse flow blocker 512 and the air inlet opening and closing device 513 installed in the upper center portion of the housing 110 is automatically closed, a predetermined space on the upper portion of the housing 110 The air storage space 700 is formed.

As shown in Figure 2, the installation of the droplet spray plate (511, 511a) is fixed by the coupling of the coupling nut (110-1) of the upper end of the housing 110 and the bolt nut method of the same material.

A detailed description of the backflow blocker 512 and the air inlet switch 513;

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As shown in FIG. 5, the backflow circuit breaker 512 is installed in the fastening part 512-3 by the combination of the inlet hole 512-1 and the connection part 512-2, and the supporting part in the connection part 512-2. Insertion-forming rubber valve (512c) is inserted into the ball (512a) and the elastic ring (512b), the inlet hole (512-1) and the support hole (512a) is located at the lower end of the backflow circuit breaker 512, the fine water droplets Automobile step rubber valve 512c to prevent backflow to the air hole located in the center of the upper end of the housing 110 due to the injection of the strong hydraulic pressure of the production nozzle pipe (417, 417-1) and the droplet spray plate (511, 511a) By using a), when using the water inside the housing 110, due to the weak water pressure due to the inflow of the air storage space 700, the car-mounted rubber valve 512c is automatically opened, the water pressure is used when the end of Due to the air expansion by the automobile rubber block valve (512c) to be closed automatically;

The air inlet opening and closing device 513 is formed by the inlet 513-1 and the connecting portion 513-2, and then engages with the air inlet 513-3, the supporting portion 513d in the inlet 513-1 ) And the elastic ring 513c, a valve support hole 513b and an automatic closing rubber valve 513a are inserted into the connecting portion 513-2, and connected to the air inlet 513-3 to automatically When the water inside the housing 110 is discharged by the use of water, the water pressure decreases, and the automatic closing rubber valve 513a of the air inlet opening and closing device 513 is automatically opened to open the air storage space 700. Air is gradually introduced into the water, and the high velocity of water and air repeats the mixing collision, and when the use of water is reversed, the automatic closing rubber valve 513a of the air inlet opening and closing device 513 is automatically closed. , The glass of the microbubble oxygen droplets in the housing 110 and the air storage space 700 It is designed so that the airflow can be compressed and expanded again.

As shown in Fig. 2, Fig. 3 and Fig. 6, the water of the microbubble oxygen droplets sprayed upon the droplet ejection plates 511 and 511a is generated by a strong whirlwind by the self-pressing effect and descends by a strong rotation. When the device reaches the automatic rotary blade 514 attached to the lower portion of the upper stainless steel pipe 412 installed inside the housing 110, the particles of water are rotated by the rotary blades 514a, 514b, and 514c of the multi-angle configuration. Is composed of a device for generating a dual-type ultra-microscopic bubbles of oxygen droplets, which are more finely divided.

As shown in the representative diagram and FIG. 6, care should be taken when installing the fine droplet generating nozzle tubes 417 and 417-1 and the droplet spray plates 511 and 511a;

Due to the water pressure generated inside the housing 110 and the rectangular box 111 at the bottom, the air inlet opening and closing device 513 closes, and when the collision between the water pressure and the air reaches a limit value, the pressure inside the housing 110 is reached. And a layer of compressed air to form an air storage space 700,

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At this time, the fine droplet generating nozzle pipe (417, 417-1) and the droplet spray plate (511, 511a) must be installed in a layer of compressed air, that is, the air storage space 700 higher than the water. Particularly, when the fine droplet generating nozzle tubes 417 and 417-1 are installed under the water surface in the housing 110, the droplets of the fine bubbles reach the droplet spray plates 511 and 511a at a low flow rate. Since a slight air bubble is generated, it depends on how much high-quality microbubble oxygen droplets are generated depending on the installation position of the microbubble generation nozzle tubes 417 and 417-1.

On the other hand, the automatic drain device 312 of Figure 4, the connection formed in the lower portion of the housing 110 and the bottom of the lower stainless steel pipe 411 is coupled to the discharge port 213 of the fourth coupling hole , The automatic closing valve 312a in the discharge hole 312-1 is formed of an elastic ring 312b and a support hole 312c to allow the water of the ultra-fine foamed oxygen droplet to flow into the housing 110. At the time, the water is automatically closed due to the expansion of the water pressure, and the water of the ultra-low density oxygen bubbles generated inside the housing 110 is used through the outlet 212 of the third coupling hole by the discharge control switch 311. After the use of water, the residue in the housing 110 is left by the automatic opening of the automatic drain device 312 coupled with the outlet 213 of the fourth coupling hole due to expansion of the compressed air. Configure it to be discharged.

Referring to the preferred embodiment according to the present invention,

As shown in FIG. 6 or FIG. 6, first, water introduced by the inlet 210 of the first coupling hole and the connection part 211 of the second coupling hole is connected to the first connection pipe 413 and the inlet pipe. First, the inside of the lower stainless steel pipe 411 is filled through 414.

The water inside the lower stainless steel pipe 411 increases the flow rate of water into the upper stainless steel pipe 412 by the flow rate rising nozzle devices 415a and 415b while controlling the strength of the water with the control valve 410. Oxygen droplets of microbubbles are generated while passing through the microbubble generating net 416 and the microbubble generating nozzle tubes 417 and 417-1 in the upper stainless steel tube 412, and the droplet jet plate ( 511 and 511a meet with the compressed air of the air storage space 700 to further generate droplets of oxygen bubbles.

At this time, the backflow breaker 512 and the air inlet opening and closing device 513 are automatically closed, and the water of the oxygen bubbles of the microbubbles hit by the droplet ejection plates 511 and 511a has a strong whirlwind and descends with a strong rotation. Reaching the automatic rotary blade device 514 and more finely split, the droplet of oxygen bubbles of ultra-mini strength bubbles are generated.

The inside of the housing 110 is filled with water of oxygen droplets of ultra-fine foam, in which case the fourth coupling hole formed by connecting the lower portion of the housing 110 and the lower stainless steel pipe 411 by a strong hydraulic pressure The automatic drain device 312 coupled with the discharge port 213 is automatically closed,

The water of the oxygen droplet of the ultra-fine foam bubbles comes out only through the faucet 800 connected to the outlet 212 of the third coupling hole, while the oxygen of the ultra-fine foam bubbles is adjusted with the discharge control switch 311. Use a drop of water.

Thereafter, when the water is used and the water valve of the raw water conduit connected to the inlet 210 of the first coupling hole is locked, the water in the housing 110 starts to be drained, and the air inlet opening and closing device 513 is automatically The rear outside air is introduced and the automatic drain device 312 is automatically opened by the weak water pressure, and the residue in the housing 110 is automatically discharged, and the inside of the housing 110 is returned to the air. Is filled.

When the water valve of the raw water conduit is opened again to use water, the lower stainless steel pipe (2) and the first connecting pipe 413 of the second coupling hole coupled with the inlet 210 of the first coupling hole are connected to each other. After the water is introduced into the water 411, as described above, each of the component devices inside and outside the droplet spray plates 511 and 511 a installed inside the housing 110 and the upper stainless steel pipe 412 may be formed. By the function, the ultra-small bubbles of oxygen bubbles are generated again, and the water of the ultra-small bubbles of oxygen bubbles may be used through the faucet 800 connected to the outlet 212 of the third coupling hole.

As described above, the present invention is not limited to the specific preferred embodiments, and modifications apparent to those skilled in the art to which the present invention pertains without departing from the technical spirit of the present invention claimed in the claims. It is possible that such modifications are within the scope of the present invention.

100: body
110: housing
111: lower square case
210: injection hole of the first coupling hole
211: connecting portion of the second coupling hole
212: outlet of the third coupling hole
213: discharge port of the fourth coupling hole
311: discharge switch
312: automatic drain device
410: control valve
411: bottom stainless steel pipe
412: upper stainless steel pipe
413: first connector
414: inlet pipe
415a, b: velocity increasing nozzle unit
416: fine bubble generating net
417: water droplet generating nozzle tube
511: droplet spray plate
512: backflow breaker
513: air inlet switch
514: Automatic Rotary Blade
611: pressure gauge
700: air storage 800: faucet

Claims (5)

The coupling configuration of the upper housing 110 and the lower square case 111, and the connection portion 211 of the second coupling hole, the pressure gauge 611 and the hydraulic pressure control valve 410 is attached to the lower housing 110 And a coupling configuration in which a coupling configuration of the first coupling pipe 413 and the inlet pipe 414 and a discharge switch 311 of the outlet 212 of the third coupling hole are attached, and the lower and lower stainless steels of the housing 110. An oxygen water generator body configured to include an automatic drain device 312 coupled to the outlet 213 of the fourth coupling hole at the bottom of the tube 411;

A lower stainless steel pipe 411 positioned between the housing 110 and the lower rectangular case 111 and having the inlet pipe 414 installed therein and having an upper stainless steel pipe 412 installed thereon;
The inner coupling part 411-1 and the fastening hole 411-2 of the lower stainless steel pipe 411 are coupled to the flow nozzle unit 415a-1 and 415b-1, and the inside of the housing 110 A flow rate raising nozzle device (415a, 415b) to be positioned inside the upper stainless steel pipe (412) to allow the water inside the lower stainless steel pipe (411) to flow up into the upper stainless steel pipe (412);
It is installed inside the upper stainless steel pipe 412, the micro-bubble forming nets 416, 416-1 to allow the micro-bubbles are generated while the water introduced into the upper stainless steel pipe 412 passes through
Is installed in the uppermost central portion of the housing 110, the outside air flows into the housing 110 to form an air layer in the upper predetermined space of the housing 110 to form an air storage space 700 and prevent backflow An air inlet opening and closing device (513) having a backflow blocker (512) for;

Coupled with the upper end of the upper stainless steel pipe 412, the water passing through the micro-bubble generating nets (416, 416-1) to reach the droplet spray plate (511, 511a) installed on the upper housing 110 It includes; fine droplet generation nozzle tubes (417, 417-1) for generating oxygen bubbles of the micro-bubbles due to collision mixing of the dissolved oxygen droplets and air;
The water sprayed upon the droplet jet plate 511 is generated by the heavy whirlwind inside the housing 110, and reaches the automatic rotary blade 514 installed outside the upper stainless steel pipe 412 by strong rotation. Particles are more finely divided to generate oxygen droplets of ultra-miniature bubbles, oxygen water generator characterized in that the water is configured to exit the outlet 212 of the third coupling hole.
The method of claim 1,
The automatic opening and closing of the automatic drain device 312 is automatically closed by water pressure and air when the oxygen bubbles of the micro bubbles are generated inside the housing 110, and automatically opens due to the weakened water pressure and air inflow after the use of water ends. Oxygen water generator, characterized in that configured to discharge the residue inside the housing (110).
delete The method of claim 1,
The microbubble generating nets 416 and 416-1 inside the upper stainless steel pipe 412 are dual devices to generate microbubbles, and the microbubble generating nozzle pipe 417 fastened to the upper end of the upper stainless steel pipe 412. Oxygen generator, characterized in that configured to maximize the flow rate by the microparticle generation method and the nozzle unit (417a, 417b) of step 417-1).
The method of claim 1,
The air inlet opening and closing device 513 installed at the center of the uppermost part of the housing 110 is an air inlet 513-3 of the automatic closing rubber valve 512a located in the inlet 513-1 and the coupling part 513-2. In connection with the), when the air is introduced through the air inlet opening and closing device 513, a portion of the upper portion of the housing 110 is configured to form an air storage space 700.

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