CN216191648U - Hydrogen-rich water preparation system that contains waste water ratio - Google Patents
Hydrogen-rich water preparation system that contains waste water ratio Download PDFInfo
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- CN216191648U CN216191648U CN202122687942.XU CN202122687942U CN216191648U CN 216191648 U CN216191648 U CN 216191648U CN 202122687942 U CN202122687942 U CN 202122687942U CN 216191648 U CN216191648 U CN 216191648U
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Abstract
The utility model relates to a hydrogen-rich water preparation system containing a wastewater ratio, which belongs to the field of hydrogen-rich water preparation and comprises a raw water tank, a filtering device, a water distribution tank body, a peristaltic pump, a wastewater ratio, a hydrogen production module, a water outlet pipe and a gas guide pipe; the water diversion box body is provided with a drinking water box and a pure water box, the drinking water box is provided with a drinking water inlet and a drinking water outlet, and the pure water box is provided with a pure water outlet; the raw water tank is connected with the filtering device through a first water pipe, the filtering device is connected with the drinking water inlet through a second water pipe, the drinking water outlet is connected with the peristaltic pump through a third water pipe, the peristaltic pump is connected with the water inlet of the wastewater ratio through a fourth water pipe, and the water outlet pipe is connected with the water outlet of the wastewater ratio; the pure water outlet is connected with the water inlet of the hydrogen production module through the fifth water pipe, and the gas outlet of the hydrogen production module is communicated with the third water pipe or the water inlet of the peristaltic pump through the gas guide pipe, so that the problems that hydrogen and water of the hydrogen-rich water prepared in the prior art are unstable and uneven in mixing are solved.
Description
Technical Field
The utility model relates to the field of hydrogen-rich water preparation, in particular to a hydrogen-rich water preparation system with a wastewater ratio.
Background
The hydrogen-rich water is 'aqua water', and the hydrogen contains super-strong antioxidant, and can delay skin aging, dispel color spots, expel toxin and beautify the face. Breathing oxygen, smoking, drinking, environmental pollution and the like can generate a large amount of peroxy radicals in human bodies, most of active oxygen such as hydrogen peroxide can be catalyzed by catalase and the like to be changed into water and oxygen, but some strongest active oxygen radicals such as hydroxyl free radicals can not be inactivated by an organism self anti-oxidation system and can seriously damage biological macromolecules, and strong toxic active oxygen hydroxyl free radicals can be continuously generated and can damage cells, cause cell damage and apoptosis and cause diseases and organism aging. The hydrogen molecules can selectively remove harmful free radicals, neutralize redundant active oxygen free radicals in vivo to combine into water, and are discharged out of the body along with urine to help cell metabolism. The hydrogen has the other great characteristic of biological safety, the high-concentration hydrogen has more than 50 years of history when being applied to human diving, and no obvious toxic effect of breathing high-pressure hydrogen is found. Therefore, the medical effect of hydrogen is that the hydrogen has the advantages of selective antioxidation, selective elimination of toxic free radicals and no destruction to benign free radicals required by human bodies through 'antioxidation', 'anti-aging', 'selective elimination of harmful free radicals' and 'anti-inflammation', compared with antioxidants such as vitamin E, vitamin C, carotene, tea polyphenol and the like, so that the hydrogen has definite effects in animal tests and clinical researches on patients by global hydrogen molecule medicine release papers in recent 10 years, including more than 100 chronic diseases such as diabetes, cardiovascular and cerebrovascular diseases, hepatitis, chronic kidney diseases and the like and sub-health, and equipment for preparing hydrogen-rich aqueous solution is also gradually and widely produced and applied.
Like the utility model patent of the authorization publication number of "CN 208700801U" that 2019 discloses 4 months 5 days, this utility model patent discloses "a hydrogen-rich reverse osmosis water dispenser", and this prior art utilizes the hydrogen-rich electrolysis ware to prepare hydrogen-rich water back direct discharge, and the hydrogen and the water mixture of the hydrogen-rich water of preparing are unstable, and are not even, and then are difficult to better embody the effect that hydrogen-rich water is anti-oxidant, anti-aging etc..
SUMMERY OF THE UTILITY MODEL
Aiming at the defects in the prior art, the utility model aims to provide a system for preparing hydrogen-rich water with a wastewater ratio, which solves the problems that the hydrogen and water of the hydrogen-rich water prepared in the prior art are unstable and uneven in mixing, and further better embodies the effects of oxidation resistance, aging resistance and the like of the hydrogen-rich water.
The technical purpose of the utility model is realized by the following technical scheme:
a hydrogen-rich water preparation system containing a wastewater ratio comprises a raw water tank, a filtering device, a water distribution tank body, a peristaltic pump, a wastewater ratio, a hydrogen production module, a first water pipe, a second water pipe, a third water pipe, a fourth water pipe, a fifth water pipe, a water outlet pipe and an air guide pipe; the water distribution box body is provided with a drinking water box and a pure water box, the drinking water box is provided with a drinking water inlet and a drinking water outlet, and the pure water box is provided with a pure water outlet; one end of the first water pipe is connected with the water outlet of the raw water tank, the other end of the first water pipe is connected with the water inlet end of the filtering device, one end of the second water pipe is connected with the water outlet end of the filtering device, the other end of the second water pipe is connected with the drinking water inlet, one end of the third water pipe is connected with the drinking water outlet, the other end of the third water pipe is connected with the water inlet of the peristaltic pump, one end of the fourth water pipe is connected with the water outlet of the peristaltic pump, the other end of the fourth water pipe is connected with the water inlet of the wastewater ratio, and one end of the water outlet pipe is connected with the water outlet of the wastewater ratio; one end of the fifth water pipe is connected with the pure water outlet, the other end of the fifth water pipe is connected with the water inlet of the hydrogen production module, one end of the air guide pipe is connected with the air outlet of the hydrogen production module, and the other end of the air guide pipe is communicated with the third water pipe or the water inlet of the peristaltic pump.
As a further preferable mode, the filtering device comprises a composite filter, a water pump and a first conduit; the water inlet of the composite filter is connected with the end part of the first water pipe, the water outlet of the composite filter is connected with one end of the first conduit, the other end of the first conduit is connected with the inlet end of the water pump, and the outlet end of the water pump is connected with the end part of the second water pipe.
As a further preferable mode, the filtration device further includes a reverse osmosis membrane filter and a second conduit; the water outlet of the water pump is connected with one end of the second conduit, the other end of the second conduit is connected with the water inlet of the reverse osmosis membrane filter, and the water outlet of the reverse osmosis membrane filter is connected with the end part of the second water pipe.
As a further preferable mode, the filtering device further comprises an activated carbon filter and a third conduit; the water outlet of the reverse osmosis membrane filter is connected with one end of the third conduit, the other end of the third conduit is connected with the water inlet of the activated carbon filter, and the water outlet of the activated carbon filter is connected with the end part of the second water pipe.
As a further preferred scheme, the water diversion box body is further provided with a first liquid level sensor and a second liquid level sensor, the first liquid level sensor is arranged at the bottom of the inner side wall of the drinking water box, and the second liquid level sensor is arranged at the top of the inner side wall of the drinking water box.
As a further preferable scheme, a third liquid level sensor is arranged at the bottom of the inner tank of the raw water tank.
As a further preferable scheme, the system further comprises a control device, and the peristaltic pump, the wastewater ratio, the hydrogen production module, the water pump, the first liquid level sensor, the second liquid level sensor and the third liquid level sensor are all electrically connected with the control device.
As a further preferred scheme, the system further comprises a wastewater electromagnetic valve, a first wastewater pipe and a second wastewater pipe, wherein a backflow end is arranged on the raw water tank, a sewage discharge outlet is formed in the reverse osmosis membrane filter, one end of the first wastewater pipe is connected with the sewage discharge outlet, the other end of the first wastewater pipe is connected with a water inlet of the wastewater electromagnetic valve, a water outlet of the wastewater electromagnetic valve is connected with one end of the second wastewater pipe, the other end of the second wastewater pipe is connected with the backflow end, and the wastewater electromagnetic valve is electrically connected with the control device.
As a further preferable scheme, the system further comprises a return pipe, a first water return port is arranged on the hydrogen production module, a second water return port is arranged on the pure water tank, one end of the return pipe is connected with the first water return port, and the other end of the return pipe is connected with the second water return port.
In conclusion, the utility model has the following beneficial effects:
the utility model relates to a hydrogen-rich water preparation system containing a wastewater ratio, which belongs to the field of hydrogen-rich water preparation and comprises a raw water tank, a filtering device, a water distribution tank body, a peristaltic pump, a wastewater ratio, a hydrogen production module, a water outlet pipe and a gas guide pipe; the water diversion box body is provided with a drinking water box and a pure water box, the drinking water box is provided with a drinking water inlet and a drinking water outlet, and the pure water box is provided with a pure water outlet; the raw water tank is connected with the filtering device through a first water pipe, the filtering device is connected with the drinking water inlet through a second water pipe, the drinking water outlet is connected with the peristaltic pump through a third water pipe, the peristaltic pump is connected with the water inlet of the wastewater ratio through a fourth water pipe, and the water outlet pipe is connected with the water outlet of the wastewater ratio; the pure water outlet is connected with the water inlet of hydrogen manufacturing module through the fifth water pipe, the gas outlet of hydrogen manufacturing module is linked together through air duct and third water pipe or with the water inlet of peristaltic pump, utilize waste water to realize hydrogen and drinking water and mix according to certain numerical value proportion, and realize through waste water than the cooperation peristaltic pump that hydrogen and drinking water reach the effect of secondary mixing, make hydrogen and water mixed more even, the hydrogen and the water mixing of the hydrogen-rich water who prepares among the solution prior art are unstable, and inhomogeneous problem.
Drawings
FIG. 1 is a schematic illustration of a waterway of the present invention;
in the figure: 1. a raw water tank; 2. a peristaltic pump; 3. the ratio of waste water to waste water; 4. a hydrogen production module; 51. a first water pipe; 52. a second water pipe; 53. a third water pipe; 54. a fourth water pipe; 55. a fifth water pipe; 56. a water outlet pipe; 57. an air duct; 58. a return pipe; 61. a drinking water tank; 62. a pure water tank; 701. a first conduit; 702. a second conduit; 703. a third conduit; 71. a composite filter; 72. a water pump; 73. a reverse osmosis membrane filter; 74. an activated carbon filter; 81. a first liquid level sensor; 82. a second liquid level sensor; 83. a third liquid level sensor; 91. a wastewater solenoid valve; 92. a first waste pipe; 93. a second waste pipe.
Detailed Description
In order to make the objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. Several embodiments of the utility model are presented in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.
In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature. The terms "vertical," "horizontal," "left," "right," "up," "down," and the like are used for descriptive purposes only and are not intended to indicate or imply that the referenced devices or elements must be in a particular orientation, configuration, and operation, and therefore should not be construed as limiting the present invention.
The utility model is described in detail below with reference to the figures and examples.
Referring to fig. 1, the present invention provides a hydrogen-rich water preparation system with a wastewater ratio of 3, including a raw water tank 1, a filtering device, a water diversion tank body, a peristaltic pump 2, a wastewater ratio of 3, a hydrogen production module 4, a first water pipe 51, a second water pipe 52, a third water pipe 53, a fourth water pipe 54, a fifth water pipe 55, a water outlet pipe 56 and a gas guide pipe 57; the water distribution box body is provided with a drinking water box 61 and a pure water box 62, wherein the drinking water box 61 is used for storing drinking water filtered by a filtering device, the pure water box 62 is used for storing pure water, the drinking water is used for preparing a water source required by hydrogen-enriched water, the pure water is used for electrolyzing water to prepare water required by hydrogen, mineral water containing minerals or tap water containing chlorine elements is preferably selected as the water source of the drinking water, the pure water is selected as the water for electrolyzing water to prepare hydrogen, so that the generated gas is pure hydrogen, the phenomenon that chlorine is generated by chlorine ions in the water when the tap water is electrolyzed to influence the quality of the hydrogen-enriched water is avoided, a drinking water inlet and a drinking water outlet are formed in the drinking water box 61, and a pure water outlet is formed in the pure water box 62; one end of a first water pipe 51 is connected with a water outlet of the original water tank 1, the other end of the first water pipe 51 is connected with a water inlet end of a filtering device, one end of a second water pipe 52 is connected with a water outlet end of the filtering device, the other end of the second water pipe 52 is connected with a drinking water inlet, one end of a third water pipe 53 is connected with a drinking water outlet, the other end of the third water pipe 53 is connected with a water inlet of the peristaltic pump 2, one end of a fourth water pipe 54 is connected with a water outlet of the peristaltic pump 2, the other end of the fourth water pipe 54 is connected with a water inlet of a wastewater ratio 3, and one end of a water outlet pipe 56 is connected with a water outlet of the wastewater ratio 3; one end of a fifth water pipe 55 is connected with a pure water outlet, the other end of the fifth water pipe 55 is connected with a water inlet of the hydrogen production module 4, one end of a gas guide pipe 57 is connected with a gas outlet of the hydrogen production module 4, the other end of the gas guide pipe 57 is communicated with the third water pipe 53 or a water inlet of the peristaltic pump 2, specifically, the wastewater ratio 3 is a wastewater ratio 3 electromagnetic valve which is an electromagnetic valve for controlling the proportion of pure water and wastewater, and the principle of the wastewater ratio 3 electromagnetic valve is utilized to realize the mixing of hydrogen and drinking water according to a certain numerical proportion, and the wastewater ratio 3 is matched with the peristaltic pump 2 to realize the effect of secondary mixing of the hydrogen and the drinking water, make hydrogen and water mixture more even, solved among the prior art the hydrogen and the water of the hydrogen-rich water of preparation mix inhomogeneous, unstable problem, simultaneously, realize controlling output hydrogen-rich water's discharge through utilizing waste water to compare 3.
As shown in fig. 1, the filtering apparatus includes a composite filter 71, a water pump 72, and a first conduit 701; the inlet of the composite filter 71 is connected to the end of the first water pipe 51, the outlet of the composite filter 71 is connected to one end of the first pipe 701, the other end of the first pipe 701 is connected to the inlet of the water pump 72, and the outlet of the water pump 72 is connected to the end of the second water pipe 52.
Further, in order to improve the filtering effect of the water source provided by the raw water tank 1, as shown in fig. 1, the filtering apparatus further includes a reverse osmosis membrane filter 73 and a second conduit 702; the water outlet of the water pump 72 is connected to one end of the second conduit 702, the other end of the second conduit 702 is connected to the water inlet of the reverse osmosis membrane filter 73, and the water outlet of the reverse osmosis membrane filter 73 is connected to the end of the second water pipe 52.
Further, in order to improve the filtering effect of the water source provided by the raw water tank 1 again, as shown in fig. 1, the filtering apparatus further includes an activated carbon filter 74 and a third conduit 703; the water outlet of the reverse osmosis membrane filter 73 is connected with one end of a third conduit 703, the other end of the third conduit 703 is connected with the water inlet of the activated carbon filter 74, and the water outlet of the activated carbon filter 74 is connected with the end of the second water pipe 52.
Referring to fig. 1, the water distribution box body is further provided with a first liquid level sensor 81 and a second liquid level sensor, the first liquid level sensor 81 is arranged at the bottom of the inner side wall of the drinking water box 61, and the second liquid level sensor is arranged at the top of the inner side wall of the drinking water box 61. Thereby controlling the amount of drinking water in the drinking water tank 61 and avoiding the lack or overflow of the water source in the drinking water tank 61. Further, a third liquid level sensor 83 is disposed at the bottom of the inner tank of the raw water tank 1. The water source in the raw water tank 1 is ensured to be sufficient.
Referring to fig. 1, the hydrogen-rich water preparation system with a wastewater ratio of 3 further comprises a control device, and the peristaltic pump 2, the wastewater ratio of 3, the hydrogen production module 4, the water pump 72, the first liquid level sensor 81, the second liquid level sensor and the third liquid level sensor 83 are electrically connected with the control device.
As shown in the combined figure 1, the hydrogen-rich water preparation system containing the wastewater ratio of 3 further comprises a wastewater solenoid valve 91, a first wastewater pipe 92 and a second wastewater pipe 93, a backflow end is arranged on the raw water tank 1, a sewage discharge port is formed in the reverse osmosis membrane filter 73, one end of the first wastewater pipe 92 is connected with the sewage discharge port, the other end of the first wastewater pipe 92 is connected with a water inlet of the wastewater solenoid valve 91, a water outlet of the wastewater solenoid valve 91 is connected with one end of the second wastewater pipe 93, the other end of the second wastewater pipe 93 is connected with the backflow end, and the wastewater solenoid valve 91 is electrically connected with a control device.
Referring to fig. 1, the hydrogen-rich water preparation system with a wastewater ratio of 3 further includes a return pipe 58, the hydrogen production module 4 is provided with a first return port, the pure water tank 62 is further provided with a second return port, one end of the return pipe 58 is connected to the first return port, and the other end of the return pipe 58 is connected to the second return port. The pure water not subjected to electrolysis flows back into the pure water tank 62, so that the recycling is realized, and the effect of saving water resources is realized.
The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.
Claims (9)
1. A hydrogen-rich water preparation system containing a wastewater ratio is characterized by comprising a raw water tank, a filtering device, a water distribution tank body, a peristaltic pump, the wastewater ratio, a hydrogen production module, a first water pipe, a second water pipe, a third water pipe, a fourth water pipe, a fifth water pipe, a water outlet pipe and an air guide pipe;
the water distribution box body is provided with a drinking water box and a pure water box, the drinking water box is provided with a drinking water inlet and a drinking water outlet, and the pure water box is provided with a pure water outlet;
one end of the first water pipe is connected with the water outlet of the raw water tank, the other end of the first water pipe is connected with the water inlet end of the filtering device, one end of the second water pipe is connected with the water outlet end of the filtering device, the other end of the second water pipe is connected with the drinking water inlet, one end of the third water pipe is connected with the drinking water outlet, the other end of the third water pipe is connected with the water inlet of the peristaltic pump, one end of the fourth water pipe is connected with the water outlet of the peristaltic pump, the other end of the fourth water pipe is connected with the water inlet of the wastewater ratio, and one end of the water outlet pipe is connected with the water outlet of the wastewater ratio;
one end of the fifth water pipe is connected with the pure water outlet, the other end of the fifth water pipe is connected with the water inlet of the hydrogen production module, one end of the air guide pipe is connected with the air outlet of the hydrogen production module, and the other end of the air guide pipe is communicated with the third water pipe or the water inlet of the peristaltic pump.
2. The system for preparing hydrogen-rich water containing a wastewater ratio according to claim 1, wherein the filtering means comprises a composite filter, a water pump, and a first conduit;
the water inlet of the composite filter is connected with the end part of the first water pipe, the water outlet of the composite filter is connected with one end of the first conduit, the other end of the first conduit is connected with the inlet end of the water pump, and the outlet end of the water pump is connected with the end part of the second water pipe.
3. The system for producing hydrogen-rich water containing a wastewater ratio according to claim 2, characterized in that the filtration device further comprises a reverse osmosis membrane filter and a second conduit;
the water outlet of the water pump is connected with one end of the second conduit, the other end of the second conduit is connected with the water inlet of the reverse osmosis membrane filter, and the water outlet of the reverse osmosis membrane filter is connected with the end part of the second water pipe.
4. The system for preparing hydrogen-rich water containing a wastewater ratio according to claim 3, wherein the filtering device further comprises an activated carbon filter and a third conduit;
the water outlet of the reverse osmosis membrane filter is connected with one end of the third conduit, the other end of the third conduit is connected with the water inlet of the activated carbon filter, and the water outlet of the activated carbon filter is connected with the end part of the second water pipe.
5. The system of claim 3, wherein the water dispenser box body is further provided with a first liquid level sensor and a second liquid level sensor, the first liquid level sensor is arranged at the bottom of the inner side wall of the water dispenser box, and the second liquid level sensor is arranged at the top of the inner side wall of the water dispenser box.
6. The system for preparing hydrogen-rich water containing wastewater ratio according to claim 5, characterized in that the inner tank bottom of the raw water tank is provided with a third liquid level sensor.
7. The system of claim 6, further comprising a control device, wherein the peristaltic pump, the wastewater ratio, the hydrogen production module, the water pump, the first level sensor, the second level sensor, and the third level sensor are electrically connected to the control device.
8. The system for preparing hydrogen-rich water containing wastewater ratio of claim 7, further comprising a wastewater solenoid valve, a first wastewater pipe and a second wastewater pipe, wherein the raw water tank is provided with a backflow end, the reverse osmosis membrane filter is provided with a sewage outlet, one end of the first wastewater pipe is connected with the sewage outlet, the other end of the first wastewater pipe is connected with a water inlet of the wastewater solenoid valve, a water outlet of the wastewater solenoid valve is connected with one end of the second wastewater pipe, the other end of the second wastewater pipe is connected with the backflow end, and the wastewater solenoid valve is electrically connected with the control device.
9. The hydrogen-rich water preparation system with the wastewater ratio as defined in claim 1, further comprising a return pipe, wherein the hydrogen production module is provided with a first return port, the pure water tank is further provided with a second return port, one end of the return pipe is connected to the first return port, and the other end of the return pipe is connected to the second return port.
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