TWM498622U - Hydrogen rich water generator - Google Patents

Abstract

A hydrogen rich water generator includes a container, a hydrogen input, a dividing tube, a vibrator, and a passing structure. The container is used for containing water. The hydrogen input interconnects the inside and the outside of the container. The dividing tube is configured in the container and connected to the hydrogen input. The vibrator is used for vibrate the water. The passing structure is configured on the container and used for adding water or taking hydrogen rich water out. The hydrogen input receives hydrogen from a hydrogen source and guides the hydrogen into the dividing tube, having a plurality of nano-holes on the tube wall, and the hydrogen passes through the nano-holes into the water to become hydrogen micro bubbles in the container. The vibrator assists the hydrogen micro bubbles mixed with the water well to generate hydrogen rich water and humidified hydrogen.

Description

Hydrogen generator

The present invention relates to a hydrogen water generator capable of generating hydrogen water, and more particularly to a device for generating a humidifying gas and a hydrogen-rich hydrogen water.

Human beings have always attached great importance to life. Many medical technologies have been developed to fight disease and continue human life. Most of the past medical treatments are passive, that is, when the disease occurs, first diagnose the cause and then perform medical behaviors on the symptoms, such as surgery, administration, chemotherapy of cancer, radiotherapy, or rehabilitation and rehabilitation of chronic diseases. , correction, etc. However, in recent years, many medical experts have gradually made research toward preventive medical methods, such as health food research, genetic disease screening and early prevention, etc., and actively prevent future morbidity. In addition, in order to extend human life, many anti-aging and anti-oxidation technologies have been developed and widely used by the public, including smeared skin care products, and antioxidant foods/drugs.

A free radical is a molecule or ion that has one or more unpaired electrons that are quite active and tend to pull nearby electrons into it to maintain stability. The normal metabolism of the human body is an oxidation reaction that naturally produces free radicals. In addition, in order to maintain the normal operation of the human body, it is necessary to manufacture many useful chemicals or to resist foreign bacteria, such as enzymes or white blood cells, and free radicals. In addition to the above internal factors, the human body It also generates free radicals due to various external environmental influences, such as smoking, alcohol abuse and other bad habits, radiation, ultraviolet light and electromagnetic waves, and even various environmental pollution. Because the oxidative power of free radicals is quite strong, it will attack cells and damage cells. According to current research, free radicals are the main cause of various chronic diseases, cancers, and even aging.

The above-mentioned free radicals can be discharged from the body by synthesizing water with the inhaled hydrogen, and the hydrogen is an antioxidant substance having a strong reducing power. By reducing the amount of free radicals in the body by hydrogen, the function of reducing the acidic body to a healthy alkaline body can be achieved, thereby achieving anti-oxidation, anti-aging, and even eliminating chronic diseases and beauty care effects. Even clinical trials have shown that for some patients with long-term beds, lung damage caused by long-term breathing of high concentrations of oxygen can relieve the symptoms of lung injury by inhaling hydrogen. Since the human tracheal structure is not suitable for inhaling too much dry gas, the hydrogen must be properly humidified before it can be inhaled by the patient.

In addition to the way of inhaling humidified hydrogen, medical treatment can also achieve the effects of various disease prevention or treatment by drinking or injecting hydrogen-rich water (hydrogen water or hydrogen water). However, the solubility of hydrogen in water is low, and the human body needs to drink or inject a larger amount of hydrogen water to achieve a better therapeutic effect. Therefore, how to efficiently produce humidified hydrogen and hydrogen water has become an urgent goal in the art.

Humidifying hydrogen and hydrogen water can remove free radicals and prevent disease or anti-aging. In addition to being used in hospitals or similar medical units, the use in home life can further achieve the effect of early prevention of diseases. In the prior art, a household hydrogen water generator is electrolyzed water or reacts with magnesium to make water contain hydrogen. However, the method of electrolyzing water deposits minerals on the electrodes to affect water quality, and in the form of magnesium reaction Residual magnesium oxide in the water, both of which must be filtered to ensure the quality of the hydrogen water produced, but one more filtration process will make part of the hydrogen in the hydrogen water Dissipate to the outside world and reduce its effect. Therefore, it is necessary to develop a hydrogen water generator that is simple in procedure and does not have excessive residues or minerals for home use.

One aspect of the present invention is to provide a hydrogen water generator comprising a housing, a gas inlet tube, a refining tube, an oscillating device, and a liquid inlet and outlet structure. One end of the gas input pipe is disposed at the other end of the receiving body and is connected to the external body; the thinning tube is disposed in the receiving body, communicates with the gas input pipe, and has a plurality of nano perforations on the thinning tube; the oscillating device is arranged In the body, the liquid inlet and outlet structure is disposed on the container.

The container can be used to hold water. One end of the gas input pipe connected to the outside of the receiving body can receive the hydrogen-containing gas from the outside. The hydrogen-containing gas enters the refinement tube from the gas inlet tube and passes through the nanoperforation on the refinement tube into the water of the container to form microbubbles. The oscillator can oscillate the water in the container to help the microbubbles and water mix with each other to form hydrogen water, and the generated hydrogen water can be taken out through the liquid in and out structure.

Further, according to another embodiment, the hydrogen water generator may further include a gas output structure for collecting the humidified hydrogen-containing gas and outputting it to the outside of the container. Therefore, the hydrogen water generator of the present invention can simultaneously generate hydrogen water and humidified hydrogen-containing gas, and the process is simple, and the hydrogen water filtration process is not required to maintain the hydrogen content of the hydrogen water.

Another area of the creation is to provide a hydrogen water generator which, in addition to producing hydrogen water and humidifying gas through a simple process, has a visually pleasing effect. According to another specific embodiment, the hydrogen water generator further comprises a light emitting device, and the receiving body has a transparent side wall. The illuminating device emits light to the inside of the accommodating body and passes through the transparent side wall to be observed by an external user. The light emitted by the illuminating device is irradiated to the tiny bubbles of hydrogen-containing gas suspended in the water, which may be biased. Folding, which in turn forms different visual effects and has a beautifying effect.

The advantages and spirit of this creation can be further understood by the following detailed description of the creation and the drawings.

1, 2‧‧‧ Hydrogen generator

10, 20‧‧‧ 容容

12, 22‧‧‧ gas input pipe

14, 24 ‧ ‧ fine tube

16, 26‧‧‧ oscillating device

18‧‧‧Liquid inlet and outlet structure

19, 29‧‧‧ gas output structure

120, 220‧‧‧ first end

122, 222‧‧‧ second end

L‧‧‧Lighting device

Figure 1A is a schematic illustration of a hydrogen water generator in accordance with one embodiment of the present work.

Figure 1B is a schematic diagram showing the internal structure of the hydrogen water generator of Figure A.

2 is a schematic view showing a hydrogen water generator according to another embodiment of the present creation.

Referring to FIG. 1A and FIG. 1B, FIG. 1A is a schematic diagram of a hydrogen water generator 1 according to an embodiment of the present invention, and FIG. 1B is a diagram showing the interior of the hydrogen water generator 1 of FIG. schematic diagram. Note that the angle of view of FIG. 1B is different from that of FIG. 1A in order to more clearly illustrate the internal structure of the hydrogen water generator 1. As shown in FIG. 1A and FIG. 1B, the hydrogen water generator 1 includes a housing 10, a gas inlet tube 12, a refining tube 14, an oscillating device 16, and a liquid inlet and outlet structure 18. The housing 10 can be used to hold water, but in practice, the housing 10 is not limited to only holding water, but can accommodate similar liquids as desired. The gas inlet pipe 12 is disposed on the accommodating body 10, and has a first end 120 extending to the inside of the accommodating body 10, and a second end 122 communicating with the outside of the accommodating body 10. Therefore, the gas inlet pipe 12 is permeable. The second end 122 is connected to an external hydrogen-containing source to receive the hydrogen-containing gas, and introduces the hydrogen-containing gas into the container 10. The hydrogen-containing gas may be pure hydrogen or a gas partially composed of hydrogen, such as a mixed gas of hydrogen and oxygen.

The first end 120 of the gas inlet pipe 12 is connected to the central portion of the refining tube 14, The received hydrogen-containing gas is further introduced into the thin tube 14. The tube wall of the refining tube 14 has a plurality of nano perforations for allowing the hydrogen-containing gas to pass through the tube wall into the inner space of the container body 10, please note that for convenience of illustration, in Figure 1B The nanoperforation is represented by small holes distributed on the refining tube 14, but in practice, since the size of the nano perforation is extremely small, it is difficult for the naked eye to see that the perforation is distributed on the tube wall of the refining tube 14. In addition, both ends of the thinning tube 14 are closed to prevent the hydrogen-containing gas from leaking from both ends or the water contained in the receiving body 10 entering the refining tube 14. The ends of the refining tube 14 in Fig. 1B are closed by two sleeves, but in practice, the ends of the refining tube 14 can also be closed directly integrally.

Since the container 10 contains water, the hydrogen-containing gas passes through the nanoperforation inside the refining tube 14 and enters the container 10 to form microbubbles in the water. The size of the microbubbles and the size of the nano perforations are Positive correlation. The nanoperforation of the specific embodiment has a nanometer-sized pore size, which can effectively reduce the size of the microbubbles. In practice, the size of the nanoperforation can range from 2 nanometers to 10 nanometers, but is not limited thereto, and can be adjusted according to the needs of the user or the designer.

After the hydrogen-containing gas permeates through the plurality of nanometers of the refining tube 14, a large number of micro-bubbles are suspended in the water and moved upward. During the upward movement, the bubbles carry moisture and humidify, and a large number of micro-bubbles The contact area of the hydrogen-containing gas with water is greatly increased, and the degree of humidification is further enhanced. On the other hand, the formation of a large number of microbubbles by the hydrogen-containing gas can be effectively dispersed in water to increase the solubility of hydrogen in water. However, the hydrogen-hydrogen generator 1 of the present invention further includes an oscillating device 16 to further improve the solubility of hydrogen. The oscillating device 16 can be disposed in the accommodating body 10 and oscillates the water in the accommodating body 10. As shown in FIG. 1B, the oscillating device 16 of the present embodiment is disposed at the bottom of the accommodating body 10, and may include an ultrasonic oscillator for oscillating water molecules in the accommodating body 10 to make hydrogen. The hydrogen in the gas can be more effectively dispersed in the water, that is, The solubility of hydrogen in water increases to form hydrogen water. In practice, the oscillating device is not limited to the ultrasonic oscillator of the specific embodiment, and its position is not limited to the position shown in FIG. 1B, and any of the oscillating devices are disposed on the accommodating body and can oscillate or stir the water to effectively disperse. The device for containing tiny bubbles of hydrogen gas belongs to the oscillating device defined by this creation. For example, the oscillating device may also include a centrifugal blade and a drive motor connected to the centrifugal blade. The drive motor can drive the centrifugal blade to rotate to generate eddy current in the water, and assist the hydrogen containing hydrogen gas to be more effectively dispersed in the water to form hydrogen water. The oscillating device can also include the above-mentioned ultrasonic oscillator, centrifugal blade and drive motor to make the generation of hydrogen water more efficient.

Referring again to FIG. 1A, the hydrogen water generator 1 of the present embodiment further includes a liquid inlet and outlet structure 18. The liquid inlet and outlet structure 18 of FIG. 1 is a liquid inlet and outlet, which can be opened or closed. The liquid inlet and outlet 18 can be used to replenish the container 10 from the external environment, and the hydrogen which has been saturated with hydrogen can be taken out from the container 10. water. Although the liquid inlet and outlet structure 18 shown in FIG. A is in the form of a switch, it is not limited thereto in practice. For example, in practice, the liquid inlet and outlet structure may be a suction tubular device that is connected to the inside and outside of the body, and the supplementary water or hydrogen water is sucked into the receiving body or the self-accommodating body through the suction tubular device. On the other hand, the liquid inlet and outlet structure can also be divided into an entry structure and a take-out structure. For example, in practice, the liquid inlet and outlet structure can be designed as a water injection port and an outlet pipe, thereby enabling simultaneous injection of makeup water and extraction of saturated hydrogen. The function of hydrogen water.

In the particular embodiment illustrated in FIG. A, the hydrogen water generator 1 also has a gas output structure 19. As described above, when the hydrogen-containing gas passes through the nanoperforation of the thin tube 14, it enters into the water to form microbubbles and rises, and is humidified in the ascending process. The humidified hydrogen-containing gas rises above the container 10 and can be collected by the gas output structure 19 and output to the outside. The gas output structure 19 can be directly connected to the hydrogen medical device to directly supply the humidified gas to the patient for inhalation, also It can be connected to a hand-held or fixed atomized medicament generating device, and the humidified gas and the atomized medicament produced by the atomized medicament generating device form a mixed gas and then supplied to the patient for inhalation. In the present embodiment, the gas output structure 19 is a gas outlet disposed above the accommodating body 10. Since the gas outlet is located at a higher position, the micro-bubbles of the hydrogen-containing gas rise and can be output to the outside by the gas outlet. In practice, the flow rate of the output humidification gas of the gas output structure 19 may be in the range of 0.01 L/min and 12 L/min.

In summary, the hydrogen water generator of the present invention can easily form hydrogen water and humidified gas, and the generated hydrogen water does not contain excessive mineral or magnesium oxide, so that it is not necessary to carry out a filtration process. Maintain high solubility.

Referring to FIG. 2, FIG. 2 is a schematic diagram showing a hydrogen water generator 2 according to another embodiment of the present invention. Similarly, the hydrogen water generator 2 of FIG. 2 also has a gas inlet pipe 22, a refinement pipe 24, and an oscillating device 26, and the configuration and function of these devices are the same as those corresponding to the previous embodiment, and thus no longer Narration.

In the present embodiment, the housing 20 of the hydrogen water generator 2 has a transparent side wall through which the user can observe the inside of the housing 20. The position of the transparent side wall may be any one of the side walls or the plurality of side walls as needed. For example, all the side walls of the receiving body 20 may be transparent like a transparent glass, or only one side of the side wall is transparent and disposed on the opposite side wall. Pattern or specific color combination. When the gas inlet pipe 22 receives the hydrogen-containing gas and is introduced into the refining pipe 22, the user can observe through the transparent side wall that the pipe wall of the refining pipe 24 generates a large amount of micro-bubbles containing hydrogen gas to float upward. Further, the hydrogen water generator 2 of the present embodiment further has a light-emitting device L capable of emitting light to the inside of the housing 20, and the light is emitted from the transparent side wall so that the user can observe the light. Since the water in the housing 20 contains a large amount of tiny bubbles of hydrogen-containing gas, when the light-emitting device L The emitted light shines on these tiny bubbles, which causes the light to deflect, allowing the user to feel the change of the light inside the housing 20, thereby achieving a visual beautification effect.

In the present embodiment, the illuminating device L is an LED illuminating device that can emit light of different colors by using LEDs of various colors, so that the hydrogen water generator of the specific embodiment has a more visual effect. However, in practice, the illuminating device L is not limited to the LED illuminating device, and any device that can be mounted on the accommodating body 20 and illuminate the inside of the accommodating body 20 falls within the scope of the illuminating device of the present invention. On the other hand, although the illuminating device L in FIG. 2 is disposed at the bottom of the accommodating body 20, it is not limited thereto in practice, and the position thereof only needs to be able to illuminate the inside of the accommodating body 20, for example, an LED. The illuminating device can also be mounted on the opaque side wall of the accommodating body 20. The illumination device L is disposed at different positions to produce different visual effects, so the position of the device depends on the preference of the user or the designer.

In this way, in addition to the simple and effective formation of hydrogen water and humidified gas, the hydrogen water generator of the present invention can illuminate the microscopic bubbles inside the container through the light-emitting device, thereby producing an appearance visual effect and stimulating the consumer. The desire to buy.

On the other hand, in the specific embodiment of FIG. 1B, the first end 120 of the gas inlet pipe 12 is connected to the central portion of the refining pipe 14, but in practice, the first end of the gas input pipe and the refining pipe may also be Different types are connected. According to another embodiment of the present invention, the central portion of the refinement tube of the hydrogen water generator has no opening for connecting the gas inlet tube, but one end is connected to the first end of the gas inlet tube, and the tube of the tube is refining The wall also has a perforation of the nanometer and the other end is closed. This type of gas inlet pipe and refinement pipe can also generate a large amount of tiny bubbles of hydrogen-containing gas, and can also form hydrogen water and humidification gas through the help of the oscillating device.

With the above detailed description of the preferred embodiments, it is intended that the features and spirit of the present invention will be more clearly described, rather than the preferred embodiments disclosed herein. The scope is limited. On the contrary, it is intended to cover all kinds of changes and equivalences within the scope of the patent application to which the present invention is intended. Therefore, the scope of the patent scope applied for by this creation should be interpreted broadly based on the above description so that it covers all possible changes and equivalence arrangements.

1‧‧‧ Hydrogen generator

10‧‧‧ 容容

12‧‧‧ gas input pipe

14‧‧‧Refinement tube

16‧‧‧ oscillating device

19‧‧‧ gas output structure

120‧‧‧ first end

122‧‧‧ second end

Claims (11)

A hydrogen water generator comprising: a receiving body for accommodating water; a gas inlet pipe having a first end disposed in the receiving body and a second end connected to the receiving body, the gas input pipe The second end is configured to receive a hydrogen-containing gas from the external body; a thinning tube is disposed in the receiving body and communicates with the first end of the gas input tube to receive the gas input tube a hydrogen-containing gas, the tube wall of the refinement tube has a plurality of nano perforations, so that a hydrogen-containing gas can pass through the perforation through the permeation tube to form a plurality of micro-bubbles; and an oscillating device is disposed on the The accommodating body is configured to oscillate water in the accommodating body to assist the microbubbles and water to mix with each other to form hydrogen water and humidifying gas; and a liquid inlet and outlet structure is disposed on the accommodating body. The supplemental water enters the receiving body and the hydrogen water is taken out from the containing body. The hydrogen water generator of claim 1, wherein the container has a transparent side wall. The hydrogen water generator according to claim 2, further comprising a light emitting device disposed on the receiving body, the light emitting device is configured to emit light toward the inside of the receiving body, and the emitted light passes through the light emitting device The transparent side wall of the receiving body is ejected from the receiving body. The hydrogen water generator according to claim 3, wherein the light emitting device is an LED light emitting device. The hydrogen water generator according to claim 1, wherein the oscillating device comprises an ultrasonic oscillator to oscillate the water in the container. The hydrogen water generator according to claim 1, wherein the oscillating device comprises a centrifugal blade and a driving motor connected to the centrifugal blade, wherein the driving motor is configured to drive the centrifugal blade to rotate to the receiving body The water in the water is oscillated and centrifuged. The hydrogen water generator according to claim 1, wherein the first end of the gas inlet pipe is connected to a central portion of the thinning pipe, and both ends of the thinning pipe are closed. The hydrogen water generator of claim 1, wherein the accommodating body further comprises a gas output structure disposed on the accommodating body to output the humidifying gas to the outside of the accommodating body. The hydrogen water generator according to claim 8, wherein the gas output structure outputs the humidified gas at a flow rate ranging between 0.01 L/min and 12 L/min. The hydrogen water generator according to claim 8, wherein the gas output structure is configured to connect an atomizing agent generating device to provide the humidifying gas and the atomizing agent produced by the atomizing agent generating device. mixing. The hydrogen water generator according to claim 1, wherein the nano perforations have a size ranging from 2 nm to 10 nm.