JP2017209609A - Hydrogen water machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hydrogen water machine for lengthening a maintaining time of hydrogen dissolved in water, by enhancing the mixing effect of the water and the hydrogen.SOLUTION: A hydrogen water machine comprises a hydrogen generator 31 having a hydrogen source 311 and a hydrogen sending-out pipe 312, a water supply unit 32 having a water supply source 321 and a water sending-out pipe 322, a mixing flow pipe 331 connected to the hydrogen sending-out pipe 312 and the water sending-out pipe 322, a pressurizer 332 connected to the mixing flow pipe 331, a mixer 333 connected to the pressurizer 332, a mixing device 33 having an output pipe 334 connected to the mixer 333, and a round current pipe 34 for connecting the water sending-out pipe 322 and the output pipe 334, and in which hydrogen and water are mixed in the inside of the mixing flow pipe 331 to form hydrogen-mixed water, the hydrogen-mixed water is pressurized by the pressurizer 332 to cause the hydrogen to dissolve into the water and is atomized by the mixer 333 to increase a dissolved-in quantity of the hydrogen, then, hydrogen water produced in this way is outputted via the output pipe 334, and a part of the hydrogen water outputted from the output pipe 334 returns in the water sending-out pipe 322 via the round current pipe 34.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a hydrogen water machine for mixing hydrogen and liquid.

  In recent years, people's health consciousness has increased and many studies have been conducted, and the water in the body, which accounts for 60% of the body weight, carries oxygen and various nutrients throughout the body and discharges waste products to the outside. It is recognized that maintaining the balance of the body environment is important. Therefore, some people appeared to create drinkable health water by mixing gas elements (hydrogen element, etc.) beneficial to the human body and water.

  Some studies have recognized that drinking water containing hydrogen is as follows. "Hydrogen is the most abundant element, accounting for about 75% of the mass of the substance, and 63% of the elements that make up the human body. All three of the body's three nutrients contain hydrogen, Is not only the main component of the body, but also the main constituents of important components such as proteins that form cells and carbohydrates that are the calorie source, so drinking water containing hydrogen is useful for human health. Hydrogen water machines that produce water have appeared on the market.

As shown in FIG. 1, the conventional hydrogen water machine 1 includes a hydrogen delivery pipe 11, a drinking water delivery pipe 12, a mixing device 13 connected to the hydrogen delivery pipe 11 and the drinking water delivery pipe 12, and a drinking water delivery pipe 12. A pressurizer 14 is provided. The mixing device 13 is a T-shaped trident tube and has three ends. A first end of the mixing device 13 is connected to the hydrogen delivery pipe 11, a second end is connected to the drinking water delivery pipe 12, and a third end is connected to the hydrogen water mixing output end.
As shown in FIG. 2, at the time of use, the drinking water passing through the drinking water delivery pipe 12 is pressurized by the pressurizer 14 and sent to the mixing device 13, and at the same time, hydrogen passes through the hydrogen delivery pipe 11 and is mixed. 13. Thereafter, the drinking water and hydrogen are mixed in the mixing device 13 to produce drinking water containing hydrogen, and the drinking water containing hydrogen is further fed from the output end of the mixing device 13 and supplied for drinking.

However, when actually used, the conventional hydrogen water machine 1 can bring hydrogen and water into a mixed state, but the time for the hydrogen and water in the mixing device 13 to contact and mix with each other is short. Therefore, the hydrogen content in the potable water after production cannot be effectively increased. Also, because there is not enough time to mix potable water and hydrogen, the time to dissolve hydrogen in potable water is short, it becomes easy to separate hydrogen from water, and the hydrogen content in potable water decreases rapidly. . In particular, drinking water containing hydrogen will significantly decrease the hydrogen content the longer it is left, so drinking water containing hydrogen must be drunk immediately after production, otherwise the hydrogen content will decrease significantly. Resulting in.
Therefore, under the condition that the volume is not increased significantly, the mixing effect of hydrogen and water is enhanced, the hydrogen content in drinking water is increased, and the hydrogen concentration of drinking water after delivery is stabilized (ie, after generation) Reduction of hydrogen separation rate in drinking water).
The problem to be solved by the present invention is to provide a hydrogen water machine that effectively enhances the mixing effect of water and hydrogen and extends the maintenance time of hydrogen dissolved in water.

  The present invention relates to a hydrogen water machine including a hydrogen generator, a water supply device, and a mixing device. The hydrogen generator includes a hydrogen source that generates hydrogen, and a hydrogen delivery pipe that is connected to the hydrogen source and outputs hydrogen. The water supply unit includes a supply source for containing water, and a water delivery pipe connected to the supply source to output water, and the mixing device is connected to the hydrogen delivery pipe and the water delivery pipe, respectively. A mixed flow pipe, a pressurizer connected to the mixed flow pipe, a mixer connected to the pressurizer, and an output pipe connected to the mixer and outputting water after being mixed in the mixer, A mixing passage is formed, and hydrogen from the hydrogen delivery pipe and water from the water delivery pipe are mixed in the mixing passage to form hydrogen mixed water, and the hydrogen mixed water is pressurized by the pressurizer to form hydrogen. Dissolved in water, atomized by the mixer, The amount of hydrogen dissolved in the hydrogen water is increased, hydrogen water thus produced is output from the output pipe, and the water delivery pipe and the output pipe are connected by a circulation pipe. A part of the hydrogen water outputted from is returned to the water delivery pipe through the circulation pipe.

The inner diameter of the circulation pipe may be smaller than the inner diameter of the output pipe.
The mixer may include at least two mixing units installed in the mixed flow pipe with a space therebetween, and a connecting passage may be formed in each of the mixing units, and an inner diameter of the connecting passage may be smaller than an inner diameter of the mixed flow pipe.
An atomizer may be provided in the circulation pipe, and the returning hydrogen water may be atomized and sent to the water delivery pipe.

  According to the present invention, the amount of hydrogen dissolved in the water is increased by atomization by the mixer, and the mixed flow that flows through the output pipe of the mixing device by the circulation pipe provided between the mixing device and the water supply device. A part of the hydrogen water that has flown again flows into the water delivery pipe, the water flowing through the water delivery pipe is mixed with the hydrogen water, and then the circulation operation is repeated in which the water is further fed into the mixing device and mixed with hydrogen. Therefore, the contact time between water and hydrogen can be greatly increased, the hydrogen content in hydrogen water can be effectively increased, and at the same time, the retention time of hydrogen dissolved in water can be extended to achieve a better mixing effect.

It is a schematic diagram of the conventional hydrogen water machine. It is sectional drawing which shows the mixing apparatus of the conventional hydrogen water machine. It is a perspective view of the hydrogen water machine which shows Example 1 of the present invention. It is sectional drawing of the hydrogen water machine which shows Example 1 of this invention. It is sectional drawing in the operating state of the hydrogen water machine which shows Example 1 of this invention. It is sectional drawing of the hydrogen water machine which shows Example 2 of this invention. It is an expanded sectional view of the mixing device of the hydrogen water machine which shows Example 2 of the present invention. It is sectional drawing in the operation state of the hydrogen water machine which shows Example 2 of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
3 to 5 show Embodiment 1 of the present invention.
As shown in FIG. 3, the hydrogen water machine 3 includes a hydrogen generator 31, a water supply device 32, a mixing device 33 connected to the hydrogen generator 31 and the water supply device 32, and a mixing device 33 and a water supply device 32. A circulation pipe 34 is provided.
The hydrogen generator 31 includes a hydrogen source 311 that generates hydrogen and a hydrogen delivery pipe 312 that is connected to the hydrogen source 311 and outputs hydrogen. The water supplier 32 includes a supply source 321 that stores water and a water delivery pipe 322 that is connected to the supply source 321 and outputs water.

As shown in FIG. 4, the mixing apparatus 33 includes a hydrogen delivery pipe 312 and a mixed flow pipe 331 connected to the water delivery pipe 322, a pressurizer 332 (illustrated simply) connected to the mixed flow pipe 331, and a mixer connected to the pressurizer 332. 333 and an output pipe 334 that is connected to the mixer 333 and outputs the water mixed by the mixer 333.
A mixing passage 3311 is formed inside the mixed flow pipe 331, and the hydrogen passing through the hydrogen delivery pipe 312 and the water passing through the water delivery pipe 322 are mixed in the mixing passage 3311 to become hydrogen mixed water. Thereafter, in the hydrogen mixed water pressurized by the pressurizer 332, hydrogen dissolves in the water. Finally, by atomizing with the mixer 333, the stability of hydrogen dissolved in water is improved. The hydrogen water thus produced is output through the output pipe 334.

Further, since the circulation pipe 34 connects the water delivery pipe 322 of the water supply device 32 and the output pipe 334 of the mixing device 33, a part of the hydrogen water output from the output pipe 334 passes through the circulation pipe 34. Then, the water returns to the water delivery pipe 322.
The flow rate of hydrogen water in the circulation pipe 34 is controlled by making the inner diameter of the circulation pipe 34 smaller than the inner diameter of the output pipe 334. As shown in FIG. 4, if it is desired to return about one third of the hydrogen water, the inner diameter of the circulation pipe 34 is set to one third of that of the output pipe 334.

  As shown in FIG. 5, in the first embodiment, water is sent out by the water delivery pipe 322 and hydrogen is sent out by the hydrogen delivery pipe 312. The pressurizing operation of the pressurizer 332 causes a siphon action in the mixed flow pipe 331, and water and hydrogen enter the mixed flow pipe 331 at the same time to form hydrogen mixed water in the first stage, which is called the first contact of water and hydrogen. The objective is achieved. With continuous pressurization by the pressurizer 332, hydrogen dissolves in water for the first time. Thereafter, the hydrogen-mixed water is sent into the mixer 333 of the mixing device 33, and the amount of hydrogen dissolved is further increased by high-pressure atomization. Thus, hydrogen water containing a large amount of hydrogen is obtained, and the user can sufficiently use the hydrogen water sent out from the output pipe 334.

  The circulation pipe 34 is connected to the water delivery pipe 322, and further, a siphon action is generated in the mixed flow pipe 331 by the pressurizer 332, so that a part of the hydrogen water obtained in the output pipe 334 is again supplied to the water delivery pipe 322. Return to As a result, the water delivery pipe 322 is sent to the mixed flow pipe 331 together with the water originally sent out and becomes easy to mix with hydrogen. Since the returned hydrogen water continuously circulates, the mixing time of hydrogen and water is greatly increased, effectively increasing the hydrogen content of the hydrogen water, and further increasing the time to keep the hydrogen in the hydrogen water. Increase the length to make the concentration after hydrogen water output more stable.

6 to 8 show a second embodiment of the present invention.
As shown in FIG. 6, the hydrogen water machine 3 includes a hydrogen generator 31, a water supply device 32, a mixing device 33, and a circulation pipe 34. Since the details and operations of the constituent elements are the same as those of the first embodiment, description thereof is omitted here.
In the second embodiment, as shown in FIG. 7, the mixer 333 includes at least two mixing units 3331 installed on the mixed flow pipe 331 at intervals. The example shown in the figure comprises two mixing units 3331. Each mixing unit 3331 is formed with a connecting passage 3332, and the inner diameter of the connecting passage 3332 is made smaller than the inner diameter of the mixed flow pipe 331. In order to enhance the mixing effect, it is also possible to install the atomizer 35 on the circulation pipe 34 in a timely manner. After atomizing the hydrogen water returned to the circulation pipe 34, Feed and circulate and mix in subsequent steps.

  As shown in FIGS. 7 and 8, when the hydrogen and water in the mixed flow pipe 331 are sent to the mixer 333 by the pressurizing operation of the pressurizer 332, the inner diameter of the connection passage 3332 is larger than the inner diameter of the mixed flow pipe 331. Since it is small, the hydrogen mixed water which mixed water and hydrogen first is ejected from any one mixing unit 3331. Thereby, the hydrogen mixed water passing through the connecting passage 3332 is atomized to become hydrogen water. In addition, in a pipeline environment in which hydrogen is filled and pressure is continuously applied by the pressurizer 332, the effect of hydrogen being dissolved in water under high pressure is enhanced, and the amount of hydrogen dissolved in water is improved even in the atomization step. The mixing effect of hydrogen and water can be greatly improved.

After passing through any one of the mixing units 3331, the hydrogen water is immediately atomized and mixed under the continuous pressure of another mixing unit 3331. Thereby, the hydrogen content concentration of hydrogen water and the mixing action time are further increased, and hydrogen and water are mixed to produce high concentration hydrogen water.
Thereafter, the hydrogen water is output from the output pipe 334 and supplied as drinking water, but a part of the hydrogen water flows again to the circulation pipe 34. The hydrogen water is pressurized and atomized again by the atomizer 35 installed in the circulation pipe 34. As a result, since the amount of hydrogen dissolved further increases, the water and hydrogen dissolution rate further increases, the time during which hydrogen stays in the water is extended, and the stable output of drinking water is the same as drinking water with a higher hydrogen concentration. Become.

  The above is description of the Example of this invention, Comprising: It does not restrict | limit the right range of this invention by this, All the changes and modifications which do not deviate from a claim shall belong to the right range of this invention. .

DESCRIPTION OF SYMBOLS 3 Hydrogen water machine 31 Hydrogen generator 311 Hydrogen source 312 Hydrogen delivery pipe 32 Water supply 321 Supply source 322 Water delivery pipe 33 Mixing device 34 Recirculation pipe 35 Atomizer 331 Mixed flow pipe 332 Pressurizer 333 Mixer 334 Output pipe 3311 Mixing Passage 3331 Mixing unit 3332 Connection passage

  The present invention relates to a hydrogen water machine for mixing hydrogen and liquid.

  In recent years, people's health consciousness has increased and many studies have been conducted, and the water in the body, which accounts for 60% of the body weight, carries oxygen and various nutrients throughout the body and discharges waste products to the outside. It is recognized that maintaining the balance of the body environment is important. Therefore, some people appeared to create drinkable health water by mixing gas elements (hydrogen element, etc.) beneficial to the human body and water.

  Some studies have recognized that drinking water containing hydrogen is as follows. "Hydrogen is the most abundant element, accounting for about 75% of the mass of the substance, and 63% of the elements that make up the human body. All three of the body's three nutrients contain hydrogen, Is not only the main component of the body, but also the main constituents of important components such as proteins that form cells and carbohydrates that are the calorie source, so drinking water containing hydrogen is useful for human health. Hydrogen water machines that produce water have appeared on the market.

As shown in FIG. 1, the conventional hydrogen water machine 1 includes a hydrogen delivery pipe 11, a drinking water delivery pipe 12, a mixing device 13 connected to the hydrogen delivery pipe 11 and the drinking water delivery pipe 12, and a drinking water delivery pipe 12. A pressurizer 14 is provided. The mixing device 13 is a T-shaped trident tube and has three ends. A first end of the mixing device 13 is connected to the hydrogen delivery pipe 11, a second end is connected to the drinking water delivery pipe 12, and a third end is connected to the hydrogen water mixing output end.
As shown in FIG. 2, at the time of use, the drinking water passing through the drinking water delivery pipe 12 is pressurized by the pressurizer 14 and sent to the mixing device 13, and at the same time, hydrogen passes through the hydrogen delivery pipe 11 and is mixed. 13. Thereafter, the drinking water and hydrogen are mixed in the mixing device 13 to produce drinking water containing hydrogen, and the drinking water containing hydrogen is further fed from the output end of the mixing device 13 and supplied for drinking.

However, when actually used, the conventional hydrogen water machine 1 can bring hydrogen and water into a mixed state, but the time for the hydrogen and water in the mixing device 13 to contact and mix with each other is short. Therefore, the hydrogen content in the potable water after production cannot be effectively increased. Also, because there is not enough time to mix potable water and hydrogen, the time to dissolve hydrogen in potable water is short, it becomes easy to separate hydrogen from water, and the hydrogen content in potable water decreases rapidly. . In particular, drinking water containing hydrogen will significantly decrease the hydrogen content the longer it is left, so drinking water containing hydrogen must be drunk immediately after production, otherwise the hydrogen content will decrease significantly. Resulting in.
Therefore, under the condition that the volume is not increased significantly, the mixing effect of hydrogen and water is enhanced, the hydrogen content in drinking water is increased, and the hydrogen concentration of drinking water after delivery is stabilized (ie, after generation) Reduction of hydrogen separation rate in drinking water).
The problem to be solved by the present invention is to provide a hydrogen water machine that effectively enhances the mixing effect of water and hydrogen and extends the maintenance time of hydrogen dissolved in water.

The present invention relates to a hydrogen water machine including a hydrogen generator, a water supply device, and a mixing device. The hydrogen generator includes a hydrogen source that generates hydrogen, and a hydrogen delivery pipe that is connected to the hydrogen source and outputs hydrogen. The water supply unit includes a supply source for containing water, and a water delivery pipe connected to the supply source to output water, and the mixing device is connected to the hydrogen delivery pipe and the water delivery pipe, respectively. A mixed flow pipe, a pressurizer connected to the mixed flow pipe, a mixer connected to the pressurizer, and an output pipe connected to the mixer and outputting water after being mixed in the mixer, A mixing passage is formed, and hydrogen from the hydrogen delivery pipe and water from the water delivery pipe are mixed in the mixing passage to form hydrogen mixed water, and the hydrogen mixed water is pressurized by the pressurizer to form hydrogen. Dissolved in water, atomized by the mixer, Penetration amount of hydrogen becomes hydrogen water was increased that dissolved in the thus produced hydrogen water is outputted from the output tube, between the output pipe and the water delivery tube is connected with circumfluence pipe, said circumfluence tube the atomizer is provided, a portion of the hydrogen water output from the output pipe is returned to the water delivery pipe is nebulized through said circumfluence tube.

The inner diameter of the circulation pipe may be smaller than the inner diameter of the output pipe.
The mixer includes at least two mixing units installed at intervals in a pipe continuous with the mixed flow pipe, and each of the mixing units forms a connection passage. An inner diameter of the connection passage is smaller than an inner diameter of the mixed flow pipe. There are things .

  According to the present invention, the amount of hydrogen dissolved in the water is increased by atomization by the mixer, and the mixed flow that flows through the output pipe of the mixing device by the circulation pipe provided between the mixing device and the water supply device. A part of the hydrogen water that has flown again flows into the water delivery pipe, the water flowing through the water delivery pipe is mixed with the hydrogen water, and then the circulation operation is repeated in which the water is further fed into the mixing device and mixed with hydrogen. Therefore, the contact time between water and hydrogen can be greatly increased, the hydrogen content in hydrogen water can be effectively increased, and at the same time, the retention time of hydrogen dissolved in water can be extended to achieve a better mixing effect.

It is a schematic diagram of the conventional hydrogen water machine. It is sectional drawing which shows the mixing apparatus of the conventional hydrogen water machine. It is a perspective view of the hydrogen water machine which shows a reference example . It is sectional drawing of the hydrogen water machine which shows a reference example . It is sectional drawing in the operation state of the hydrogen water machine which shows a reference example . It is sectional drawing of the hydrogen water machine which shows the Example of this invention. It is an expanded sectional view of the mixing device of the hydrogen water machine which shows the example of the present invention. It is sectional drawing in the operating state of the hydrogen water machine which shows the Example of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
3 to 5 show reference examples .
As shown in FIG. 3, the hydrogen water machine 3 includes a hydrogen generator 31, a water supply device 32, a mixing device 33 connected to the hydrogen generator 31 and the water supply device 32, and a mixing device 33 and a water supply device 32. A circulation pipe 34 is provided.
The hydrogen generator 31 includes a hydrogen source 311 that generates hydrogen and a hydrogen delivery pipe 312 that is connected to the hydrogen source 311 and outputs hydrogen. The water supplier 32 includes a supply source 321 that stores water and a water delivery pipe 322 that is connected to the supply source 321 and outputs water.

As shown in FIG. 4, the mixing apparatus 33 includes a hydrogen delivery pipe 312 and a mixed flow pipe 331 connected to the water delivery pipe 322, a pressurizer 332 (illustrated simply) connected to the mixed flow pipe 331, and a mixer connected to the pressurizer 332. 333 and an output pipe 334 that is connected to the mixer 333 and outputs the water mixed by the mixer 333.
A mixing passage 3311 is formed inside the mixed flow pipe 331, and the hydrogen passing through the hydrogen delivery pipe 312 and the water passing through the water delivery pipe 322 are mixed in the mixing passage 3311 to become hydrogen mixed water. Thereafter, in the hydrogen mixed water pressurized by the pressurizer 332, hydrogen dissolves in the water. Finally, by atomizing with the mixer 333, the stability of hydrogen dissolved in water is improved. The hydrogen water thus produced is output through the output pipe 334.

Further, since the circulation pipe 34 connects the water delivery pipe 322 of the water supply device 32 and the output pipe 334 of the mixing device 33, a part of the hydrogen water output from the output pipe 334 passes through the circulation pipe 34. Then, the water returns to the water delivery pipe 322.
The flow rate of hydrogen water in the circulation pipe 34 is controlled by making the inner diameter of the circulation pipe 34 smaller than the inner diameter of the output pipe 334. As shown in FIG. 4, if it is desired to return about one third of the hydrogen water, the inner diameter of the circulation pipe 34 is set to one third of that of the output pipe 334.

As shown in FIG. 5, in the reference example , water is sent out by the water delivery pipe 322 and hydrogen is sent out by the hydrogen delivery pipe 312. The pressurizing operation of the pressurizer 332 causes a siphon action in the mixed flow pipe 331, and water and hydrogen enter the mixed flow pipe 331 at the same time to form hydrogen mixed water in the first stage, which is called the first contact of water and hydrogen. The objective is achieved. With continuous pressurization by the pressurizer 332, hydrogen dissolves in water for the first time. Thereafter, the hydrogen-mixed water is sent into the mixer 333 of the mixing device 33, and the amount of hydrogen dissolved is further increased by high-pressure atomization. Thus, hydrogen water containing a large amount of hydrogen is obtained, and the user can sufficiently use the hydrogen water sent out from the output pipe 334.

  The circulation pipe 34 is connected to the water delivery pipe 322, and further, a siphon action is generated in the mixed flow pipe 331 by the pressurizer 332, so that a part of the hydrogen water obtained in the output pipe 334 is again supplied to the water delivery pipe 322. Return to As a result, the water delivery pipe 322 is sent to the mixed flow pipe 331 together with the water originally sent out and becomes easy to mix with hydrogen. Since the returned hydrogen water continuously circulates, the mixing time of hydrogen and water is greatly increased, effectively increasing the hydrogen content of the hydrogen water, and further increasing the time to keep the hydrogen in the hydrogen water. Increase the length to make the concentration after hydrogen water output more stable.

6 to 8 show an embodiment of the present invention.
As shown in FIG. 6, the hydrogen water machine 3 includes a hydrogen generator 31, a water supply device 32, a mixing device 33, and a circulation pipe 34. Since the details and operations of the constituent elements are the same as those in the reference example , description thereof is omitted here.
In the embodiment, as shown in FIG. 7, the mixer 333 includes at least two mixing units 3331 is placed on the tube contiguous with mixed flow tube 331 at intervals. The example shown in the figure comprises two mixing units 3331. Each mixing unit 3331 is formed with a connecting passage 3332, and the inner diameter of the connecting passage 3332 is made smaller than the inner diameter of the mixed flow pipe 331. In order to enhance the mixing effect, it is also possible to install the atomizer 35 on the circulation pipe 34 in a timely manner. After atomizing the hydrogen water returned to the circulation pipe 34, Feed and circulate and mix in subsequent steps.

  As shown in FIGS. 7 and 8, when the hydrogen and water in the mixed flow pipe 331 are sent to the mixer 333 by the pressurizing operation of the pressurizer 332, the inner diameter of the connection passage 3332 is larger than the inner diameter of the mixed flow pipe 331. Since it is small, the hydrogen mixed water which mixed water and hydrogen first is ejected from any one mixing unit 3331. Thereby, the hydrogen mixed water passing through the connecting passage 3332 is atomized to become hydrogen water. In addition, in a pipeline environment in which hydrogen is filled and pressure is continuously applied by the pressurizer 332, the effect of hydrogen being dissolved in water under high pressure is enhanced, and the amount of hydrogen dissolved in water is improved even in the atomization step. The mixing effect of hydrogen and water can be greatly improved.

After passing through any one of the mixing units 3331, the hydrogen water is immediately atomized and mixed under the continuous pressure of another mixing unit 3331. Thereby, the hydrogen content concentration of hydrogen water and the mixing action time are further increased, and hydrogen and water are mixed to produce high concentration hydrogen water.
Thereafter, the hydrogen water is output from the output pipe 334 and supplied as drinking water, but a part of the hydrogen water flows again to the circulation pipe 34. The hydrogen water is pressurized and atomized again by the atomizer 35 installed in the circulation pipe 34. As a result, since the amount of hydrogen dissolved further increases, the water and hydrogen dissolution rate further increases, the time during which hydrogen stays in the water is extended, and the stable output of drinking water is the same as drinking water with a higher hydrogen concentration. Become.

  The above is description of the Example of this invention, Comprising: It does not restrict | limit the right range of this invention by this, All the changes and modifications which do not deviate from a claim shall belong to the right range of this invention. .

DESCRIPTION OF SYMBOLS 3 Hydrogen water machine 31 Hydrogen generator 311 Hydrogen source 312 Hydrogen delivery pipe 32 Water supply 321 Supply source 322 Water delivery pipe 33 Mixing device 34 Recirculation pipe 35 Atomizer 331 Mixed flow pipe 332 Pressurizer 333 Mixer 334 Output pipe 3311 Mixing Passage 3331 Mixing unit 3332 Connection passage

Claims (4)

A hydrogen water machine comprising a hydrogen generator, a water supply and a mixing device,
The hydrogen generator includes a hydrogen source that generates hydrogen, and a hydrogen delivery pipe that is connected to the hydrogen source and outputs hydrogen.
The water supply device includes a supply source that stores water, and a water delivery pipe that is connected to the supply source and outputs water,
The mixing device includes a mixed flow pipe connected to the hydrogen delivery pipe and the water delivery pipe, a pressurizer connected to the mixed flow pipe, a mixer connected to the pressurizer, and a mixer connected to the mixer. An output pipe for outputting the mixed water is provided, a mixing passage is formed in the mixed flow pipe, and hydrogen from the hydrogen delivery pipe and water from the water delivery pipe are mixed in the mixing passage to form hydrogen. The hydrogen mixed water is pressurized by the pressurizer and hydrogen is dissolved in the water, and atomized by the mixer to be hydrogen water in which the amount of hydrogen dissolved in the water is increased and thus produced. Hydrogen water is output from the output pipe,
Hydrogen water, wherein the water delivery pipe and the output pipe are connected by a circulation pipe, and a part of the hydrogen water output from the output pipe returns to the water delivery pipe through the circulation pipe Machine.   The hydrogen water machine according to claim 1, wherein an inner diameter of the circulation pipe is smaller than an inner diameter of the output pipe.   The mixer includes at least two mixing units installed at intervals in the mixed flow pipe, each of the mixing units has a connecting passage, and an inner diameter of the connecting passage is smaller than an inner diameter of the mixed flow pipe. The hydrogen water machine according to claim 1.   2. The hydrogen water machine according to claim 1, wherein an atomizer is provided in the circulation pipe, and the returning hydrogen water is atomized and sent to the water delivery pipe.

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