KR101853186B1 - Hydrogen water machine - Google Patents

Abstract

The hydrogen generator of the present invention includes a hydrogen generator, a water supplier, a mixing device connected to the hydrogen generator and the water supplier, and a reflux pipe connected between the mixing device and the water supplier; The hydrogen generator is used to dissolve the hydrogen of the hydrogen generator in the water supplied by the water supplier to form and discharge hydrogen water, and some of the hydrogen water discharged from the hydrogen generator is refluxed again through the reflux tube, And then mixed again through the mixing device. Through the circulation, not only the hydrogen content in the hydrogenated water can be increased, but also the time for which the hydrogen is dissolved in the water becomes longer, and a more excellent mixing effect can be obtained.

Description

Hydrogen water machine

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device capable of mixing hydrogen and a liquid, and more particularly to a hydrogen generator.

Recently, as interest in health care has increased, many studies have shown that water in the human body accounts for 60% of body weight, and water transports hydrogen and various nutrients throughout the body, and the waste is discharged to the outside of the body, , It is proposed to mix the gaseous elements beneficial to the human body (for example, hydrogen element, etc.) with water to form a drinking water potable water.

In the case of hydrogen-containing drinking water, hydrogen is the most abundant element in some studies, accounting for about 75% of the mass of all materials. Hydrogen accounts for 63% of the constituent elements of the human body. Therefore, it is known that not only the main component of the body but also the main constituent of important components such as carbohydrates that form a source of protein and thermal energy of cells, the drinking water containing hydrogen is known to help the health of the human body, Was released. 1, a conventional hydrogen handler 1 includes a hydrogen inlet pipe 11, a drinking water inlet pipe 12, a mixing device 13 connected to the hydrogen inlet pipe 11 and the drinking water inlet pipe 12, ) And a pressurizer (14) installed in the drinking water inflow pipe (11); The mixing device 13 has three end portions as a T-shaped pipe. The first end of the mixing device 13 is connected to the hydrogen inflow pipe 11, and the second end is connected to the drinking water inflow pipe 12), and the third end is connected to the hydrogen-water mixing and discharging means. 2, in use, the drinking water inlet pipe 12 is pressurized through a pressurizer 14 to transfer drinking water into the mixing device 13, and the hydrogen is also supplied to the hydrogen inlet pipe 11 Containing drinking water is mixed with the drinking water and the hydrogen in the mixing device 13 to form the hydrogen-containing drinking water, and the hydrogen-containing drinking water is again supplied to the mixing device 13 And is provided for drinking and drinking.

However, after the actual use, although the conventional hydrogen handkerchief 1 can achieve a state in which hydrogen and water are mixed with each other, the hydrogen and water are merely contacted and mixed only for a short time in the mixing device 13 , The hydrogen content in the hydrogen-containing drinking water after the preparation can not be effectively increased, and at the same time, the time for mixing the drinking water and the hydrogen is insufficient and the time for which the hydrogen is dissolved in water and maintained in the obtained drinking water is not long, The hydrogen content in the drinking water is rapidly deteriorated because the hydrogen in the drinking water is separated from the water very rapidly. In particular, the longer the time in which the hydrogen-containing drinking water is left, the greater the decrease in the hydrogen content. Therefore, the hydrogen-containing drinking water must be consumed promptly after production, otherwise the effect of the presence of the hydrogen content is greatly reduced. Thus, how to increase the hydrogen content in the hydrogen-containing drinking water by increasing the mixing effect of hydrogen and water and how to stabilize the concentration of the hydrogen-containing drinking water in the effluent water (i.e., reducing the separation rate of hydrogen in the hydrogen- ), So that the volume of the hydrogen generator (1) does not increase greatly.

Accordingly, an object of the present invention is to provide a hydrogen generator capable of effectively increasing the mixing effect of water and hydrogen and increasing the holding time of the hydrogen dissolved in water.

The hydrogen generator of the present invention comprises a hydrogen generator, a water supplier, a mixing device connected to the hydrogen generator and a water supplier, respectively, and a reflux pipe connected between the mixing device and the water supplier; The hydrogen of the hydrogen generator and the water of the water supplier are mixed with each other through the mixing device to form hydrogen-containing water and discharged. Also, by designing the reflux pipe, The water is returned to the water feeder and the mixing device is provided to perform a subsequent mixing process, thereby continuously cycling repeatedly to greatly increase the contact time between the water and the hydrogen, thereby effectively increasing the hydrogen content in the hydrogen water , The time for which the hydrogen remains dissolved in water is increased to obtain a better mixing effect.

According to the present invention, it is possible to greatly increase the contact time between water and hydrogen, thereby effectively increasing the hydrogen content in the hydrogenated water and increasing the residence time of the hydrogen in the water, There is an advantage that a mixing effect can be obtained.

1 is an explanatory diagram of a conventional hydrogen gasifier.
Fig. 2 is a diagram for explaining a conventional mixing device of a hydrogen generator.
3 is a stereoscopic view of a first preferred embodiment of the present invention.
4 is a cross-sectional view of a first preferred embodiment of the present invention.
5 is an operational view of a first preferred embodiment of the present invention.
6 is a cross-sectional view of a second preferred embodiment of the present invention.
7 is an enlarged view of the mixing device of the second preferred embodiment of the present invention.
8 is an operational view of a second preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other technical features, features and advantages of the present invention will be apparent from the following detailed description of a preferred embodiment combining the drawings.

Referring to FIG. 3, as a first preferred embodiment of the hydrogen generator 3 according to the present invention, it is connected to a hydrogen generator 31, a water supplier 32, a hydrogen generator 31 and a water supplier 32, respectively A mixing device 33 and a reflux pipe 34 connected between the mixing device 33 and the water feeder 32; The hydrogen generator 31 includes a hydrogen source 311 capable of generating hydrogen and a hydrogen transfer pipe 312 connected to the hydrogen source 311 to discharge the hydrogen. The water supply unit 32 includes a supply source 321 for receiving water and a water supply pipe 322 connected to the supply source 321 to discharge the water.

4, the mixing device 33 includes a mixing pipe 331 connected to the hydrogen transfer pipe 312 and the water pipe 322, a pressurizer connected to the mixing pipe 331 A mixer 333 connected to the pressurizer 332 and a water pipe 334 connected to the mixer 333 and discharging water mixed with the mixer 333, A mixing passage 3311 is formed in the mixing pipe 331 so that the hydrogen of the hydrogen transfer pipe 312 and the water of the water pipe 322 are mixed with each other in the mixing passage 3311 to form hydrogen mixed water At the same time, the hydrogen mixed water is pressurized through the pressurizer 332 to dissolve the hydrogen in the water, and finally, the mixed water is atomized by the mixer 333 to increase the stability in which hydrogen is dissolved in water, And the hydrogenated water is discharged through the water discharge pipe 334. Lastly, since the reflux pipe 34 is installed between the water pipe 322 of the water supply device 32 and the water pipe 334 of the mixing device 33, Some of the hydrogen in the small number of water is refluxed into the water pipe (322) through the reflux pipe (34). In order to control the amount of reflux of the hydrogen in the reflux pipe 34, the diameter of the pipe in the reflux pipe 34 may be controlled to be smaller than the diameter of the pipe in the discharge pipe 334, The pipe diameter of the reflux pipe 34 may be set to one-third of the diameter of the feed pipe 334, for example, in order to set the reflux amount of about one-third of the hydrogen- have.

5, water is discharged to the water pipe 322, hydrogen flows into the hydrogen transfer pipe 312, and the pressurizing action of the pressurizer 332 causes the mixing pipe 331 The water and the hydrogen are simultaneously introduced into the mixing pipe 331 to form a hydrogen mixed water in an initial stage so as to initially contact the water and the hydrogen, The hydrogen is firstly dissolved in the water through continuous pressurization and then the hydrogen mixed water is transferred into the mixer 333 of the mixing device 33 and atomized again to a high pressure so that the amount of dissolved hydrogen is increased. Accordingly, hydrogen water having a high content of hydrogen can be obtained, and the user can use the hydrogen water discharged through the water pipe 334. The reflux pipe 34 is connected to the water pipe 322 and the siphon action formed in the mixing pipe 331 of the presser 332 is added so that a part of the hydrogen in the water pipe 334 is returned to the water pipe 322 and can be transferred to the mixing pipe 331 together with the water originally conveyed to the water pipe 322 to be mixed with the hydrogen and by the continuous circulation action of the refluxed partial water of hydrogen, The mixing time of the water and the water is greatly increased. Accordingly, the hydrogen content of the hydrogenated water is advantageously increased, and the time for which the hydrogen stays in the hydrogenated water becomes longer, so that the concentration after the hydrogenated water is discharged is further stabilized.

Referring to FIG. 6, as a second preferred embodiment of the present invention, the hydrogen generator 3 also includes a hydrogen generator 31, a water supplier 32, a mixing device 33 and a reflux pipe 34, Further, the detailed constituent members and the operation are the same as those of the first embodiment, and thus description thereof is omitted here. 7, the mixer 333 includes at least two mixing units 3331 spaced apart from the mixing pipe 331. The mixing unit 333 includes two mixing units 3331 ) As an example. Each of the mixing units 3331 has a connecting passage 3332 and the diameter of the connecting passage 3332 is smaller than the diameter of the mixing tube 331. In order to increase the mixing effect, a non-combustor (not shown) for converting hydrogen water back to the reflux pipe 34 in a timely manner into a spray state and then transferring the water to the portion of the water pipe 322 for subsequent circulating mixing 35 may be further provided in the reflux pipe 34. [

7 and 8, when the hydrogen and the water in the mixing pipe 331 are transferred to the mixer 333 by a pressurizing action of the pressurizer 332, the diameter of the connecting passage 3332 The hydrogen mixed water in which the water and the hydrogen are initially mixed is first sprayed through one of the mixing units 3331 and the mixed water is discharged through the connecting passage 3332 Hydrogen mixed water is atomized into hydrogen peroxide. Not only the gas dissolving effect can be increased by the high pressure in the pipeline environment where the hydrogen is filled and is constantly pressurized by the pressurizer 332 but also the amount of the hydrogen dissolved in the water is further increased by the atomizing effect And the mixing effect of hydrogen and water is greatly increased; After the hydrogen water has passed through one of the mixing units 3331, the hydrogen water is continuously pressurized and atomized by another mixing unit 3331 and mixed, thereby mixing the hydrogen- The time is further increased, whereby the hydrogen and water are mixed to form a high concentration of hydrogen. Thereafter, when the hydrogen is discharged through the water pipe 334 to be consumed, some of the hydrogen still passes through the reflux pipe 34 and is returned to the radiator 35 provided in the reflux pipe 34. [ The hydrogen is pressurized and atomized. In this way, the dissolution rate of the hydrogen is increased, and the dissolution rate of the water and the hydrogen is further improved. Further, since the time for which the hydrogen remains in the water is increased, the concentration of hydrogen contained in the drinking water can be further increased have.

The hydrogen generator of the present invention introduces some hydrogenated water mixed with the water pipe of the mixing device into the water pipe through the reflux pipe provided between the mixing device and the water feeder, The water that is discharged for the first time is first mixed with the hydrogen water, then enters the mixing apparatus and is mixed with hydrogen. By such a cyclic repetition action, the mixing effect of the water and hydrogen can be effectively improved, and the concentration of hydrogen contained in the drinking water can be increased stably.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It belongs to the scope covered.

3: Hydrogen generator 31: Hydrogen generator
32: water feeder 33: mixing device
34: reflux tube 35: atomizer
311: Hydrogen source 312: Hydrogen transfer pipe
321: source 322:
331: mixing tube 332: pressurizer
333: Mixer 334: Water pipe
3311: mixing passage 3331: mixing unit
3332: Connection path

Claims (4)

A source of hydrogen capable of generating hydrogen, and a hydrogen generator connected to the source of hydrogen to discharge the hydrogen;
A water supply unit having a supply source for receiving water and a water supply pipe connected to the supply source for sending the water;
A mixing pipe connected to the hydrogen transfer pipe and the water pipe to provide a mixing channel constituting one conduit to mix the hydrogen of the hydrogen transfer pipe with the water of the water pipe in the mixing channel to generate hydrogen mixed water, A pressurizer connected to the mixing pipe to pressurize the hydrogen mixed water to dissolve the hydrogen in the water; and a control unit disposed in the mixing pipe through the pressurizer to atomize the hydrogen mixed water, thereby increasing the amount of hydrogen dissolved in the water, And a water pipe connected to the mixer and connected to the mixing passage of the mixing pipe through the mixer to discharge the hydrogen water through the water pipe; And
And a reflux pipe connected between the water pipe and the water pipe to automatically return some of the hydrogen discharged by the water pipe to the water pipe through the pipe. The method according to claim 1,
Wherein the diameter of the tube in the reflux tube is smaller than the diameter of the tube in the water pipe. The method according to claim 1,
Wherein the mixing unit has at least two mixing units spaced apart from the mixing pipe, each of the mixing units has a connecting passage, and the diameter of the connecting passage is smaller than the diameter of the mixing pipe. The method according to claim 1,
And an atomizer is installed in the reflux pipe to convert the refluxed water into a spray state and then transfer the water to the water pipe portion.

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