CN216273579U - Cold and hot water mixing water path of hydrogen-rich water machine - Google Patents

Abstract

The utility model relates to a cold and hot water mixing waterway of a hydrogen-rich water machine, which comprises: a pure water tank, a refrigerating device, a heating device, a water mixing device and a hydrogen production device; the first output end of the pure water tank is communicated with the input end of the refrigerating device; the second output end of the pure water tank is communicated with the input end of the hydrogen production device; the third output end of the pure water tank is communicated with the input end of the heating device; the exhaust end of the heating device is also communicated with the pure water tank; the output end of the refrigerating device is communicated with the first input end of the water mixing device; the output end of the hydrogen production device is communicated with the second input end of the water mixing device; the output end of the heating device is communicated with the third input end of the water mixing device; the output end of the water mixing device is communicated with the water outlet of the hydrogen-rich water machine; the hydrogen-rich water machine provided by the utility model can be used for refrigerating and heating at the same time, and can be used for mixing cold and hot water according to the requirements of people to generate warm water at a specific temperature, and the water path is reasonable in design, and the cold water and the hot water cannot be in series flow.

Description

Cold and hot water mixing water path of hydrogen-rich water machine

Technical Field

The utility model relates to the technical field of hydrogen-rich water equipment, in particular to a cold-hot water mixing waterway of a hydrogen-rich water machine.

Background

The hydrogen-rich water is water containing hydrogen, hydrogen molecules are good antioxidants, the exchange of intracellular and extracellular water is easily achieved by strong permeability, diffusibility, dissolving power and metabolic power, malignant free radicals in human cells can be effectively and selectively eliminated, the immunity is improved, and the sub-health physique is improved. The existing hydrogen-rich water is usually made of an electrolysis cup and is difficult to be used by multiple people.

The existing water purifier has single function, does not have the function of hydrogen production electrolysis, can only independently output cold water and hot water, cannot output warm water with proper temperature as required, and the warm water and the cold water are easily mixed in series flow in the water purifier, so that the cold water and the hot water are mixed and then need to be cooled again or heated, and the energy is wasted.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a cold and hot water mixing water channel of a hydrogen-rich water machine, which solves the problems that the existing water machine has single function and cannot flow out warm water according to the requirements of people.

The technical purpose of the utility model is realized by the following technical scheme: a hot and cold water mixing waterway of a hydrogen-rich water machine comprises: a pure water tank for containing pure water, a refrigerating device, a heating device, a water mixing device and a hydrogen production device; the first output end of the pure water tank is communicated with the input end of the refrigerating device; the second output end of the pure water tank is communicated with the input end of the hydrogen production device; the third output end of the pure water tank is communicated with the input end of the heating device; the exhaust end of the heating device is also communicated with the pure water tank; the output end of the refrigerating device is communicated with the first input end of the water mixing device; the output end of the hydrogen production device is communicated with the second input end of the water mixing device; the output end of the heating device is communicated with the third input end of the water mixing device; the output end of the water mixing device is communicated with the water outlet of the hydrogen-rich water machine.

Optionally, the refrigeration device comprises: a stainless steel cold bladder and a micro refrigeration compressor; a spiral copper tube is wound on the side wall of the stainless steel cold container, the section of the copper tube is semicircular, and the plane of the copper tube is tightly attached to the surface of the stainless steel cold container; the output end of the copper tube is communicated with the input end of the micro refrigeration compressor, the input end of the copper tube is provided with a capillary tube, and the other end of the capillary tube is communicated with the output end of the micro refrigeration compressor; the top of the cold liner is also provided with a first shorter water inlet pipe and a first longer water outlet pipe; the first water inlet pipe is communicated with the first output end of the pure water tank; one end of the first water outlet pipe extends downwards to the bottom of the cold liner, and the other end of the first water outlet pipe is communicated with a first input end of the water mixing device.

Optionally, the hydrogen production apparatus comprises: a water storage tank; the bottom of the water storage tank is provided with an electrolysis module, the top of the water storage tank is provided with a second shorter water inlet pipe and a second longer water outlet pipe, and the second water inlet pipe is communicated with the second output end of the pure water tank; one end of the second water outlet pipe extends downwards to the bottom of the water storage tank; the other end of the second water outlet pipe is communicated with a second input end of the water mixing device.

Optionally, the bottom of the water storage tank is provided with an opening for contacting water with the electrolysis module; a first thread is arranged on the side wall of the opening; the electrolysis module comprises: the device comprises a waterproof connecting piece, a waterproof base, a positive electrolytic sheet, a negative electrolytic sheet and an ion exchange membrane; a second thread matched with the first thread is arranged on the side wall of the waterproof connecting piece, and the waterproof connecting piece is connected with the opening thread; the waterproof base is covered at the bottom of the waterproof connecting piece, and an electrolytic cavity is formed between the waterproof base and the inside of the waterproof connecting piece; the positive electrolytic plate, the ion exchange membrane and the negative electrolytic plate are sequentially stacked in the electrolytic cavity from top to bottom.

Optionally, the heating device comprises: a hot water tank; a U-shaped electric heating rod is arranged in the hot water container; and a third water inlet pipe and a third water outlet pipe are also arranged on the hot water liner, the third water inlet pipe is communicated with a third output end of the pure water tank, and the third water outlet pipe is communicated with a third input end of the water mixing device.

Optionally, the heating device further comprises: and the output end of the pressure relief valve is communicated with the pure water tank.

Optionally, the water mixing device includes: the device comprises a first peristaltic pump, a second peristaltic pump, a third peristaltic pump, a control device, a temperature detection device and a water mixing cavity; the input end of the first peristaltic pump is communicated with the output end of the refrigerating device, the input end of the second peristaltic pump is communicated with the output end of the hydrogen production device, and the input end of the third peristaltic pump is communicated with the output end of the heating device; the output end of the first peristaltic pump, the output end of the second peristaltic pump and the output end of the third peristaltic pump are connected with the water mixing cavity; the output end of the water mixing cavity is connected with the water outlet of the hydrogen-rich water machine; the first peristaltic pump, the second peristaltic pump and the third peristaltic pump are all electrically connected with the control device.

In conclusion, the utility model has the following beneficial effects: the application provides rich hydrogen water machine's hot and cold water mixing water route includes: a pure water tank for containing pure water, a refrigerating device, a heating device, a water mixing device and a hydrogen production device; the first output end of the pure water tank is communicated with the input end of the refrigerating device; the second output end of the pure water tank is communicated with the input end of the hydrogen production device; the third output end of the pure water tank is communicated with the input end of the heating device; the exhaust end of the heating device is also communicated with the pure water tank; the output end of the refrigerating device is communicated with the first input end of the water mixing device; the output end of the hydrogen production device is communicated with the second input end of the water mixing device; the output end of the heating device is communicated with the third input end of the water mixing device; the output end of the water mixing device is communicated with the water outlet of the hydrogen-rich water machine; the water purifier provided by the utility model can prepare hydrogen-rich water through electrolysis, and can quantitatively mix cold water and hot water through a peristaltic pump to produce warm water at any temperature for people to drink.

Drawings

FIG. 1 is a schematic view of the overall waterway structure of the present invention;

FIG. 2 is a schematic view of a refrigeration unit of the present invention;

FIG. 3 is a schematic diagram of a hydrogen plant of the present invention;

in the figure: 1. a pure water tank; 11. a TDS detection device; 2. a refrigeration device; 21. a stainless steel inner container; 22. a micro refrigeration compressor; 23. a red copper tube; 24. a capillary tube; 25. a first water inlet pipe; 26. a first water outlet pipe; 3. a water mixing device; 31. a first peristaltic pump; 32. a second peristaltic pump; 33. a third peristaltic pump; 34. a water mixing cavity; 4. a hydrogen production unit; 41. a water storage tank; 411. an opening; 42. an electrolysis module; 421. a waterproof connector; 422. a waterproof base; 423. a positive electrolyte sheet; 424. a negative electrolyte sheet; 425. an ion exchange membrane; 43. a second water inlet pipe; 44. a second water outlet pipe; 5. a heating device; 51. a hot water tank; 52. a U-shaped electric heating rod; 53. a third water inlet pipe; 54. a third water outlet pipe; 55. a pressure relief valve; 6. and (7) a water outlet.

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 to 3 together, the present invention provides a cold and hot water mixing waterway of a hydrogen-rich water machine, including: a pure water tank 1 for containing pure water, a refrigerating device 2, a heating device 5, a water mixing device 3 and a hydrogen production device 4; the first output end of the pure water tank 1 is communicated with the input end of the refrigerating device 2; the second output end of the pure water tank 1 is communicated with the input end of the hydrogen production device 4; the third output end of the pure water tank 1 is communicated with the input end of the heating device 5; the exhaust end of the heating device 5 is also communicated with the pure water tank 1; the output end of the refrigerating device 2 is communicated with the first input end of the water mixing device 3; the output end of the hydrogen production device 4 is communicated with the second input end of the water mixing device 3; the output end of the heating device 5 is communicated with the third input end of the water mixing device 3; the output end of the water mixing device 3 is communicated with the water outlet 6 of the hydrogen-rich water machine.

Specifically, in the working process of the present invention, the pure water tank 1 is used for containing filtered pure water, and can be filled with barreled water or connected with a water purifier to provide sufficient pure water, and a TDS detection device 11 for detecting the solid content in the water is further arranged on the water inlet pipe of the pure water tank 1; a floating ball device for detecting the pure water allowance is also arranged in the pure water tank 1; the danger caused by dry burning of the heating device 5 due to insufficient pure water storage of the pure water tank 1 is avoided; the pure water tank 1 is provided with three output ends for outputting pure water, and the three output ends are respectively connected with the refrigerating device 2, the heating device 5 and the hydrogen production device 4 so as to supply the refrigerating device 2 to produce cold water, the heating device 5 to produce hot water and the hydrogen production device 4 to produce hydrogen-rich water, and in order to avoid heat exchange among the three devices, the hydrogen-rich water machine is also correspondingly provided with heat-insulating materials inside.

Further, referring to fig. 2, the refrigeration device 2 includes: a stainless steel cold bladder and a miniature refrigeration compressor 22; a spiral copper tube 23 is wound on the side wall of the stainless steel cold container, the section of the copper tube 23 is semicircular, and the plane of the copper tube 23 is tightly attached to the surface of the stainless steel cold container; the output end of the copper tube 23 is communicated with the input end of the micro refrigeration compressor 22, the input end of the copper tube 23 is provided with a capillary tube 24, and the other end of the capillary tube 24 is communicated with the output end of the micro refrigeration compressor 22; the top of the cold bladder is also provided with a first shorter water inlet pipe 25 and a first longer water outlet pipe 26; the first water inlet pipe 25 is communicated with a first output end of the pure water tank 1; one end of the first water outlet pipe 26 extends downwards to the bottom of the cold bladder, and the other end of the first water outlet pipe 26 is communicated with the first input end of the water mixing device 3.

Specifically, the refrigerating device 2 of the equipment mainly comprises a stainless steel cold container for containing cold water and a micro compressor, wherein a semicircular red copper pipe 23 is coiled on the outer side surface of the stainless steel cold container, and the plane of the semicircular red copper pipe 23 is in contact with the side wall of the cold container so as to improve the heat exchange area; the heat exchange efficiency is higher compared with the round copper tube 23.

Further, referring to fig. 3, the hydrogen production apparatus 4 includes: a water storage tank 41; the bottom of the water storage tank 41 is provided with an electrolysis module 42, the top of the water storage tank 41 is provided with a second shorter water inlet pipe 43 and a second longer water outlet pipe 44, and the second water inlet pipe 43 is communicated with the second output end of the pure water tank 1; one end of the second water outlet pipe 44 extends downwards to the bottom of the water storage tank 41; the other end of the second water outlet pipe 44 is communicated with a second input end of the water mixing device 3.

Further, the bottom of the water storage tank 41 is provided with an opening 411 for contacting water with the electrolysis module 42; a first thread is arranged on the side wall of the opening 411; the electrolysis module 42 includes: waterproof connecting piece 421, waterproof base 422, positive electrolytic piece 423, negative electrolytic piece 424, and ion exchange membrane 425; a second thread matched with the first thread is arranged on the side wall of the waterproof connecting piece 421, and the waterproof connecting piece 421 is in threaded connection with the opening 411; the waterproof base 422 is covered at the bottom of the waterproof connecting piece 421, and forms an electrolysis cavity with the inside of the waterproof connecting piece 421; the positive electrolyte sheet 423, the ion exchange membrane 425 and the negative electrolyte sheet 424 are stacked in the electrolytic chamber from top to bottom in sequence.

Specifically, the hydrogen production device 4 is used for electrolyzing water to generate hydrogen, and the hydrogen is dissolved in the water or is dispersedly mixed in the water to generate hydrogen-rich water rich in hydrogen for people to drink and preserve health.

Further, the heating device 5 includes: a hot water tank 51; a U-shaped electric heating rod 52 is arranged in the hot water container 51; the hot water container 51 is further provided with a third water inlet pipe 53 and a third water outlet pipe 54, the third water inlet pipe 53 is communicated with a third output end of the pure water tank 1, and the third water outlet pipe 54 is communicated with a third input end of the water mixing device 3.

Further, the heating device 5 further includes: a pressure release valve 55 for discharging water vapor, wherein the output end of the pressure release valve 55 is communicated with the pure water tank 1.

Further, the water mixing device 3 includes: a first peristaltic pump 31, a second peristaltic pump 32, a third peristaltic pump 33, a control device, a temperature detection device and a water mixing cavity 34; the input end of the first peristaltic pump 31 is communicated with the output end of the refrigerating device 2, the input end of the second peristaltic pump 32 is communicated with the output end of the hydrogen production device 4, and the input end of the third peristaltic pump 33 is communicated with the output end of the heating device 5; the output end of the first peristaltic pump 31, the output end of the second peristaltic pump 32 and the output end of the third peristaltic pump 33 are all connected with the water mixing cavity 34; the output end of the water mixing cavity 34 is connected with the water outlet 6 of the hydrogen-rich water machine; the first peristaltic pump 31, the second peristaltic pump 32 and the third peristaltic pump 33 are all electrically connected with the control device.

Specifically, three peristaltic pumps correspond three functional device respectively, and the peristaltic pump includes step motor, and every rotation certain angle can follow certain water of quantitative extraction in the three water treatment facilities, and mixes the water chamber 34 and be used for accepting the water that the peristaltic pump exported, and under the condition of the warm water of certain temperature of needs output, the peristaltic pump can be according to the temperature in the current device, calculates the proportion of hot and cold water to export the warm water of specific temperature. And the peristaltic pump can also avoid water from flowing back along the water pipe so as to avoid the mutual series flow of water in the water machine.

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 (7)

1. A hot and cold water mixing water route of rich hydrogen water machine which characterized in that includes: a pure water tank for containing pure water, a refrigerating device, a heating device, a water mixing device and a hydrogen production device;

the first output end of the pure water tank is communicated with the input end of the refrigerating device; the second output end of the pure water tank is communicated with the input end of the hydrogen production device; the third output end of the pure water tank is communicated with the input end of the heating device; the exhaust end of the heating device is also communicated with the pure water tank;

the output end of the refrigerating device is communicated with the first input end of the water mixing device; the output end of the hydrogen production device is communicated with the second input end of the water mixing device; the output end of the heating device is communicated with the third input end of the water mixing device; the output end of the water mixing device is communicated with the water outlet of the hydrogen-rich water machine.

2. The water mixing channel of the hydrogen-rich water machine as recited in claim 1, wherein the refrigerating device comprises: a stainless steel cold bladder and a micro refrigeration compressor; a spiral copper tube is wound on the side wall of the stainless steel cold container, the section of the copper tube is semicircular, and the plane of the copper tube is tightly attached to the surface of the stainless steel cold container; the output end of the copper tube is communicated with the input end of the micro refrigeration compressor, the input end of the copper tube is provided with a capillary tube, and the other end of the capillary tube is communicated with the output end of the micro refrigeration compressor;

the top of the cold liner is also provided with a first shorter water inlet pipe and a first longer water outlet pipe; the first water inlet pipe is communicated with the first output end of the pure water tank; one end of the first water outlet pipe extends downwards to the bottom of the cold liner, and the other end of the first water outlet pipe is communicated with a first input end of the water mixing device.

3. The water mixing channel of the hydrogen-rich water machine as claimed in claim 1, wherein the hydrogen production device comprises: a water storage tank and an electrolysis module; the electrolysis module is in threaded connection with the bottom of the water storage tank; the top of the water storage tank is provided with a second shorter water inlet pipe and a second longer water outlet pipe, and the second water inlet pipe is communicated with the second output end of the pure water tank; one end of the second water outlet pipe extends downwards to the bottom of the water storage tank; the other end of the second water outlet pipe is communicated with a second input end of the water mixing device.

4. The hydrogen-rich water machine cold and hot water mixing waterway according to claim 3, wherein the bottom of the water storage tank is provided with an opening for contacting the water with the electrolysis module; a first thread is arranged on the side wall of the opening;

the electrolysis module comprises: the device comprises a waterproof connecting piece, a waterproof base, a positive electrolytic sheet, a negative electrolytic sheet and an ion exchange membrane;

a second thread matched with the first thread is arranged on the side wall of the waterproof connecting piece; the waterproof base is covered at the bottom of the waterproof connecting piece, and an electrolytic cavity is formed between the waterproof base and the inside of the waterproof connecting piece; the positive electrolytic plate, the ion exchange membrane and the negative electrolytic plate are sequentially stacked in the electrolytic cavity from top to bottom.

5. The water mixing path of the hydrogen-rich water machine as recited in claim 1, wherein the heating device comprises: a hot water tank; a U-shaped electric heating rod is arranged in the hot water container; and a third water inlet pipe and a third water outlet pipe are also arranged on the hot water liner, the third water inlet pipe is communicated with a third output end of the pure water tank, and the third water outlet pipe is communicated with a third input end of the water mixing device.

6. The water mixing path of the hydrogen-rich water machine as recited in claim 5, wherein the heating device further comprises: and the output end of the pressure relief valve is communicated with the pure water tank.

7. The hydrogen-rich water machine cold and hot water mixing waterway according to claim 1, wherein the water mixing device comprises: the water mixing device comprises a first peristaltic pump, a second peristaltic pump, a third peristaltic pump, a control device, a temperature detection device for detecting the temperature of water in a water mixing cavity and a water mixing cavity;

the input end of the first peristaltic pump is communicated with the output end of the refrigerating device, the input end of the second peristaltic pump is communicated with the output end of the hydrogen production device, and the input end of the third peristaltic pump is communicated with the output end of the heating device; the output end of the first peristaltic pump, the output end of the second peristaltic pump and the output end of the third peristaltic pump are connected with the water mixing cavity; the temperature detection device is arranged in the water mixing cavity; the output end of the water mixing cavity is connected with the water outlet of the hydrogen-rich water machine;

the temperature detection device, the first peristaltic pump, the second peristaltic pump and the third peristaltic pump are all electrically connected with the control device.

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