JP3206858U - Hydrogen generation system combined with water discharge device - Google Patents

Abstract

A hydrogen generation system for coupling a water discharge device is provided. A hydrogen generation system (1) includes a hydrogen generation device (3), which is connected to a water discharge device (2), a case (31), a liquid storage space, at least two electrode sheets, and a waterproof space. And a control circuit. The case 31 has a water supply hole 311 and a drain hole 312. The liquid storage space is provided in the case 31 and communicates with the water supply hole 311 and the drain hole 312 of the case 31. At least two electrode sheets are installed in the liquid storage space. The waterproof space is provided in the case 31. The control circuit is installed in the waterproof space and is electrically connected to at least two electrode sheets. The water supply hole 311 of the case 31 of the hydrogen generator 3 is connected to the water outlet 21 of the water discharger 2. [Selection] Figure 1A

Description

  The present invention relates to a hydrogen generation system that couples a water discharger.

  Currently, there are water heaters, sprinklers, faucets, shower heads, and the like that are on the market, and can be used by the user by discharging water from the apparatus. At present, hydrogen machines are also commonly used as one of household equipment and are used for water electrolysis.

  However, although there are hydrogen machines having various functions in the market, there is not yet a hydrogen machine in which the water discharge function and the water electrolysis function described above are combined.

  Therefore, the present inventor considered that the above-described drawbacks can be improved, and as a result of intensive studies, the present inventor has arrived at a proposal of the present invention that effectively improves the above-described problems with a rational design.

  This invention is made | formed in view of such a conventional problem, and it aims at providing the hydrogen production | generation system which couple | bonds a water discharging apparatus.

  A hydrogen generation system that combines a water discharge device according to the present invention to solve the above-described problems and achieve the object includes a hydrogen generation device. The hydrogen generator is connected to the water discharger, and includes a case, a liquid storage space, at least two electrode sheets, a waterproof space, and a control circuit. The case has a water supply hole and a drain hole. The liquid storage space is provided in the case and communicates with the water supply hole and the drainage hole of the case. At least two electrode sheets are installed in the liquid storage space. The waterproof space is installed in the case. The control circuit is installed in the waterproof space and is electrically connected to at least two electrode sheets. The water supply hole of the case of the hydrogen generator is connected to the water outlet of the water discharger.

  As described above, in the hydrogen generation system that combines the blower according to the present invention, a water discharge device having a water discharge function and a hydrogen generation device having a water electrolysis function are combined and water is discharged from the water discharge device. In conjunction with this, when the hydrogen generator generates hydrogen and oxygen by electrolysis and the user uses various water discharge devices, the hydrogen and oxygen generated by the hydrogen generator can be absorbed simultaneously. Moreover, the hydrogen production | generation apparatus can be connected to various water discharging apparatuses so that it may respond to a user's demand.

It is an external appearance perspective view which shows the hydrogen production system which couple | bonds the water discharging apparatus which concerns on 1st Embodiment of this invention. It is an external appearance perspective view which shows the hydrogen production system which couple | bonds the water discharging apparatus which concerns on 1st Embodiment of this invention. It is an external appearance perspective view which shows the hydrogen generator of this invention. It is sectional drawing which shows the hydrogen generator of this invention. It is a top view which shows the electrode sheet of the hydrogen generator of this invention. It is the schematic which shows the hydrogen generator which concerns on other embodiment of this invention. It is the schematic which shows the hydrogen production | generation system which couple | bonds the water discharging apparatus which concerns on other embodiment of this invention. It is the schematic which shows the hydrogen generator which concerns on other embodiment of this invention. It is the schematic which shows the hydrogen generator which concerns on other embodiment of this invention. It is the schematic which shows the hydrogen generator which concerns on other embodiment of this invention.

  Preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiment described below does not limit the contents of the present invention described in the claims of the utility model registration. In addition, all the configurations described below are not necessarily essential requirements of the present invention.

(First embodiment)
FIG. 1A is an external perspective view showing a hydrogen generation system that combines a water discharge device according to a first embodiment of the present invention, and FIG. 1B shows a hydrogen generation system that combines a water discharge device according to a first embodiment of the present invention. It is an external perspective view. 1C is an external perspective view showing a hydrogen generator of the present invention, FIG. 1D is a cross-sectional view showing the hydrogen generator of the present invention, and FIG. 1E is a top view showing an electrode sheet of the hydrogen generator of the present invention. is there.
A hydrogen generation system 1 that couples a water discharge device includes a hydrogen generation device 3. The hydrogen generator 3 is connected to the water discharger 2 and includes a case 31, a liquid storage space 32, at least two electrode sheets 33, a waterproof space 34, and a control circuit 35. The case 31 has a water supply hole 311 and a drain hole 312. The liquid storage space 32 is provided in the case 31 and communicates with the water supply hole 311 and the drain hole 312 of the case 31. At least two electrode sheets 33 are installed in the liquid storage space 32.
The waterproof space 34 is provided in the case 31. The control circuit 35 is installed in the waterproof space 34 and is electrically connected to at least two electrode sheets 33 to provide electric power necessary for the hydrogen generator 3 to electrolyze water. The water supply hole 311 of the case 31 of the hydrogen generator 3 is connected to the water outlet 21 of the water discharger 2.

The hydrogen generator 3 of the present invention is coupled to various water dischargers 2. The water discharger 2 includes a water heater, a sprinkler, a fountain, a faucet, a shower head, and the like. As shown in FIG. 1A, the hydrogen generator 3 is coupled to a faucet. As shown in FIG. 1B, the hydrogen generator 3 is coupled to a showerhead.
When the hydrogen generator 3 is coupled to a different water discharge device 2, the water supply hole 311 and the drain hole 312 of the hydrogen generation device 3 are installed at positions corresponding to the water discharge port 21 of the water discharge device 2. When the faucet spout 21 is located above, the water feed hole 311 of the hydrogen generator 3 is connected to the spout 21 by being installed at a corresponding position above. When the water outlet 21 of the shower head is positioned below, the water supply hole 311 of the hydrogen generator 3 is connected to the water outlet 21 by being installed at a corresponding position below.

  As described above, the hydrogen generation device 3 includes at least one coupling unit connected to the water discharge device 2. When the hydrogen generator 3 is coupled to the faucet, the coupling portion is coupled to the faucet spout 21. Alternatively, as shown in FIG. 1D, the hydrogen generator 3 includes a first coupling portion 313 and a second coupling portion 314, and is connected to two ends of the water pipe of the shower head. That is, the first coupling part 313 is connected to the water pipe close to the shower head side, and the second coupling part 314 is connected to the water pipe close to the water discharge port 21 side of the shower head.

  The at least two electrode sheets 33 have a tube shape and are respectively installed in the liquid storage space 32, and an inner chamber 321 and an external chamber 322 are formed in the liquid storage space 32. The hydrogen generator 3 further includes a thin film 36 disposed between at least two electrode sheets 33. Since the thin film 36 has a high conductivity, the strength of the electric field between the electrode sheets 36 is enhanced, the conductivity is further increased, and the electrolytic efficiency is improved.

FIG. 1F is a schematic diagram illustrating a hydrogen generator according to another embodiment of the present invention, and FIG. 1G is a schematic diagram illustrating a hydrogen generation system that couples a water discharger according to another embodiment of the present invention. .
The hydrogen generator 3 further includes a first series connecting pipe 371 and a second connecting pipe 372. The first series connecting pipe 371 is connected to the first electrode sheet 33 that forms the inner chamber 321. The second connecting pipe 372 is connected to the second electrode sheet 33 that forms the outer chamber 322. Furthermore, since the first electrode sheet 33 and the second electrode sheet 33 have corresponding anodic and cathodic properties, when the first electrode sheet 33 is anodic, the inner chamber 321 has acidity of oxygen and acidic water quality. Liquid is generated. When the second electrode sheet 33 is cathodic, hydrogen and alkaline water of alkaline water quality are generated in the external chamber 322.
Further, as shown in FIG. 1F, in order to control the discharge amount of acidic liquid and alkaline water, a first drain control plug 381 is installed in the first series connecting pipe 371, and a second drain control is provided in the second connecting pipe 372. A plug 382 is installed.

2A to 2C are schematic views illustrating a hydrogen generator according to another embodiment of the present invention. In this embodiment, the case of the hydrogen generator is joined in a combined manner, making it easier for the user to replace and maintain.
Furthermore, the case 31 of the hydrogen generator 3 includes a first main body 31A, a second main body 31B, and a third main body 31C. The liquid storage space 32 is provided in the second main body 31B. The waterproof space 32 is provided in the third main body 31C. The first main body 31 </ b> A has an internal space 31 </ b> A <b> 1 that communicates with at least one drain hole 312 and the liquid storage space 32. The second main body 31B is connected to the first main body 31A. The third main body 31C is connected to the second main body 31B and at least one water supply hole 311. After at least one drug, medicine and / or fragrance (shown in dotted form) is installed in the internal space 31A1 of the first main body 31A and the water flow flows into the liquid storage space 32 from the water supply hole 311, When flowing through the space 31 </ b> A <b> 1, an effect of absorbing drugs, medicines and / or fragrances is exhibited. Further, the first main body 31A, the second main body 31B, and the third main body 31C are joined by a screw thread method (not shown).

FIG. 2B is a schematic view showing a hydrogen generator according to another embodiment of the present invention. The difference from the above-described embodiment is that the second main body 31B further includes a spacer 391, a first tube 392, and a second tube 393. By installing the spacer 391 in the liquid storage space 32, an upper chamber 323 and a lower chamber 324 are formed in the liquid storage space 32, and the spacer 391 has a hole 395 communicating with the upper chamber 323 and the lower chamber 324.
The water absorption end of the first pipe 392 is connected to the water supply hole 311, and when the spacer 391 is penetrated by the drainage end, the drainage end is installed in the upper chamber 323. When the water absorption end of the second pipe 393 is connected to the water supply hole 311 and the spacer 391 is penetrated by the drainage end, the drainage end is installed in the upper chamber 323. Further, the drain end of the first pipe 392 and the drain end of the second pipe 393 are installed so as to correspond to each other on the spacer 391, and the water flow flows on the spacer 391. The spacer 391 includes a shape that is recessed downward.

FIG. 2C is a perspective view of the second body and the third body. The bottom of the second body 31B includes a first combination part and at least one conductive connection member L1, and the third body 31C includes a second combination part and a conductive element L2. When the first combination part is coupled to the second combination part, the conductive connection member L1 is electrically connected to the conductive element L2. In an embodiment, the first combination part and the second combination part include threads.
The electrode sheet 33 is electrically connected to the conductive connection member L1, and the power supply unit in the control circuit 35 is electrically connected to the conductive element L2. Thereby, the control circuit 35 supplies electric power to the electrode sheet 33. A washer R is installed between the bottom of the second main body 31B and the third main body 31C.

In addition, the hydrogen generation system that couples the water discharge device includes a design of a rated current circuit, and the output voltage and output current of the hydrogen generation device 3 are limited to predetermined fixed values. Furthermore, when water is put in the liquid storage space 32 of the hydrogen generator 3, the rated current circuit is maintained at a fixed voltage and current, and water is electrolyzed.
When water is not put in the liquid storage space 32 of the hydrogen generator 3, the rated current circuit detects that the load necessary for electrolysis of water has changed, and the electrical connection of the power supply unit is switched on and off. Thus, the effect of protecting the hydrogen generator 3 from overload is achieved. The detailed operation and principle of the rated current circuit of the hydrogen generator 3 can be referred to the “rated current circuit of the hydrogen machine” described in the Taiwan Utility Model Application No. 105206777 of the present applicant. .

  In conclusion, the hydrogen generation system that combines the water discharge device according to the present invention is coupled with a water discharge device having a water discharge function and a hydrogen generation device having a water electrolysis function, and at the same time water is discharged from the water discharge device. Thus, when the hydrogen generator generates hydrogen and oxygen by electrolysis, and the user uses various water discharge devices, the hydrogen and oxygen generated by the hydrogen generator can be absorbed simultaneously. Moreover, the hydrogen production | generation apparatus can be connected to various water discharging apparatuses so that it may respond to a user's demand.

  As mentioned above, although embodiment of this invention was explained in full detail with reference to drawings, the concrete structure is not restricted to this embodiment, The design change etc. of the range which does not deviate from the summary of this invention are included.

DESCRIPTION OF SYMBOLS 1 Hydrogen generating system which couple | bonds a water discharging apparatus 2 Water discharging apparatus 21 Water discharging port 3 Hydrogen generating apparatus 31 Case 311 Water supply hole 312 Drainage hole 313 1st coupling | bond part 314 2nd coupling | bond part 31A 1st main body 31A1 Internal space 31B 2nd main body 31C 1st Three main bodies 32 Liquid storage space 321 Inner chamber 322 External chamber 323 Upper chamber 324 Lower chamber 33 Electrode sheet 34 Waterproof space 35 Control circuit 36 Thin film 371 First connecting pipe 372 Second connecting pipe 381 First drain control plug 382 Second drain control Plug 391 Spacer 392 First pipe 393 Second pipe 395 Hole L1 Conductive connection member L2 Conductive element R Washer

Claims (11)

A hydrogen generator connected to the water discharger,
The hydrogen generator is
A case having at least one water supply hole and at least one drainage hole;
A liquid storage space provided in the case and communicated with the at least one water supply hole and the at least one drainage hole of the case;
At least two electrode sheets installed in the liquid container space;
A waterproof space provided in the case;
A control circuit installed in the waterproof space and electrically connected to the at least two electrode sheets;
The at least one water supply hole of the case is connected to at least one water discharge port of the water discharge device,
A hydrogen generation system combined with a water discharger.   2. The hydrogen generation system for coupling a water discharger according to claim 1, wherein the water discharger includes any one of a water heater, a sprinkler, a faucet, and a shower head.   The case includes a first body having an internal space communicating with the at least one drain hole and the liquid storage space, a second body coupled to the first body, the second body, and the at least one A third body connected to the water supply hole, at least one drug, medicine and / or fragrance is installed in the internal space of the first body, and the liquid storage space is installed in the second body, The hydrogen generation system for coupling a water discharger according to claim 1, wherein the waterproof space is provided in the third main body.   2. The water discharge according to claim 1, wherein the at least two electrode sheets have a tube shape and are respectively installed in the liquid storage space, and an inner chamber and an external chamber are formed in the liquid storage space. A hydrogen generation system that combines equipment.   The said hydrogen production | generation apparatus is equipped with the at least 1 coupling | bond part connected with the said water discharging apparatus, The hydrogen generation system which couple | bonds the water discharging apparatus of Claim 2 characterized by the above-mentioned.   The hydrogen generator includes a first coupling portion connected to a first water pipe close to the shower head side and a second coupling portion connected to a second water pipe close to a water discharge port side of the shower head. The hydrogen production system which couple | bonds the water discharging apparatus of Claim 2 characterized by the above-mentioned.   The second body is installed in the liquid container space, so that an upper chamber and a lower chamber are formed in the liquid container space, and a spacer having a hole communicating with the upper chamber and the lower chamber; An end and a drainage end, the water absorption end is connected to the at least one water supply hole, and when the spacer is penetrated by the drainage end, the drainage end is installed in the upper chamber; A water absorption end and a drainage end, wherein the water absorption end is connected to the at least one water supply hole, and when the spacer is penetrated by the drainage end, the drainage end is installed in the upper chamber; The water discharge according to claim 3, further comprising: the drainage end of the first pipe and the drainage end of the second pipe corresponding to the spacer. Hydrogen production system to bind the location.   The hydrogen generation system for coupling a water discharging device according to claim 7, wherein the spacer has a shape recessed downward.   The hydrogen generation system for coupling a water discharging device according to claim 4, further comprising a thin film disposed between the at least two electrode sheets.   The hydrogen generation apparatus further includes a first series connection pipe connected to the first electrode sheet forming the inner chamber and a second connection pipe connected to the second electrode sheet forming the outer chamber. A hydrogen generation system for connecting a water discharge device according to claim 4, wherein the system is a hydrogen generation system.   The hydrogen generation apparatus further includes a first drainage control plug installed in the first series connection pipe and a second drainage control plug installed in the second connection pipe. A hydrogen generation system that combines the water discharge device described.

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