CN212050907U

CN212050907U - Hydrogen-rich water and oxygen-rich water bathing system

Info

Publication number: CN212050907U
Application number: CN202020275448.5U
Authority: CN
Inventors: 李红传; 黄尚杰; 谢曙; 张建国
Original assignee: Zhuzhou Baojiekang Hydrogen Technology Co ltd; Dongguan Baojiekang Hydrogen Technology Co ltd
Current assignee: Zhuzhou Baojiekang Hydrogen Technology Co ltd; Dongguan Baojiekang Hydrogen Technology Co ltd
Priority date: 2020-03-07
Filing date: 2020-03-07
Publication date: 2020-12-01
Anticipated expiration: 2030-03-07

Abstract

The utility model provides a hydrogen-rich water and oxygen-rich water bathing system, which comprises a filtering device and an electrolysis device, wherein the water outlet of the filtering device is connected with an electrolysis water pipe, the electrolysis device is provided with an electrolysis water inlet, a hydrogen-rich water inlet and an oxygen-rich water outlet, the other end of the electrolysis water pipe is communicated with the electrolysis water inlet, the hydrogen-rich water outlet is connected with a bathing water pipe, and the oxygen-rich water outlet is communicated to the bathing water pipe or the electrolysis water pipe; the hydrogen-rich water and oxygen-rich water bathing system further comprises an ozone generating device, wherein the ozone generating device is connected to the bathing water pipe, and a one-way valve is further arranged on the bathing water pipe between the electrolysis device and the ozone generating device; the hydrogen-rich water and oxygen-rich water bathing system is used for bathing of people, is beneficial to human health, and also has a beautifying effect.

Description

Hydrogen-rich water and oxygen-rich water bathing system

Technical Field

The utility model relates to a beauty equipment field, in particular to hydrogen-rich water and oxygen-rich water bathing system.

Background

Numerous studies have demonstrated that aging in the human body is a typical oxidative process, i.e., oxidation equates to aging. The scholars of the university of Hiroshima, Japan, published a paper in Journal of Photochemistry and Photobiology 2012 and introduced the research results of the scholars, human anti-wrinkle effect tests. Research suggests that hydrogen washing can be used as an anti-wrinkle means by scavenging active oxygen. The hydrogen and the active oxygen free radicals are combined to generate water to promote cell metabolism, the effect of water supplement in the cells is difficult to achieve by other similar products, and 100% of the water supplement agent has no toxic or side effect. The hydrogen has strong permeability and can enter the skin of a human body to be absorbed by the human body, so that the hydrogen-rich water bath can play the roles of resisting oxidation, resisting aging, beautifying and tendering the skin. In addition, the hydrogen has better medical efficacy, and the hydrogen which is not absorbed by the skin and enters the air and the oxygen generated by the electrolytic cell can also enter the human body by the respiration of people, so that the hydrogen has good medical efficacy.

Although the benefits of bathing with hydrogen rich water are known to the human body, no devices are available on the market that can use hydrogen rich water in the bathing area.

SUMMERY OF THE UTILITY MODEL

Based on this, there is a need for a hydrogen-rich water and oxygen-rich water bathing system that can provide hydrogen-rich water for bathing.

The utility model provides a hydrogen-rich water and oxygen-rich water bathing system, including supplementary filter equipment, electrolytic device is last to be provided with electrolysis water import, hydrogen-rich water export and oxygen-rich water export, the hydrogen-rich water exit linkage has the shower water pipe, supplementary filter equipment's water inlet with the oxygen-rich water export is linked together, supplementary filter equipment's delivery port communicate in electrolysis water import or shower water pipe.

Preferably, this hydrogen-rich water and oxygen-rich water bathing system still includes ozone generating device, ozone generating device connect in on the shower water pipe, electrolysis unit with still be provided with the check valve on the shower water pipe between the ozone generating device.

Preferably, the filtering device comprises a first-stage filtering device, a second-stage filtering device and a third-stage filtering device, the first-stage filtering device, the second-stage filtering device and the third-stage filtering device are sequentially communicated, a municipal water system is connected to a water inlet of the first-stage filtering device or a water pump is connected to the water inlet of the first-stage filtering device, and the third-stage filtering device is communicated with the electrolytic water pipe.

Preferably, this hydrogen-rich water and oxygen-rich water bathing system still includes filter equipment and electrolysis water pipe, filter equipment's delivery port is connected with the electrolysis water pipe, the other end of electrolysis water pipe with the electrolysis water import is linked together.

Preferably, the hydrogen-rich water and oxygen-rich water bathing system further comprises a heating device, the heating device is connected to the electrolysis water pipe or the bathing water pipe, and the oxygen-rich water outlet is communicated with the upstream or the downstream of the heating device.

Preferably, the heating device is an electric water heater, a gas water heater or an instant heating module.

Preferably, the water outlet end of the bathing water pipe is connected with a water spraying shower head.

Preferably, the electrolysis device comprises an electrolytic cell and an end plate, wherein the electrolytic cell consists of a structural member, an anode plate, an intermediate semipermeable membrane, a cathode plate and the structural member in sequence.

Preferably, the electrolytic device comprises an electrolytic cell and an end plate, wherein the electrolytic cell comprises a proton exchange layer, diffusion layers, bipolar plates and electrodes are arranged on two sides of the proton exchange layer, and the diffusion layers, the bipolar plates and the electrodes are sequentially arranged from inside to outside.

Preferably, the bipolar plate, the diffusion layer and the anode of the proton exchange membrane are provided with hydrophilic layers, and the bipolar plate, the diffusion layer and the cathode of the proton exchange membrane are provided with hydrophobic layers; a sealing ring is arranged between the electrode and the bipolar plate

The utility model is provided with the filtering device, hydrogen and water electrolyzed by the electrolysis device directly flow out of the bath water pipe, hydrogen-rich water can be produced for bathing, the good beautifying and skin-protecting effects are achieved, and during bathing, not only a basin bath can be used, but also a shower can be used, so that the use is more convenient; in addition, the oxygen-enriched water is filtered by the auxiliary filtering device, so that chlorine atoms, hypochlorite ions and the like in the oxygen-enriched water can be filtered to have stronger oxidability, and the damage to the health of people is avoided.

Drawings

The foregoing and other objects, features and advantages of the invention will be apparent from the following more particular description of preferred embodiments of the invention, as illustrated in the accompanying drawings. Like reference numerals refer to like parts throughout the drawings, and the drawings are not intended to be drawn to scale in actual dimensions, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a schematic structural view of a hydrogen-rich water and oxygen-rich water bathing system according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of a hydrogen-rich water and oxygen-rich water bathing system according to another preferred embodiment of the present invention;

FIG. 3 is a schematic structural view of a hydrogen-rich water and oxygen-rich water bathing system according to another preferred embodiment of the present invention;

FIG. 4 is a schematic view of the internal structure of the electrolyzer of the present invention;

FIG. 5 is a view showing an overall structure of the electrolyzer of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element and be integral therewith, or intervening elements may also be present. The terms "mounted," "one end," "the other end," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-5, the utility model provides a hydrogen-rich water and oxygen-rich water bathing system, including filter equipment 2 and electrolytic device 1, filter equipment 2's delivery port is connected with electrolysis water pipe 8. The electrolytic device 1 is provided with an electrolytic water inlet 11, a hydrogen-rich water outlet 12 and an oxygen-rich water outlet 13, the other end of the electrolytic water pipe 8 is communicated with the electrolytic water inlet 11, the hydrogen-rich water outlet 13 is connected with a shower water pipe 9, and the oxygen-rich water outlet 12 is communicated to the shower water pipe 9 or the electrolytic water pipe 8. The water filtered by the filtering device 2 flows to the electrolysis device 1, and hydrogen and water electrolyzed by the electrolysis device 1 directly flow out of the bath water pipe 9, so that hydrogen-rich water can be produced for bath, and a good beautifying effect is achieved. The utility model discloses in, after electrolytic hydrogen and oxygen of 1 electrolysis of electrolytic device, hydrogen and oxygen and water direct mixing mix more evenly, can directly be used for bathing, because the water that comes out from the shower water pipe is exactly rich hydrogen oxygen-rich water, the user can the optional use shower or bath, and it is more convenient to use. Among the prior art, add the bathtub with hydrogen and form hydrogen-rich water and take a shower, but it is only limited to this kind of bathing mode, and the user can't use the shower, and in the actual life, more when people use the shower, consequently, let in the mode of bathtub with hydrogen, the practicality is not good, the utility model discloses a hydrogen-rich water and oxygen-rich water bathing system simple structure, convenient and practical. Active oxygen can be eliminated through using the hydrogen-rich water bath, and as anti-wrinkle means, can play cosmetic anti-wrinkle effect through the hydrogen-rich water bath, when using the hydrogen-rich water bath, hydrogen combines with active oxygen free radical back to produce water, promotes cell metabolism, and the efficiency of its intracellular moisturizing is that other similar products are difficult to reach, and 100% innoxic side effect.

Referring to fig. 1-3, in a preferred embodiment, the hydrogen-and oxygen-enriched water bathing system further comprises an ozone generating device 3, said ozone generating device 3 being connected to said bathing water pipe 9, the generated ozone being directed into the bathing water. According to research, ozone has the following functions: 1) and (3) killing viruses: directly destroy RNA and DNA of the virus to kill the virus; 2) killing bacterial microorganisms: firstly, the cell membrane is acted, and then substances in the membrane are destroyed until the substances are killed; 3) degrading toxic and harmful substances: o3 can be quickly oxidized and degraded to CO, sulfide, benzene, virus in water and other harmful substances in air. Because the ozone has the function of disinfection and sterilization, bacteria and viruses on the skin on the surface of the human body can be killed by the ozone, and people can firstly use ozone water with safe concentration for 1-3 minutes to shower to play the role of disinfection and sterilization when taking a bath. In addition, the ozone can be quickly decomposed into oxygen in the air, the oxygen cannot stay for a long time, the oxygen content in the air is increased, and the ozone is beneficial and harmless to the human body. When the ozone disinfection device is used, the ozone generation device 3 is started after the water faucet is opened, ozone is generated and enters a pipeline of a shower to generate ozone water with safe concentration for disinfecting and sterilizing the skin surface of a human body, and the ozone generation device 3 is automatically closed after 1-3 minutes. At the moment, the hydrogen production system is started to generate hydrogen and oxygen, and the hydrogen and oxygen generated by the electrolysis device 1 generate high-concentration hydrogen-rich and oxygen-rich water for showering. A one-way valve 7 is also arranged on the bath water pipe 9 between the electrolysis device 1 and the ozone generating device 3 to prevent the hydrogen-rich water containing ozone from flowing back.

In a preferred embodiment, the filtering device 2 comprises a primary filtering device 21, a secondary filtering device 22 and a tertiary filtering device 23, the primary filtering device 21, the secondary filtering device 22 and the tertiary filtering device 23 are sequentially communicated, a municipal water system or a water pump is connected to a water inlet of the primary filtering device 21, and the tertiary filtering device 23 is communicated with the electrolysis water pipe 8. The filtering device 2 filters salt ions in the tap water, and the tap water is close to pure water after being filtered, so that the occurrence of scale in the electrolysis device 1 is avoided, and the service life of the electrolysis device 1 is prolonged. The first-stage filtering device 21 comprises a PP cotton filtering unit, an active carbon filtering unit and an ultrafiltration membrane filtering unit. The PP cotton filtering unit can effectively remove various particle impurities in the filtered liquid, and the activated carbon filtering unit can adsorb fine substances in various liquids due to the porosity of the activated carbon filtering unit during filtering, remove organic matters and heavy metals, and remove pollutants such as synthetic detergents, bacteria, viruses, radioactivity and the like, and has comprehensive functions of absorbing odor, removing toxicity, deodorizing, preventing mildew, sterilizing, purifying and the like. The ultrafiltration membrane only allows water and small molecular substances to pass through due to a plurality of fine micropores densely distributed on the surface of the ultrafiltration membrane to form permeate liquid, and substances with the volume larger than the micropore diameter on the surface of the ultrafiltration membrane in stock solution are intercepted on the liquid inlet side of the ultrafiltration membrane to form concentrated liquid, so that the aims of purifying, separating and concentrating liquid are fulfilled. The secondary filtering device 22 is an RO reverse osmosis membrane filtering device, and the reverse osmosis membrane can remove impurities such as inorganic ions, bacteria, viruses, organic matters, colloids and the like in the liquid to obtain high-quality purified water. The two-stage filtration can ensure good filtration effect, and certainly, one-stage or multi-stage filtration can be added, for example, a one-stage activated carbon filtration device can be added after the reverse osmosis filtration device. The second filtering device 22 is a reverse osmosis filtering device, and the first filtering device 21 may adopt other filtering methods except reverse osmosis, so that water containing minerals, i.e., mineral water, is obtained after passing through the first filtering device 21. The reverse osmosis can filter mineral ions in water, so that purified water can be obtained after passing through the reverse osmosis filtering device. The shower water pipe 9 is communicated with the downstream of the third-stage filtering device 23, and can be directly connected with a tap water pipe.

In a preferred embodiment, the hydrogen-rich water and oxygen-rich water bathing system further comprises an auxiliary filtering device 5, wherein the water inlet of the auxiliary filtering device 5 is communicated with the oxygen-rich water outlet 12, and the water outlet of the auxiliary filtering device 5 is communicated with the electrolyzed water pipe 8 or the bathing water pipe 9. Under the action of direct current, the anions and cations in water move towards the positive electrode and the negative electrode of the electrode respectively, and the cations are enriched around the negative electrode of the electrode to obtain charges which are changed into neutral atoms and molecules, for example, hydrogen ions are changed into hydrogen; the positive electrode of the electrode is enriched with anions, which lose charge and become neutral and also become neutral nuclear molecules, such as Cl-to Cl. Chlorine atoms or hypochlorite ions generated by the anode of the electrode have stronger oxidizability and certain damage to a human body, and are removed by arranging an auxiliary filtering device 5.

In a preferred embodiment, the hydrogen-and oxygen-enriched water bathing system further comprises a heating means connected to either the electrolysis water pipe 8 or the bathing water pipe 9, the oxygen-enriched water outlet being in communication with either upstream or downstream of the heating means (where downstream is the direction of water flow in use). The heating device is used for heating the bath water to enable the water to reach the proper water temperature for bathing. Further, the heating device is an electric water heater, a gas water heater or an instant heating module.

In the preferred embodiment, the water outlet end of the bath water pipe 9 is connected with a water spraying shower head 6, and of course, water can also be put into the bath container; the hydrogen-rich water and oxygen-rich water bathing system can be used for showering and bathing, and provides more choices for users.

In a preferred embodiment, the electrolytic device comprises an electrolytic cell and an end plate, wherein the electrolytic cell is sequentially composed of a structural member, an anode plate, a middle semipermeable membrane, a cathode plate and the structural member, namely the electrolytic cell adopts a traditional electrolytic cell structure, the electrolytic device can directly electrolyze common water to generate hydrogen and oxygen, pure water or deionized water or secondary distilled water is not needed to be used as a water source, and tap water in a home can be directly used as an electrolytic water source, so that the electrolytic device is simple in structure, lower in manufacturing cost and easy to satisfy the requirement of household use.

In another preferred embodiment, the electrolysis device comprises a proton exchange layer 106 and an end plate 101, wherein the proton exchange layer 106 is provided with a diffusion layer 105, a bipolar plate 103 and an electrode 102 on both sides, and the diffusion layer 105, the bipolar plate 103 and the electrode 102 are arranged in sequence from inside to outside. The electrolysis device needs pure water or deionized water or secondary distilled water as a water source, has a more complex structure, but has high electrolysis efficiency, and can prepare hydrogen-rich and oxygen-rich water with higher concentration. The electrolysis device also comprises

gas flow channels

107 and 108, wherein first ends of the

gas flow channels

107 and 108 are positioned between the two end plates 101, second ends of the

gas flow channels

107 and 108 extend out of the end plates 101, and the

gas flow channels

107 and 108 positioned between the two end plates 101 are at least partially bent. The pressure of the gas pipe can be increased, the user can obviously feel the gas, and the temperature of the electrolysis device can be favorably reduced. The gas exiting the

gas channels

107, 108 mixes with water to form hydrogen-rich water and oxygen-rich water. In one embodiment, the oxygen-enriched water is directly mixed with the hydrogen-enriched water after passing through the auxiliary filtering device. In another embodiment, the oxygen-enriched water passes through the auxiliary filtering device and then enters the electrolysis water pipe, and then enters the electrolysis device again.

In a preferred embodiment, the

gas flow channels

107, 108 between the two end plates 101 are coiled between the two end plates 101 in a zigzag or spiral shape. The bending of the gas pipeline is large, the time for the gas to come out of the gas pipeline is long, and the pressure in the gas pipeline can be increased.

In a preferred embodiment, the bipolar plate 103 is made of a carbon plate, a metal plate or a composite plate, and is more stable, less prone to fracture, and capable of withstanding a certain pressure. The electrode 102 is made of stainless steel, aluminum alloy, copper or silver, and can perform proton exchange, realize an electrolysis process, and improve the conductive efficiency.

In a preferred embodiment, the bipolar plate 103 near the anode end, the diffusion layer 105 and the anode of the proton exchange membrane are provided with hydrophilic layers, and the bipolar plate 103, the diffusion layer 105 and the cathode of the proton exchange membrane are provided with hydrophobic layers.

In a preferred embodiment, a sealing ring 104 is further disposed between the electrode 102 and the bipolar plate 103, so that the sealing effect is good.

If the bipolar plate 103 is a metal plate, a hydrophilic layer is added close to the anode end, so that the bipolar plate has a hydrophilic or super-hydrophilic function, plays a role in absorbing water and reduces the outflow of water; the water-repellent layer is arranged close to the cathode end, the water-repellent layer has the effect of water repellency or super-hydrophobicity, on one hand, the water outflow acceleration can be realized, on the other hand, the corrosion prevention effect can be realized, on the third hand, the water is attached to the cathode end, the resistance can be increased, the conduction and the heat transfer are not facilitated, and the efficiency and the service life can be influenced.

The diffusion layer 105 is provided with a hydrophilic layer close to the anode end, has a hydrophilic or super-hydrophilic effect and plays a role in water absorption; the water-repellent layer is arranged close to the cathode end, the water-repellent layer has the effect of water repellency or super-hydrophobicity, on one hand, the water outflow acceleration can be realized, on the other hand, the corrosion prevention effect can be realized, on the third hand, the water is attached to the cathode end, the resistance can be increased, the conduction and the heat transfer are not facilitated, and the efficiency and the service life can be influenced.

The proton exchange membrane is provided with a hydrophilic layer close to the anode end, has the hydrophilic or super-hydrophilic function and plays a role in water absorption; the water-repellent layer is arranged close to the cathode end, the water-repellent layer has the effect of water repellency or super-hydrophobicity, on one hand, the water outflow acceleration can be realized, on the other hand, the corrosion prevention effect can be realized, on the third hand, the water is attached to the cathode end, the resistance can be increased, the conduction and the heat transfer are not facilitated, and the efficiency and the service life can be influenced.

In a preferred embodiment, a sealing ring 104 is further disposed between the bipolar plate 103 and the gas diffusion layer 105.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express the specific embodiments of the utility model, and the description thereof is more specific and detailed, but not so as to limit the scope of the patent of the utility model. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. The utility model provides a hydrogen-rich water and oxygen-rich water bathing system, its characterized in that, including supplementary filter equipment, electrolytic device is last to be provided with electrolysis water inlet, hydrogen-rich water export and oxygen-rich water export, the hydrogen-rich water exit linkage has the shower water pipe, supplementary filter equipment's water inlet with oxygen-rich water export is linked together, supplementary filter equipment's delivery port communicate in electrolysis water inlet or shower water pipe.

2. The hydrogen-and oxygen-enriched water bathing system of claim 1 further comprising an ozone generator connected to the bathing water line, wherein a one-way valve is provided in the bathing water line between the electrolyzer and the ozone generator.

3. The hydrogen-and oxygen-enriched water bathing system of claim 1 wherein said filtering means comprises a primary filtering means, a secondary filtering means and a tertiary filtering means, said primary, secondary and tertiary filtering means being in communication with one another, said primary filtering means having an inlet for municipal water or a water pump, said tertiary filtering means being in communication with said electrolyzed water inlet.

4. The hydrogen-and oxygen-rich water bathing system of claim 1 further comprising a filter device and an electrolyzed water pipe, wherein the water outlet of the filter device is connected to the electrolyzed water pipe, and the other end of the electrolyzed water pipe is connected to the electrolyzed water inlet.

5. The hydrogen-and oxygen-rich water bathing system of claim 4 further comprising a heating device connected to either the electrolysis water conduit or the bathing water conduit, wherein the oxygen-rich water outlet is in communication with either upstream or downstream of the heating device.

6. The hydrogen-and oxygen-enriched water bathing system of claim 5 wherein said heating means is an electric water heater, a gas water heater, or an instant heating module.

7. The hydrogen-and oxygen-enriched water bathing system of claim 1 wherein a water spray shower is connected to the outlet end of the bathing water tube.

8. The hydrogen-and oxygen-enriched water bathing system of claim 1 wherein the electrolysis device comprises an electrolytic cell and an end plate, the electrolytic cell being comprised of a structural member, an anode plate, an intermediate semi-permeable membrane, a cathode plate, and a structural member in that order.

9. The hydrogen-and oxygen-enriched water bathing system of claim 1 wherein the electrolysis device comprises an electrolytic cell and end plates, the electrolytic cell comprising a proton exchange layer, the proton exchange layer having a diffusion layer, bipolar plates and electrodes disposed on both sides, the diffusion layer, bipolar plates and electrodes being disposed in sequence from the inside out.

10. The hydrogen-and oxygen-enriched water bathing system of claim 9 wherein the anodes of the bipolar plates, diffusion layer, and proton exchange layer are provided with a hydrophilic layer and the cathodes are provided with a hydrophobic layer; and a sealing ring is arranged between the electrode and the bipolar plate.