JP5878300B2 - Hydrogen water supply device - Google Patents

Description

  The present invention relates to a hydrogen water supply device for supplying hydrogen water containing hydrogen in tap water.

  Conventionally, it has been confirmed that hydrogen water containing hydrogen has a positive effect on the human body by reducing active oxygen.

  A hydrogen water supply device is used as a device that generates and supplies this hydrogen water from tap water.

  In a conventional hydrogen water supply device, an electrolyzer is connected to a tap water supply pipe for supplying tap water, tap water on the cathode side of the electrolyzer is stored in a storage tank as hydrogen water, and hydrogen water is supplied from the storage tank. It is comprised so that it may supply (for example, refer patent document 1).

JP 2006-43610 A

  However, in the conventional hydrogen water supply apparatus, since the tap water on the cathode side of the electrolyzer is stored in the storage tank as hydrogen water, the amount of hydrogen mixed into the tap water is very small, As a result, there is a possibility that the function as the above cannot be exhibited well.

Therefore, in the present invention according to claim 1, in a hydrogen water supply apparatus for supplying hydrogen water containing hydrogen in tap water, a tap water supply pipe for supplying tap water is branched, and one of them is electrolyzed. as well as connect to the vessel, and connecting the other to the storage tank, connected to the circulation flow path to said storage tank, the hydrogen produced by the electrolyzer in the middle of the circulation flow path in tap water accumulated in the reservoir tank hydrogen mixed portion to be mixed with a circulation pump is provided, wherein the fine bubble device for fine bubbles of hydrogen were mixed in the downstream side is provided than hydrogen aeration unit and the circulation pump, downstream of the hydrogen aeration unit the pressurizer for pressurizing the tap water is provided, and the Rukoto provided with the fine bubble device between said pressurizer and the hydrogen mixing section to.

  Further, in the present invention according to claim 2, in the present invention according to claim 1, an ion exchanger for removing ions contained in tap water is provided upstream of the electrolyzer. .

  And in this invention, there exists an effect described below.

  That is, in the present invention, in a hydrogen water supply apparatus for supplying hydrogen water containing hydrogen in tap water, a tap water supply pipe for supplying tap water is branched, and one is connected to an electrolyzer. The other is connected to the storage tank, the circulation channel is connected to the storage tank, and the hydrogen mixing part is provided in the middle of the circulation channel to mix the hydrogen generated by the electrolyzer into the tap water stored in the storage tank. Therefore, a large amount of hydrogen can be mixed into the tap water, and hydrogen water that exhibits a good function as hydrogen water can be supplied.

  In particular, when an ion exchanger for removing ions contained in tap water is installed on the upstream side of the electrolyzer, impurities adhere to the electrode of the electrolyzer and the amount of generated hydrogen is reduced. Can be prevented, and a large amount of hydrogen can be mixed into the tap water for a long period of time.

  In addition, when a pressurizer for pressurizing tap water is provided downstream of the hydrogen mixing part of the circulation channel, the amount of hydrogen that can be mixed into tap water by pressurizing tap water And a larger amount of hydrogen can be mixed into the tap water.

  Furthermore, when it is decided to provide a fine bubbler for making bubbles of hydrogen mixed between the hydrogen mixing part of the circulation channel and the pressurizer, hydrogen can be dissolved well in tap water. This also allows a larger amount of hydrogen to be mixed into the tap water.

The block diagram which shows the hydrogen water supply apparatus which concerns on this invention.

  Hereinafter, a specific configuration of the hydrogen water supply apparatus according to the present invention will be described with reference to the drawings.

  As shown in FIG. 1, a hydrogen water supply device 1 is connected to a tap water supply source 2 for supplying tap water via a filter 4 and is connected to an end of the tap water supply pipe 3. While connecting the flow meter 5 and branching into two, the first and second branch pipes 6 and 7 are connected, and the storage tank 8 is connected to the first branch pipe 6 via the float valve 9, while the first An electrolyzer 10 is connected to the two branch pipes 7 via an ion exchanger 11. Here, the ion exchanger 11 adsorbs and removes ions contained in tap water by the action of a built-in ion exchange membrane.

  Further, the hydrogen water supply device 1 has a circulation channel 12 connected to the bottom of the storage tank 8, and a hydrogen mixing portion 14 in which an electrolyzer 10 is connected via a check valve 13 in the middle of the circulation channel 12. In addition, a circulation pump 15, a fine bubble device 16, and a pressurizer 17 are provided in this order on the downstream side of the hydrogen mixing portion 14 of the circulation channel 12. Here, the fine bubbler 16 breaks hydrogen bubbles contained in tap water into finer size bubbles by the action of a built-in mesh-like porous plate, and the pressurizer 17 is a built-in venturi tube. This increases the internal pressure of tap water.

  Further, the hydrogen water supply apparatus 1 has a hydrogen water supply pipe 18 connected to the bottom of the storage tank 8 via a faucet 19.

  Further, the hydrogen water supply apparatus 1 has a controller 20 connected to a flow meter 5, an electrolyzer 10 and a circulation pump 15.

  The hydrogen water supply device 1 is configured as described above, and in the hydrogen water supply device 1, a part of tap water supplied from the tap water supply source 2 is stored from the first branch pipe 6. It flows to the tank 8 and is stored in the storage tank 8, while the remaining tap water flows from the second branch pipe 7 to the electrolyzer 10 and is electrolyzed by the electrolyzer 10.

  Further, in the hydrogen water supply apparatus 1, tap water stored in the storage tank 8 is circulated through the circulation flow path 12 by the circulation pump 15, and the tap water is electrolyzed by the electrolyzer 10 in the middle thereof. Only the produced hydrogen is mixed into the tap water circulating through the circulation flow path 12 from the hydrogen mixing section 14 and stored in the storage tank 8 as hydrogen water.

  In the hydrogen water supply apparatus 1, the hydrogen water stored in the storage tank 8 is supplied from the hydrogen water supply pipe 18. The hydrogen water may be supplied after heating or cooling.

  Further, in the hydrogen water supply apparatus 1, when hydrogen water is supplied from the hydrogen water supply pipe 18, the float valve 9 is opened accordingly, and tap water is newly supplied from the tap water supply pipe 3 to the storage tank 8. And the tap water is also supplied to the electrolyzer 10.

  The hydrogen water supply device 1 detects that tap water has been supplied to the storage tank 8 and the electrolyzer 10 with the flow meter 5 and drives the electrolyzer 10 and the circulation pump 15 for a predetermined time. Thereby, the tap water is electrolyzed by the electrolyzer 10, and only the generated hydrogen is mixed again into the tap water (hydrogen water) circulating through the circulation channel 12 from the hydrogen mixing section 14. Note that oxygen generated by the electrolyzer 10 is exhausted.

  As described above, the hydrogen water supply device 1 supplies hydrogen water containing hydrogen in tap water, branches the tap water supply pipe 3 for supplying tap water, and electrolyzes one of them. The storage tank 8 is connected to the storage tank 8, the circulation channel 12 is connected to the storage tank 8, and the hydrogen generated by the electrolyzer 10 is stored in the storage tank 8 in the middle of the circulation channel 12. It has a configuration in which a hydrogen mixing section 14 to be mixed into tap water is provided.

  Therefore, in the hydrogen water supply device 1 having the above-described configuration, the tap water is supplied to the electrolyzer 10 separately from the tap water supplied to the storage tank 8 and the supplied tap water is supplied to the electrolyzer. Hydrogen produced by electrolysis in 10 will be mixed into tap water, so that a large amount of hydrogen can be mixed efficiently into tap water, and hydrogen water that functions well as hydrogen water can be obtained. Can be supplied.

  Further, the hydrogen water supply apparatus 1 has a configuration in which an ion exchanger 11 for removing ions contained in tap water is provided on the upstream side of the electrolyzer 10.

  Therefore, in the hydrogen water supply device 1 having the above-described configuration, impurity ions such as calcium ions contained in tap water are removed and supplied to the electrolyzer 10, and impurities adhere to the electrode of the electrolyzer 10. Thus, the generation amount of hydrogen can be prevented from being reduced, and a large amount of hydrogen can be mixed into tap water for a long period of time.

  Further, the hydrogen water supply device 1 has a configuration in which a pressurizer 17 for pressurizing tap water is provided on the downstream side of the hydrogen mixing portion 14 of the circulation flow path 12.

  Therefore, in the hydrogen water supply apparatus 1 having the above-described configuration, the amount (solubility) of hydrogen that can be mixed into tap water can be increased by pressurizing tap water, and a larger amount of hydrogen can be mixed into tap water. Can be made.

  Furthermore, the hydrogen water supply device 1 has a configuration in which a fine bubbler 16 is provided between the hydrogen mixing part 14 and the pressurizer 17 of the circulation flow path 12 for finely mixing hydrogen bubbles. .

  Therefore, in the hydrogen water supply device 1 having the above-described configuration, hydrogen can be dissolved well in tap water by making hydrogen fine, and even this allows a larger amount of hydrogen to be mixed into tap water. it can.

1 Hydrogen Water Supply Device 2 Tap Water Supply Source 3 Tap Water Supply Pipe 4 Filter 5 Flow Meter 6,7 Branch Pipe 8 Storage Tank 9 Float Valve
10 Electrolyzer 11 Ion exchanger
12 Circulating flow path 13 Check valve
14 Hydrogen mixing section 15 Circulation pump
16 Foamer 17 Pressurizer
18 Hydrogen water supply pipe 19 Faucet
20 controller

Claims (2)

In a hydrogen water supply device for supplying hydrogen water containing hydrogen in tap water,
Branched tap water supply pipe for supplying tap water, with connecting one to the electrolyzer, and connect the other to the storage tank, connected to the circulation flow path to said storage tank, in the middle of the circulation flow path wherein provided between electrolyzer hydrogen aeration unit to mix the generated hydrogen in tap water accumulated in the reservoir tank and the circulation pump, the bubbles of hydrogen is mixed downstream of the hydrogen aeration unit and the circulation pump A fine bubbler is provided for making fine, a pressurizer for pressurizing tap water is provided downstream of the hydrogen mixing part, and the fine bubbler is provided between the hydrogen mixing part and the pressurizer . A hydrogen water supply device characterized by that. The apparatus for supplying hydrogen water according to claim 1, wherein an ion exchanger for removing ions contained in tap water is provided upstream of the electrolyzer.

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