CN115957678A - Functional hydrogen-rich water generation system and use method thereof - Google Patents

Abstract

The invention discloses a functional hydrogen-rich water generation system and a use method thereof, and belongs to the technical field of hydrogen-rich water. A functional hydrogen-rich water generation system comprises a base, wherein a vertical plate is arranged on the base, a rotating assembly is arranged on the vertical plate, a positioning frame is connected onto the rotating assembly, a stirring rod is rotatably arranged on the positioning frame, a mixing barrel is sleeved outside the stirring rod, an oscillating assembly is arranged in the mixing barrel, a pushing assembly is arranged between the mixing barrel and the rotating mechanism, the pushing assembly is connected with the stirring rod, a transmission mechanism for driving the stirring rod to rotate is arranged on the positioning frame, and an air inlet assembly is externally connected with the stirring rod; the invention can lead the hydrogen bubbles in the purified water to move in a reciprocating way and be broken for many times to finally form the nano-scale hydrogen bubbles, has good breaking effect of the hydrogen bubbles, increases the solubility of the hydrogen in the purified water and ensures the preparation effect of the hydrogen-rich water.

Description

Functional hydrogen-rich water generation system and use method thereof

Technical Field

The invention relates to the technical field of hydrogen-rich water, and relates to a functional hydrogen-rich water generating system and a using method thereof.

Background

At present, along with the continuous improvement of living standard of people, the degree of gravity on drinking water is higher and higher. The water that people can drink can be roughly divided into tap water, purified water and mineral water, and the tap water contains impurities, bacteria and heavy metal pollution due to unhealthy factors; the purified water is acidic and does not need to be balanced with acid and alkali of a human body; mineral water is generally limited by geographic location. It is impossible to contain various trace elements and the regional transportation is inconvenient and not popular. The hydrogen-rich water is water rich in hydrogen as the name suggests, has strong reducing function, can neutralize active oxygen in body blood and cells, and can balance the pH value of human body.

In the prior art, an invention patent with a patent application number of CN202210680986.6 discloses a hydrogen-absorbable high-concentration hydrogen-rich water preparation device, which breaks large hydrogen bubbles into small bubbles through a rotary cutter to improve the solubility of hydrogen in purified water. However, in the specific use process, there is a defect that hydrogen bubbles in the device move from the lower side to the upper side of the preparation barrel and are broken by cutting with the rotary cutter in the process, but some bubbles move to the upper side of the preparation barrel without being cut, and large hydrogen bubbles moving to the upper side of the preparation barrel cannot be effectively dissolved in water, so that the conditions of low hydrogen dissolving amount and poor hydrogen dissolving effect occur.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a functional hydrogen-rich water generation system and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a functional hydrogen-rich water generates system, includes the base, be provided with the riser on the base, be provided with rotating assembly on the riser, the last locating rack that is connected with of rotating assembly, it is provided with the puddler to rotate on the locating rack, puddler outside cover is equipped with the blending hopper, be provided with the vibration subassembly in the blending hopper, be provided with between blending hopper and the rotary mechanism and pass the subassembly, it links to each other with the puddler to pass the subassembly, just be provided with the drive mechanism who is used for driving the puddler rotation on the locating rack, the puddler is external to have the subassembly that admits air.

Preferably, the rotating assembly comprises a driving motor fixedly arranged on the vertical plate, an output end of the driving motor penetrates through the vertical plate and is connected with a driving shaft, and the driving shaft is fixedly connected with the positioning frame.

Preferably, the transmission mechanism comprises a support plate fixedly arranged on the outer side of the positioning frame, a transmission rod is rotatably arranged on the support plate, synchronizing wheels are arranged on the transmission rod and the stirring rod, a belt is arranged between the two synchronizing wheels, the transmission mechanism further comprises a movable bevel gear fixedly arranged on the transmission rod, and a fixed bevel gear in meshed connection with the movable bevel gear is arranged on the vertical plate.

Preferably, the pushing assembly comprises an ear plate arranged on the positioning frame, a rotating shaft is arranged on the ear plate in a rotating mode, a first connecting plate is arranged on the rotating shaft, a second connecting plate is connected to the outer side of the first connecting plate in a rotating mode, one end, far away from the first connecting plate, of the second connecting plate is movably connected with the mixing barrel through a pin shaft, a worm wheel is arranged on the rotating shaft, and a worm connected with the worm wheel in a meshed mode is arranged on the stirring rod.

Preferably, the stirring rod is provided with a crushing rod, the crushing rod is movably arranged in the mixing barrel, and the upper side and the lower side of the mixing barrel are both provided with cutting screen plates.

Preferably, the cutting mesh plate comprises an outer ring body fixedly connected with the inner wall of the mixing barrel and an inner ring body connected with the stirring rod in a sliding manner, an elastic mesh body is arranged between the outer ring body and the inner ring body, and the crushing rod is provided with a push rod which is movably abutted against the elastic mesh body.

Preferably, the oscillating assembly comprises two movable plates which are connected in the mixing barrel in a sliding manner, a mixing cavity is formed between the two movable plates, an elastic element is arranged between each movable plate and the inner wall of the mixing barrel, and the elastic elements are sleeved on the stirring rod.

Preferably, the subassembly that admits air is including setting firmly the hydrogen tank on the base, be provided with the intake pipe between hydrogen tank and the puddler, be provided with the pump body in the intake pipe, the intake pipe includes the first trachea that links to each other with the hydrogen tank, the second trachea that links to each other with the puddler and sets up the sealed shell between first trachea and second trachea, the outside at the drive shaft is established to sealed shell cover, the one end and the sealed shell intercommunication each other that the hydrogen tank was kept away from to first trachea, the well cavity that links to each other with the second trachea is all seted up to drive shaft and puddler, set up the inlet port that is used for communicateing sealed shell and well cavity in the drive shaft, the venthole has been seted up at the middle part of puddler.

Preferably, the upper and lower both sides of tempering tank are provided with inlet tube and outlet pipe respectively, all be provided with the control valve on inlet tube, outlet pipe and the intake pipe.

The invention also discloses a use method of the functional hydrogen-rich water generation system, which comprises the following steps:

s1: the pure water is introduced into the mixing cavity in the mixing barrel through the water inlet pipe by opening the control valves on the water inlet pipe and the water outlet pipe, at the moment, the air in the mixing barrel is extruded by the pure water and is discharged through the water outlet pipe, the control valves on the water inlet pipe and the water outlet pipe can be closed after the mixing barrel is filled with the pure water so as to ensure that the mixing barrel is filled with the pure water, the control valve and the pump body on the air inlet pipe are controlled, and the hydrogen is filled into the mixing barrel through the air inlet pipe;

s2: hydrogen rises from the bottom to the upper side after entering the mixing barrel, a driving motor is controlled to operate, the output end of the driving motor drives a positioning frame to turn through a driving shaft, the positioning frame drives the mixing barrel to turn, the bottom and the top of the mixing barrel are placed on the upper side in turn, the positioning frame drives a movable bevel gear on a transmission rod to be meshed with a fixed bevel gear on a vertical plate during turning, the transmission rod drives a stirring rod to rotate through a synchronizing wheel and a belt, the stirring rod drives a crushing rod to rotate in the mixing barrel, the crushing rod crushes hydrogen bubbles moving from bottom to top, and the rising hydrogen bubbles are cut and crushed again when passing through a cutting screen plate, so that the contact area of the hydrogen and purified water is increased;

s3: after the hydrogen bubbles rise to the top from the bottom of the mixing barrel, the positioning frame drives the mixing barrel to turn and incline, so that the bottom of the mixing barrel is positioned at the upper side, the top of the mixing barrel is positioned at the lower side of the device, the hydrogen bubbles which rise to the top of the mixing barrel rise to the bottom of the mixing barrel positioned at the upper side again, in the process, the movable hydrogen bubbles are crushed by the crushing rod, and the rising hydrogen bubbles are cut and crushed again when passing through the cutting screen plate;

s4: when the locating rack drives the mixing barrel to overturn, the pushing assembly pushes the mixing barrel to slide outside the stirring rod, and water in the mixing cavity impacts the movable plate under the action of inertia and gravity to enable the movable plate to displace, so that the water in the mixing cavity oscillates back and forth when the mixing barrel overturns along with the locating rack, hydrogen is made into nanoscale bubbles, and fusion of the water and the hydrogen is accelerated.

Compared with the prior art, the invention provides a functional hydrogen-rich water generation system and a use method thereof, and the system has the following beneficial effects:

1. this functional hydrogen-rich water generates system and application method thereof through the upset of rotatory subassembly drive locating rack, makes the locating rack drive the blending tank upset, makes the bottom and the top of blending tank arrange the upside in turn, and the inside hydrogen bubble of the blending tank of upset remains the state that rises throughout, and then makes hydrogen bubble reciprocating motion in the blending tank, and the crushing rod on the puddler of being convenient for is fully broken to it, guarantees its crushing effect, improves the area of contact of hydrogen and pure water to improve the volume of dissolving hydrogen.

2. According to the functional hydrogen-rich water generation system and the use method thereof, when the positioning frame drives the mixing barrel to overturn, the pushing assembly pushes the mixing barrel to slide outside the stirring rod, the water body in the mixing cavity impacts the movable plate under the action of inertia and gravity to enable the movable plate to displace, and then the water body in the mixing cavity oscillates back and forth when the mixing barrel overturns along with the positioning frame, so that hydrogen can be conveniently made into nanoscale bubbles, and the fusion of the water body and the hydrogen is accelerated.

3. This functional hydrogen-rich water generates system and application method thereof, through set up elasticity cutting net in the blending barrel, when the blending barrel was at the effect displacement of lapse subassembly down, the elasticity dictyosome offseted with the push rod on the broken pole, the elasticity dictyosome takes place deformation, when the elasticity dictyosome moved along with the blending barrel resets, the elasticity dictyosome no longer offseted with the push rod, the elasticity dictyosome that takes place deformation before resets and shakes, in the multiple oscillation of mixing intracavity for the cutting effect to hydrogen bubble in the blending barrel, and then improve the cutting crushing efficiency to hydrogen bubble, accelerate hydrogen-rich water's preparation efficiency.

Drawings

FIG. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a schematic view of the external structure of the positioning frame of the present invention;

FIG. 4 is a partially enlarged structural view of the portion A in FIG. 3 according to the present invention;

FIG. 5 is a first schematic structural diagram of an intake pipe according to the present invention;

FIG. 6 is a second schematic structural view of an intake duct of the present invention;

FIG. 7 is a schematic view of the positioning frame of the present invention;

FIG. 8 is a schematic cross-sectional view of a mixing tub of the present invention;

FIG. 9 is an enlarged view of a portion of portion B of FIG. 8 according to the present invention;

FIG. 10 is a schematic view of an unstressed cutting web of the present invention;

FIG. 11 is a schematic view of the structure of the cutting net plate of the present invention when being stressed.

In the figure: 1. a base; 2. a vertical plate; 201. a fixed bevel gear; 3. a positioning frame; 4. a stirring rod; 401. a worm; 402. a breaking bar; 4021. a push rod; 403. an air outlet; 5. a mixing barrel; 501. cutting the screen plate; 5011. an outer ring body; 5012. an inner ring body; 5013. an elastic net body; 502. a movable plate; 503. an elastic element; 504. a water inlet pipe; 505. a water outlet pipe; 6. an air inlet pipe; 601. a first air pipe; 602. a second air pipe; 603. sealing the shell; 7. a drive motor; 701. a drive shaft; 7011. an air intake; 8. a support plate; 801. a transmission rod; 8011. a moving bevel gear; 9. an ear plate; 901. a rotating shaft; 9011. a worm gear; 902. a first connecting plate; 903. a second connecting plate; 10. a synchronizing wheel; 11. a hydrogen tank; 12. and a control valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 7 and fig. 8, a functional hydrogen-rich water generates system, which comprises a base 1, be provided with riser 2 on the base 1, be provided with rotating assembly on the riser 2, the last locating rack 3 that is connected with of rotating assembly, it is provided with puddler 4 to rotate on the locating rack 3, puddler 4 outside cover is equipped with blending tank 5, be provided with the vibration subassembly in the blending tank 5, be provided with between blending tank 5 and the rotary mechanism and pass the subassembly, it links to each other with puddler 4 to pass the subassembly, and be provided with on the locating rack 3 and be used for driving the rotatory drive mechanism of puddler 4, puddler 4 is external to have the subassembly that admits air.

Specifically, when preparing hydrogen-rich water, after being filled with the pure water in the blending barrel 5, pour into hydrogen in the blending barrel 5 through the subassembly that admits air afterwards, hydrogen rises to the upside from the downside after getting into the blending barrel 5, control the rotating assembly operation, make the rotating assembly drive the upset of locating rack 3, puddler 4 carries out crushing work to hydrogen bubble under drive mechanism's drive, locating rack 3 drives blending barrel 5 upset through puddler 4, make the upside arranged in turn in bottom and the top of blending barrel 5, the inside hydrogen bubble of blending barrel 5 of upset remains the state that rises throughout, and then make hydrogen bubble reciprocating motion in blending barrel 5, be convenient for puddler 4 to its abundant breakage, guarantee its crushing effect, and at the in-process of blending barrel 5 upset, the work of oscillating subassembly, make the water in blending barrel 5 make a round trip to oscillate when the blending barrel 5 overturns along with locating rack 3, be convenient for beat hydrogen into nanometer bubble, further accelerate the integration of water and hydrogen, improve the area of hydrogen and the pure water, thereby improve the hydrogen capacity of dissolving.

Example 2:

referring to fig. 1 and 2, in addition to embodiment 1, the functional hydrogen-rich water generating system further includes a rotating assembly including a driving motor 7 fixed on the vertical plate 2, an output end of the driving motor 7 penetrates through the vertical plate 2 and is connected to a driving shaft 701, and the driving shaft 701 is fixedly connected to the positioning frame 3.

Specifically, by controlling the operation of the driving motor 7, the output end of the driving motor 7 drives the positioning frame 3 to rotate through the driving shaft 701, so that the mixing barrel 5 connected with the positioning frame 3 is turned over.

Example 3:

referring to fig. 1, 2, 3 and 4, in addition to embodiment 2, the transmission mechanism includes a support plate 8 fixedly disposed on the outer side of the positioning frame 3, a transmission rod 801 is rotatably disposed on the support plate 8, synchronizing wheels 10 are disposed on the transmission rod 801 and the stirring rod 4, a belt is disposed between the two synchronizing wheels 10, the transmission mechanism further includes a movable bevel gear 8011 fixedly disposed on the transmission rod 801, and a fixed bevel gear 201 engaged with the movable bevel gear 8011 is disposed on the vertical plate 2.

Specifically, the positioning frame 3 rotates along with the rotation of the driving shaft 701, the supporting plate 8 drives the transmission rod 801 to move in the rotation process of the positioning frame 3, the transmission rod 801 is meshed with the fixed bevel gear 201 through the movable bevel gear 8011 when moving, the movable bevel gear 8011 drives the transmission rod 801 to rotate, the transmission rod 801 drives the stirring rod 4 to rotate through the synchronizing wheel 10 and the belt, and the stirring rod 4 is enabled to crush hydrogen bubbles in the mixing barrel 5.

Example 4:

referring to fig. 3 and 4, a functional hydrogen-rich water generating system, based on embodiment 3, further includes a pushing assembly including an ear plate 9 disposed on the positioning frame 3, a rotating shaft 901 is rotatably disposed on the ear plate 9, a first connecting plate 902 is disposed on the rotating shaft 901, a second connecting plate 903 is rotatably connected to an outer side of the first connecting plate 902, one end of the second connecting plate 903, which is far away from the first connecting plate 902, is movably connected to the mixing barrel 5 through a pin shaft, a worm wheel 9011 is disposed on the rotating shaft 901, and a worm 401 engaged with the worm wheel 9011 is disposed on the stirring rod 4.

Specifically, the stirring rod 4 drives the worm 401 to be meshed with the worm wheel 9011 on the rotating shaft 901 when rotating, so that the worm wheel 9011 drives the rotating shaft 901 to rotate, the rotating shaft 901 drives the first connecting plate 902 to rotate when rotating, the first connecting plate 902 drives the second connecting plate 903 to swing when rotating, the second connecting plate 903 drives the mixing barrel 5 to slide outside the stirring rod 4, and then the water body inside the mixing barrel 5 in the overturning process is shaken.

Example 5:

referring to fig. 7 and 8, in addition to embodiment 4, a functional hydrogen-rich water generating system further includes a crushing rod 402 disposed on the stirring rod 4, the crushing rod 402 is movably disposed in the mixing tub 5, and both upper and lower sides of the mixing tub 5 are provided with cutting mesh plates 501.

Specifically, when the stirring rod 4 rotates in the mixing barrel 5, the crushing rod 402 on the outer side of the stirring rod 4 crushes the hydrogen bubbles in the mixing barrel 5, and the hydrogen bubbles rise in the mixing barrel 5, and pass through the cutting screen plate 501, so that the cutting screen plate 501 can perform cutting and breaking work on the hydrogen bubbles again, thereby ensuring the crushing effect, improving the contact area between hydrogen and purified water and improving the hydrogen dissolving amount.

Example 6:

referring to fig. 8, 9, 10 and 11, in addition to example 5, a functional hydrogen-rich water generating system further includes a cutting mesh plate 501 including an outer ring 5011 fixedly connected to an inner wall of the mixing tub 5 and an inner ring 5012 slidably connected to the stirring rod 4, an elastic mesh 5013 disposed between the outer ring 5011 and the inner ring 5012, a push rod 4021 disposed on the crushing rod 402, and the push rod 4021 movably abuts against the elastic mesh 5013.

Specifically, through setting up elasticity dictyosome 5013 in mixing barrel 5, when mixing barrel 5 displaced under the effect of pushing away the subassembly, elasticity dictyosome 5013 offseted with push rod 4021 on broken pole 402, elasticity dictyosome 5013 takes place the deformation, when elasticity dictyosome 5013 resets along with mixing barrel 5 and moves, elasticity dictyosome 5013 no longer offsets with push rod 4021, the elasticity dictyosome 5013 that takes place the deformation before resets and shakes, in mixing barrel 5 short time multiple oscillation, accelerate the cutting effect to hydrogen bubble in mixing barrel 5, and then improve the cutting crushing efficiency to hydrogen bubble, accelerate the preparation efficiency of hydrogen-rich water.

Example 7:

referring to fig. 8, a functional hydrogen-rich water generating system is based on embodiment 6, and further, the oscillating assembly includes two movable plates 502 slidably connected in the mixing tub 5, a mixing cavity is formed between the two movable plates 502, an elastic element 503 is disposed between each movable plate 502 and the inner wall of the mixing tub 5, and the elastic element 503 is sleeved on the stirring rod 4.

Specifically, when driving 5 upsets of tempering tank through locating rack 3, pass the subassembly and promote tempering tank 5 and slide in the 4 outsides of puddler, the water in the mixing chamber strikes fly leaf 502 under inertia and the action of gravity, makes fly leaf 502 displacement, and then makes the water in the mixing chamber shake the shake along with the back and forth oscillation when 3 upsets of locating rack 5 along with the mixing tank, is convenient for make nanometer bubble to hydrogen for the integration of water and hydrogen.

Example 8:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, a functional hydrogen-rich water generating system, in embodiment 2, further, the air inlet assembly includes a hydrogen tank 11 fixedly disposed on the base 1, an air inlet pipe 6 is disposed between the hydrogen tank 11 and the stirring rod 4, a pump body is disposed on the air inlet pipe 6, the air inlet pipe 6 includes a first air pipe 601 connected to the hydrogen tank 11, a second air pipe 602 connected to the stirring rod 4, and a sealing shell 603 disposed between the first air pipe 601 and the second air pipe 602, the sealing shell 603 is sleeved on the outer side of the driving shaft 701, one end of the first air pipe 601, which is far away from the hydrogen tank 11, is communicated with the sealing shell 603, hollow cavities connected to the second air pipe 602 are both disposed on the driving shaft 701, air inlets 7011 for communicating the sealing shell 603 with the hollow cavities are disposed on the driving shaft 701, and air outlets 403 are disposed in the middle of the stirring rod 4.

Specifically, the control valve 12 and the pump body on the air inlet pipe 6 are controlled, hydrogen in the hydrogen tank 11 is filled into the mixing barrel 5 through the air inlet pipe 6, the hydrogen sequentially passes through the first air pipe 601, the sealing shell 603, the air inlet 7011, the driving shaft 701 and the second air pipe 602 and is finally discharged from the air outlet 403 on the stirring rod 4, and the hydrogen is discharged from the air outlet 403 to form bubbles which rise from bottom to top in the mixing cavity.

Example 9:

referring to fig. 1, 2 and 3, in a functional hydrogen-rich water generating system, based on embodiment 8, a water inlet pipe 504 and a water outlet pipe 505 are respectively disposed on the upper side and the lower side of a mixing barrel 5, and control valves 12 are disposed on the water inlet pipe 504, the water outlet pipe 505 and an air inlet pipe 6.

Specifically, through opening the control valve 12 on inlet tube 504 and the outlet pipe 505, let in the mixing chamber in the mixing tank 5 with the pure water through inlet tube 504, the air in the mixing tank 5 can be discharged through outlet pipe 505 under the extrusion of pure water this moment, can close the control valve 12 on inlet tube 504 and the outlet pipe 505 after being filled with the pure water in the mixing tank 5, in order to guarantee to be filled with the pure water in the mixing tank 5, control valve 12 and the pump body on the control intake pipe 6, fill into hydrogen in to the mixing tank 5 through intake pipe 6.

The invention also discloses a use method of the functional hydrogen-rich water generation system, which comprises the following steps:

s1: by opening the control valves 12 on the water inlet pipe 504 and the water outlet pipe 505, purified water is introduced into the mixing cavity in the mixing barrel 5 through the water inlet pipe 504, at the moment, air in the mixing barrel 5 is extruded by the purified water and is discharged through the water outlet pipe 505, after the mixing barrel 5 is filled with the purified water, the control valves 12 on the water inlet pipe 504 and the water outlet pipe 505 can be closed, so that the mixing barrel 5 is ensured to be filled with the purified water, the control valve 12 and the pump body on the air inlet pipe 6 are controlled, and hydrogen is filled into the mixing barrel 5 through the air inlet pipe 6;

s2: after hydrogen enters the mixing barrel 5, the hydrogen rises from the bottom to the upper side, the operation of the driving motor 7 is controlled, the output end of the driving motor 7 drives the positioning frame 3 to turn through the driving shaft 701, the positioning frame 3 drives the mixing barrel 5 to turn, the bottom and the top of the mixing barrel 5 are placed on the upper side in turn, the positioning frame 3 drives the movable bevel gear 8011 on the transmission rod 801 to be meshed with the fixed bevel gear 201 on the vertical plate 2 when turning, the transmission rod 801 drives the stirring rod 4 to rotate through the synchronizing wheel 10 and the belt, the stirring rod 4 drives the crushing rod 402 to rotate in the mixing barrel 5, the crushing rod 402 crushes hydrogen bubbles moving from bottom to top, the rising hydrogen bubbles are cut and crushed again when passing through the cutting mesh plate 501, and the contact area of the hydrogen and the purified water is increased;

s3: after the hydrogen bubbles rise to the top from the bottom of the mixing barrel 5, the positioning frame 3 drives the mixing barrel 5 to turn and incline, so that the bottom of the mixing barrel 5 is positioned at the upper side, the top of the mixing barrel is positioned at the lower side of the device, and the hydrogen bubbles which rise to the top of the mixing barrel 5 rise to the bottom of the mixing barrel 5 which is positioned at the upper side again, in the process, the movable hydrogen bubbles are crushed by the crushing rod 402, and the rising hydrogen bubbles are cut and crushed again when passing through the cutting screen plate 501;

s4: when locating rack 3 drove 5 upsets of mixing tank, the subassembly that pushes away promotes mixing tank 5 and slides in the 4 outsides of puddler, and the water in the hybrid chamber strikes fly leaf 502 under inertia and action of gravity, makes fly leaf 502 displacement, and then makes the water of hybrid chamber make a round trip to oscillate when 5 upsets along with locating rack 3 at mixing tank, makes the nanometer bubble to hydrogen for the integration of water and hydrogen.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a functional hydrogen-rich water generates system, includes base (1), its characterized in that, be provided with riser (2) on base (1), be provided with rotating assembly on riser (2), last locating rack (3) of being connected with of rotating assembly, it is provided with puddler (4) to rotate on locating rack (3), puddler (4) outside cover is equipped with blending bunker (5), be provided with the oscillation subassembly in blending bunker (5), be provided with between blending bunker (5) and the rotary mechanism and pass the subassembly, it links to each other with puddler (4) to pass the subassembly, just be provided with on locating rack (3) and be used for driving the rotatory drive mechanism of puddler (4), puddler (4) external subassembly of admitting air.

2. A functional hydrogen-rich water generating system according to claim 1, characterized in that the rotating assembly comprises a driving motor (7) fixed on the vertical plate (2), the output end of the driving motor (7) passes through the vertical plate (2) and is connected with a driving shaft (701), and the driving shaft (701) is fixedly connected with the positioning frame (3).

3. A functional hydrogen-rich water generating system according to claim 2, characterized in that the transmission mechanism comprises a support plate (8) fixed outside the positioning frame (3), the support plate (8) is provided with a transmission rod (801) in a rotating manner, the transmission rod (801) and the stirring rod (4) are provided with synchronizing wheels (10), a belt is arranged between the two synchronizing wheels (10), the transmission mechanism further comprises a movable bevel gear (8011) fixed on the transmission rod (801), and the vertical plate (2) is provided with a fixed bevel gear (201) engaged with the movable bevel gear (8011).

4. A functional hydrogen-rich water generating system according to claim 3, characterized in that the pushing assembly comprises an ear plate (9) disposed on the positioning frame (3), the ear plate (9) is rotatably provided with a rotating shaft (901), the rotating shaft (901) is provided with a first connecting plate (902), a second connecting plate (903) is rotatably connected to the outer side of the first connecting plate (902), one end of the second connecting plate (903) far away from the first connecting plate (902) is movably connected with the mixing barrel (5) through a pin shaft, the rotating shaft (901) is provided with a worm gear (9011), and the stirring rod (4) is provided with a worm (401) engaged with the worm gear (9011).

5. A functional hydrogen-rich water generating system according to claim 4, characterized in that the stirring rod (4) is provided with a breaking rod (402), the breaking rod (402) is movably arranged in the mixing barrel (5), and the mixing barrel (5) is provided with cutting mesh plates (501) at the upper and lower sides.

6. A functional hydrogen-rich water generating system as claimed in claim 5, characterized in that the cutting mesh plate (501) comprises an outer ring body (5011) fixedly connected with the inner wall of the mixing tub (5) and an inner ring body (5012) slidably connected with the stirring rod (4), an elastic mesh body (5013) is arranged between the outer ring body (5011) and the inner ring body (5012), a push rod (4021) is arranged on the crushing rod (402), and the push rod (4021) is movably abutted against the elastic mesh body (5013).

7. A functional hydrogen-rich water generating system according to claim 6, characterized in that the oscillating assembly comprises two movable plates (502) slidably connected in the mixing tub (5), a mixing cavity is formed between the two movable plates (502), an elastic element (503) is arranged between each movable plate (502) and the inner wall of the mixing tub (5), and the elastic element (503) is sleeved on the stirring rod (4).

8. The system for generating functional hydrogen-rich water according to claim 2, wherein the air intake assembly comprises a hydrogen tank (11) fixedly arranged on the base (1), an air intake pipe (6) is arranged between the hydrogen tank (11) and the stirring rod (4), a pump body is arranged on the air intake pipe (6), the air intake pipe (6) comprises a first air pipe (601) connected with the hydrogen tank (11), a second air pipe (602) connected with the stirring rod (4), and a sealing shell (603) arranged between the first air pipe (601) and the second air pipe (602), the sealing shell (603) is sleeved outside the driving shaft (701), one end of the first air pipe (601) far away from the hydrogen tank (11) is communicated with the sealing shell (603), the driving shaft (701) and the stirring rod (4) are both provided with a hollow cavity connected with the second air pipe (602), the sealing shell (701) is provided with an air inlet hole (7011) for communicating the hollow cavity with the sealing shell (603), and an outlet hole (403) is formed in the middle of the stirring rod (4).

9. The functional hydrogen-rich water generating system of claim 8, wherein the mixing barrel (5) is provided with a water inlet pipe (504) and a water outlet pipe (505) at the upper side and the lower side, and the water inlet pipe (504), the water outlet pipe (505) and the air inlet pipe (6) are provided with control valves (12).

10. A method of using a functional hydrogen-rich water generating system of any of claims 1-9, comprising the steps of:

s1: the purified water is introduced into a mixing cavity in the mixing barrel (5) through the water inlet pipe (504) by opening the control valves (12) on the water inlet pipe (504) and the water outlet pipe (505), at the moment, the air in the mixing barrel (5) can be discharged through the water outlet pipe (505) under the extrusion of the purified water, after the mixing barrel (5) is filled with the purified water, the control valves (12) on the water inlet pipe (504) and the water outlet pipe (505) can be closed, so that the mixing barrel (5) is ensured to be filled with the purified water, the control valve (12) and a pump body on the air inlet pipe (6) are controlled, and the hydrogen is filled into the mixing barrel (5) through the air inlet pipe (6);

s2: the hydrogen enters the mixing barrel (5) and then rises from the bottom to the upper side, the operation of the driving motor (7) is controlled, the output end of the driving motor (7) drives the positioning frame (3) to turn over through the driving shaft (701), the positioning frame (3) drives the mixing barrel (5) to turn over, the bottom and the top of the mixing barrel (5) are placed on the upper side in turn, the positioning frame (3) drives the movable bevel gear (8011) on the transmission rod (801) to be meshed with the fixed bevel gear (201) on the vertical plate (2) when turning over, the transmission rod (801) drives the stirring rod (4) to rotate through the synchronous wheel (10) and the belt, the stirring rod (4) drives the crushing rod (402) to rotate in the mixing barrel (5), the crushing rod (402) crushes the hydrogen bubbles moving from bottom to top, and the rising hydrogen bubbles are cut and crushed again when passing through the cutting mesh plate (501), so that the contact area of the hydrogen and the purified water is increased;

s3: after the hydrogen bubbles rise to the top from the bottom of the mixing barrel (5), the positioning frame (3) drives the mixing barrel (5) to turn and incline, so that the bottom of the mixing barrel (5) is positioned at the upper side, the top of the mixing barrel is positioned at the lower side of the device, and then the hydrogen bubbles which rise to the top of the mixing barrel (5) rise to the bottom of the mixing barrel (5) which is positioned at the upper side again, in the process, the movable hydrogen bubbles are crushed by the crushing rod (402), and the rising hydrogen bubbles are cut and crushed again when passing through the cutting screen plate (501);

s4: when locating rack (3) drive mixing drum (5) upset, pass the subassembly and promote mixing drum (5) and slide in puddler (4) outside, the water in the mixing chamber strikes fly leaf (502) under inertia and action of gravity, makes fly leaf (502) displacement, and then makes the water of mixing chamber make a round trip to oscillate when mixing drum (5) overturn along with locating rack (3), makes the nanometer bubble to hydrogen for the integration of water and hydrogen.

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