CN114403672B

CN114403672B - Hydrogen-rich fruit juice glass

Info

Publication number: CN114403672B
Application number: CN202210108029.6A
Authority: CN
Inventors: 戴宇; 徐炳祥; 李炜
Original assignee: Yangtze River Delta Healthy Agriculture Research Institute Zhejiang Co ltd
Current assignee: Yangtze River Delta Healthy Agriculture Research Institute Zhejiang Co ltd
Priority date: 2022-01-28
Filing date: 2022-01-28
Publication date: 2023-07-04
Anticipated expiration: 2042-01-28
Also published as: CN114403672A

Abstract

According to the hydrogen-rich fruit juice cup, the inner container is arranged in the cup body, the space between the cup body and the inner container is an isolated space, the base is fixedly arranged between the bottom of the inner container and the bottom wall of the isolated space, the bottom of the inner container is also provided with the cavity, the inner container is internally provided with the regulating plate capable of sliding up and down, the air bag is fixedly arranged between the bottom of the regulating plate and the bottom wall of the cavity, and the cavity is internally provided with the hydrogen generator.

Description

Hydrogen-rich fruit juice glass

Technical Field

The invention relates to the related field of water cups, in particular to a hydrogen-rich fruit juice cup.

Background

The juice becomes a favorite beverage for many people in modern life, but the juice is very easy to oxidize and has poor taste, so the juice is difficult to preserve for a long time, can only be drunk at present, and can not meet the portable requirements of people who like to drink the juice. The hydrogen-rich water is rich in hydrogen, so that the oxidation effect can be effectively reduced, the fruit juice prepared from the hydrogen-rich water can be well subjected to oxidation protection, the preservation time of the fruit juice can be improved, the taste of the fruit juice can be ensured, the oxidation resistance of the body of a drinker can be improved, the hydrogen-rich fruit juice cup in the prior art can only simply utilize the fruit juice to generate hydrogen, the hydrogen production capacity of hydrogen production equipment is easy to reduce, the hydrogen production effect is poor, the fruit juice can have higher temperature after being squeezed, the high temperature can lead to the reduction of the solubility of the hydrogen, and the hydrogen is easy to volatilize, so that a great amount of hydrogen is lost and wasted along with the continuous opening of the fruit juice cup for drinking, and further the hydrogen is required to be continuously generated, so that the use effect is poor.

Disclosure of Invention

The invention aims to provide a hydrogen-rich fruit juice glass which solves the problems.

The technical aim of the invention is realized by the following technical scheme: the utility model provides a hydrogen-rich fruit juice glass, includes cup and bowl cover, be provided with the inner bag in the cup, the cup with space between the inner bag is the isolated space, be equipped with the base between inner bag bottom and the isolated space diapire, the base top also with the inner bag bottom has offered the cavity jointly, be equipped with the regulating plate that can slide from top to bottom in the inner bag, be fixed with the gasbag between regulating plate bottom and the cavity diapire, install hydrogen generator in the cavity, be connected with first trachea in the inner wall of cup top, first trachea downwardly extending and with the base lateral wall is connected, the air vent has been offered to the base side, gasbag gas pocket department is connected with the second trachea, be equipped with pumping mechanism in the base, pumping mechanism can with hydrogen gas that hydrogen generator produced is as required first trachea, the air vent with in the second trachea, simultaneously also can carry out arbitrary orientation between the two of first trachea, the air vent, the second trachea is taken out;

the inner container and the outer circular surface of the base are sleeved with a sliding partition board in a sliding mode, the sliding partition board can divide the isolated space into two mutually isolated spaces, the isolated space is located on one side, facing the cup opening of the cup body, of the sliding partition board and is a vacuum space, the isolated space is located on the other side of the sliding partition board and is communicated with the vent hole, a rope winding and unwinding mechanism is arranged in the base, a pull rope is arranged in the rope winding and unwinding mechanism, the pull rope is fixedly connected with the bottom of the sliding partition board, and the sliding partition board can be pulled to slide by tensioning the pull rope, so that the vacuum space is increased;

a first water inlet pipe and a second water inlet pipe are connected to the water inlet of the hydrogen production machine, one end of the first water inlet pipe penetrates through the adjusting plate and is fixedly connected, and the second water inlet pipe extends upwards from the outside of the base to the top of the cup body;

the fruit juice cup is characterized in that a control module and a power supply module are arranged in the base, the control module is used for controlling the operation of the whole fruit juice cup, the power supply module is used for supplying power, and a temperature measuring module and a pressure measuring module are arranged in the liner and used for monitoring the temperature and the air pressure in the liner.

Preferably, the first water inlet pipe, the regulating plate and the hydrogen production machine are connected with hard pipes at two ends and corrugated pipes in the middle.

Preferably, the base is made of a heat insulation material, the second water inlet pipe and the first air pipe are both coated with heat insulation layers, the heat insulation layers penetrate through the sliding partition plates, and the sliding partition plates are sealed with the inner wall of the isolated space, the inner container, the base and the outer contact part of the adjusting plate through sealing gaskets.

Preferably, the hydrogen outlet of the hydrogen production machine is connected with a hydrogen pipe, the oxygen outlet of the hydrogen production machine is connected with an oxygen pipe, the outlet end of the oxygen pipe is communicated with the bottom of the cup body, and the first air pipe, the vent hole and the second air pipe are uniformly divided into two parts.

Preferably, the air extraction mechanism is including setting up the air exhauster in the base, the air exhauster side is equipped with the regulation chamber, air exhauster air inlet and gas outlet all are connected with and extend to the third trachea in the regulation chamber, it all is provided with rotatable carousel to adjust the intracavity both sides, both sides third trachea tip all with the homonymy the centre of a circle position of carousel circular side offsets, be fixed with the cover on the carousel and establish the sealing washer of third trachea periphery, the carousel is kept away from regulation chamber one side is fixed with the sealing disk, the carousel with it has the intercommunicating pore to run through jointly in the sealing disk, hydrogen pipe and first trachea with one of them branch of second trachea is annular array and offsets with one side the sealing disk is kept away from carousel one side, first trachea the air vent with another branch of second trachea is annular array and offsets with the other side the sealing disk is kept away from carousel one side, be equipped with respectively in the regulation chamber both sides lateral wall drive both sides sealing disk pivoted control motor.

Preferably, the rope winding and unwinding mechanism comprises winding and unwinding cavities arranged on two sides in the base, winding and unwinding wheels are respectively arranged in the winding and unwinding cavities on two sides, and the pull ropes are respectively wound on the winding and unwinding wheels on two sides.

Preferably, one end of the retractable wheel is fixed with a worm wheel, one side of the worm wheel is meshed with a worm, the worm is rotatably mounted between two side walls of the retractable cavity, and power equipment for synchronously driving the two sides to rotate is fixedly arranged between the retractable cavity.

Preferably, a rope through hole is formed in one outward side of the winding and unwinding cavity, and the rope through hole facilitates winding and unwinding of the pull rope.

Preferably, a first valve body is arranged at the joint of the second water inlet pipe and the hydrogen production machine, a second valve body is arranged at the joint of the first water inlet pipe and the regulating plate, and a heater is arranged at the branch of one end of the first gas pipe in the base.

Preferably, the control module comprises a controller disposed within the base for controlling the operation of the entire juice glass.

Preferably, the power supply module comprises a storage battery fixedly arranged at the bottom of the base, and a charging port penetrating through the bottom of the cup body is arranged at the bottom of the storage battery.

Preferably, the first air pipe top with the inside intercommunication department of inner bag is provided with the filter screen, the filter screen can separate water and allow air to pass through, the cup body top and communicate in the water filling mouth has been seted up to second inlet tube top, be provided with the stopper in the water filling mouth.

Preferably, a sealing plug plugged into the opening of the cup body is arranged on the cup cover, and the sealing plug is higher than the position where the first air pipe is connected with the inside of the cup body.

Preferably, the temperature measuring module comprises a temperature detector fixedly arranged in the inner container, the pressure measuring module comprises an air pressure detector fixedly arranged at the inner top of the inner container, and the temperature detector and the air pressure detector are both in data connection with the controller.

Preferably, a control panel is arranged outside the cup body, and the control panel is in data connection with the controller.

In summary, the invention has the following beneficial effects:

1. when the fruit juice is stored, the air in the cup can be discharged, then the hydrogen is supplemented into the fruit juice after the cup is sealed, so that the purity of the hydrogen in the cup is greatly improved, the content of the gaseous oxygen in the cup is reduced, the oxidization rate of the fruit juice is reduced, the hydrogen pressure in the cup can be regulated according to different temperatures in the cup, the hydrogen content in the fruit juice is ensured, the antioxidation protection of the fruit juice is greatly improved, and when a drinker drinks the fruit juice, the fruit juice is rich in hydrogen, so that the protection effect on a human body is improved;

2. according to the invention, the temperature can be adaptively adjusted according to the requirements of the preservation temperatures of different fruit juices, when the temperature in the cup is too high, the stored hydrogen is used for carrying out heat transfer between the cup body and the inner container so as to further carry out heat dissipation, the heat dissipation speed can be adjusted by adjusting the contact area between the hydrogen and the inner container, when the temperature in the cup is too high, the hydrogen can be heated when being input into the inner container so as to further heat the fruit juice, and more use requirements are met;

3. before drinking, the invention can extract the hydrogen in the inner container, avoid the waste of the hydrogen, after drinking and resealing the cover, the hydrogen can be reinfused into the inner container, ensure that the juice can be rich in hydrogen each time when drinking, and can extract and preserve the hydrogen in the inner container after drinking the juice, thereby being convenient for later use, not only avoiding the waste of the hydrogen, but also directly extracting the stored hydrogen for use when using next time, and improving the use efficiency;

4. the invention can directly load purified water, when the purified water is loaded, the purified water can be directly used for preparing hydrogen, the use of water stored in the second water inlet pipe is reduced, the water in the inner container can be supplemented into the second water inlet pipe, the number of times of manually adding water into the second water inlet pipe is greatly reduced, the convenience of use is improved, the stored hydrogen can be effectively utilized for rapidly preparing the purified water in the cup into hydrogen-rich water, the hydrogen-rich water can be directly drunk, the hydrogen-rich water can also be used for preparing fruit juice, the use is very convenient, and the invention can also be used for using tea water and drinks.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the internal structure of an embodiment of the present invention;

FIG. 2 is a schematic perspective cross-sectional view of a first internal structure of an embodiment of the present invention;

FIG. 3 is a schematic perspective cross-sectional view of a second internal structure of an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure at B in FIG. 4 according to an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a first view of the portion of the structure of FIG. 5 according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a second view of the portion of the structure of FIG. 5 according to an embodiment of the present invention;

FIG. 8 is a schematic view illustrating the structure of the C-C direction in FIG. 4 according to an embodiment of the present invention;

fig. 9 is an enlarged schematic view of the structure at D in fig. 1 according to an embodiment of the present invention.

In the figure: 11. a cup body; 12. an inner container; 13. isolating the space; 14. a base; 15. a cavity; 16. an adjusting plate; 17. an air bag; 18. a hydrogen production machine; 19. a first air tube; 20. a vent hole; 21. a second air pipe; 22. a sliding partition; 23. a pull rope; 24. a first water inlet pipe; 25. a second water inlet pipe; 26. a thermal insulation layer; 27. a hydrogen pipe; 28. an oxygen pipe; 29. an air extractor; 30. a regulating chamber; 31. a third air pipe; 32. a turntable; 33. a seal ring; 34. a sealing plate; 35. a communication hole; 36. controlling a motor; 37. a retraction cavity; 38. a retractable wheel; 39. a worm wheel; 40. a worm; 41. a power plant; 42. a rope hole; 43. a first valve body; 44. a second valve body; 45. a heater; 46. a controller; 47. a storage battery; 48. a charging port; 49. a filter screen; 50. a water supplementing port; 51. a plug; 52. a cup cover; 53. a sealing plug; 54. a temperature detector; 55. an air pressure detector; 56. and a control panel.

Detailed Description

The hydrogen-rich fruit juice cup comprises a cup body 11 and a cup cover 52, wherein an inner container 12 is arranged in the cup body 11, a space between the cup body 11 and the inner container 12 is an isolated space 13, a base 14 is fixedly arranged between the bottom of the inner container 12 and the bottom wall of the isolated space 13, a cavity 15 is formed in the top of the base 14 and the bottom of the inner container 12 together, an adjusting plate 16 capable of sliding up and down is arranged in the inner container 12, an air bag 17 is fixed between the bottom of the adjusting plate 16 and the bottom wall of the cavity 15, a hydrogen making machine 18 is arranged in the cavity 15, a first air pipe 19 is connected in the inner wall of the top of the cup body 11, the first air pipe 19 extends downwards and is connected with the side wall of the base 14, a vent hole 20 is formed in the side edge of the base 14, a second air pipe 21 is connected with the air hole of the air bag 17, and an air pumping mechanism is arranged in the base 14 and can pump hydrogen generated by the air pumping machine 18 into the first air pipe 19 and the vent 20 and the second air pipe 21 as required, and the vent 21 can be pumped into any direction between the first air pipe 19 and the second air pipe 21 and the vent 20 at any direction;

the liner 12 and the outer circular surface of the base 14 are sleeved with a sliding partition 22 in a sliding manner, the sliding partition 22 can divide the isolation space 13 into two mutually isolated spaces, the isolation space 13 is located at one side of the sliding partition 22 towards the cup opening of the cup body 11 and is a vacuum space, the isolation space 13 is located at the other side of the sliding partition 22 and is communicated with the vent hole 20, a rope winding and unwinding mechanism is arranged in the base 14, a pull rope 23 is arranged in the rope winding and unwinding mechanism, the pull rope 23 is fixedly connected with the bottom of the sliding partition 22, and the sliding partition 22 can be pulled to slide by tensioning the pull rope 23, so that the vacuum space is increased;

a first water inlet pipe 24 and a second water inlet pipe 25 are connected to the water inlet of the hydrogen production machine 18, one end of the first water inlet pipe 24 penetrates through the adjusting plate 16 and is fixedly connected, and the second water inlet pipe 25 extends upwards from the outside of the base 14 to the top of the cup body 11;

the base 14 is internally provided with a control module and a power supply module, the control module is used for controlling the operation of the whole juice glass, the power supply module is used for supplying power, and the liner 12 is internally provided with a temperature measuring module and a pressure measuring module for monitoring the temperature and the air pressure in the liner 12.

Advantageously, the first inlet pipe 24 is connected to the regulator plate 16 and to the hydrogen production machine 18 by a rigid pipe at both ends and a bellows in the middle.

Advantageously, the outside of the base 14 is made of a heat insulation material, the outside of the second water inlet pipe 25 and the outside of the first air pipe 19 are both coated with a heat insulation layer 26, the heat insulation layer 26 passes through the sliding partition 22, and the contact parts between the sliding partition 22 and the inner wall of the insulation space 13, the inner container 12, the base 14 and the outside of the adjusting plate 16 are all sealed by sealing gaskets.

Advantageously, the hydrogen outlet of the hydrogen production machine 18 is connected with a hydrogen pipe 27, the oxygen outlet of the hydrogen production machine 18 is connected with an oxygen pipe 28, the outlet end of the oxygen pipe 28 is communicated with the bottom of the cup body 11, and the first air pipe 19, the vent hole 20 and the second air pipe 21 are uniformly divided into two parts.

The air extraction mechanism comprises an air extractor 29 arranged in the base 14, an adjusting cavity 30 is arranged on the side edge of the air extractor 29, a third air pipe 31 extending into the adjusting cavity 30 is connected with an air inlet and an air outlet of the air extractor 29, rotatable turntables 32 are arranged on two sides in the adjusting cavity 30, the end parts of the third air pipe 31 on the two sides are abutted against the circle center part of the circular side surface of the turntables 32 on the same side, a sealing ring 33 sleeved on the periphery of the third air pipe 31 is fixed on the turntables 32, a sealing disc 34 is fixed on one side, far away from the adjusting cavity 30, of the turntables 32, a communication hole 35 is jointly penetrated in the sealing disc 34, the hydrogen pipe 27, the first air pipe 19, the vent hole 20 and one of the second air pipe 21 are in annular array and abutted against one side, far away from the turntables 32, of the sealing disc 34, of the other branch of the first air pipe 19, the vent hole 20 and the second air pipe 21 is in annular array and abuts against one side, far away from the sealing disc 34, of the motor 34, and two sides of the sealing disc 34 are respectively driven by the motor 34 to rotate, and the two sides of the sealing disc 34 are respectively.

Advantageously, the rope winding and unwinding mechanism comprises winding and unwinding cavities 37 arranged at two sides in the base 14, winding and unwinding wheels 38 are rotatably arranged in the winding and unwinding cavities 37 at two sides, and the pull ropes 23 are respectively wound on the winding and unwinding wheels 38 at two sides.

Advantageously, one end of the retractable wheel 38 is fixed with a worm wheel 39, one side of the worm wheel 39 is meshed with a worm 40, the worm 40 is rotatably mounted between two side walls of the retractable cavity 37, and a power device 41 for synchronously driving the two side worms 40 to rotate is fixedly arranged between the retractable cavity 37.

Advantageously, a rope through hole 42 is formed on an outward side of the winding and unwinding cavity 37, and the rope through hole 42 facilitates winding and unwinding of the pull rope 23.

Advantageously, a first valve body 43 is installed at the connection between the second water inlet pipe 25 and the hydrogen production machine 18, a second valve body 44 is installed at the connection between the first water inlet pipe 24 and the adjusting plate 16, and a heater 45 is installed at the branch of one end of the first air pipe 19 located in the base 14.

Advantageously, the control module includes a controller 46 disposed within the base 14, the controller 46 being configured to control the operation of the entire juice glass.

Advantageously, the power supply module comprises a battery 47 fixedly arranged at the bottom of the base 14, the bottom of the battery 47 being provided with a charging opening 48 passing through the bottom of the cup body 11.

The filter screen 49 is arranged at the position where the top of the first air pipe 19 is communicated with the inside of the liner 12, the filter screen 49 can block water and allow air to pass through, the top of the cup body 11 is communicated with the upper part of the second water inlet pipe 25, a water supplementing port 50 is arranged, and a plug 51 is arranged in the water supplementing port 50.

Advantageously, the cover 52 is provided with a sealing plug 53 inserted into the opening of the cup body 11, and the sealing plug 53 is higher than the communication position between the first air pipe 19 and the cup body 11.

Advantageously, the temperature measuring module includes a temperature detector 54 fixedly disposed in the inner container 12, the pressure measuring module includes a pressure detector 55 fixedly disposed at the top of the inner container 12, and the temperature detector 54 and the pressure detector 55 are both in data connection with the controller 46.

Advantageously, a control panel 56 is provided externally to the cup body 11, the control panel 56 being in data connection with the controller 46.

The application method of the invention comprises the following steps:

the initial state is as follows: the sliding partition plate 22 is positioned below the liner 12, the part of the isolation space 13 above the sliding partition plate 22 is in a vacuum state, the part of the isolation space 13 below the sliding partition plate 22 stores hydrogen, and the regulating plate 16 is positioned at the bottommost part in the liner 12.

When in use, the cup cover 52 is opened, the plug 51 is taken out, water is injected into the water supplementing port 50, the water flows into the second water inlet pipe 25 for storage, when the water is filled into the second water inlet pipe 25, the plug 51 is plugged into the water supplementing port 50 again, the squeezed juice is poured into the liner 12 for storage, at the moment, according to the water level of the juice in the liner 12 observed by naked eyes, the juice option is selected by operating the control panel 56, and the operation of the control panel 56 is continued, so that the controller 46 controls the two-side control motor 36 to start and drive the two-side sealing disk 34 and the rotary disk 32 to rotate, the upper communication hole 35 is communicated with one branch of the vent hole 20, the lower communication hole 35 is communicated with one branch of the second air pipe 21, at this time, the controller 46 controls the air pump 29 to start, and then the hydrogen stored in the isolation space 13 is pumped through the vent hole 20, and then the hydrogen is sequentially input into the air bag 17 through the vent hole 20, the upper communication hole 35, the third air pipe 31 at the air inlet end, the air pump 29, the third air pipe 31 at the air outlet end, the lower communication hole 35 and the second air pipe 21, at this time, the air bag 17 is inflated upwards to expand, and then the adjusting plate 16 is driven to rise, and then the water level of the juice is improved, most of the air in the inner container 12 is discharged, when the water level of the juice rises to a proper position, at this time, the juice level is adjacent to the communication position between the first air pipe 19 and the inner container 12, the air pump 29 is stopped, and at this time, the cup cover 52 seals the top of the cup body 11 again;

at this time, the temperature detector 54 detects the temperature of the juice filled in, the upper communication hole 35 is kept in communication with the branches of the vent holes 20, the controller 46 controls the lower rotary table 32 to rotate until the communication hole 35 is in communication with one branch of the first air pipe 19, at this time, the air extractor 29 is continuously started, hydrogen stored in the lower part of the isolated space 13 is pumped into the inner container 12 through the vent holes 20, the first air pipe 19 and the first air pipe 19, the air pressure detector 55 detects the air pressure until the air pressure in the inner container 12 rises to the required height, the sufficient dissolution of the hydrogen into the juice is ensured, in the process, the pressure in the inner container 12 is increased, the self-adaptive downward extrusion regulating plate 16 can be adopted, the air pressure in the air bag 17 is increased, when the hydrogen stored in the isolated space 13 is insufficient, the controller 46 controls the upper rotary table 32 to rotate until the communication hole 35 is in communication with the hydrogen pipe 27, the controller 46 controls the first valve body 43 to be opened, water in the second water inlet pipe 25 flows into the hydrogen generator 18 to produce hydrogen, the produced hydrogen is further supplied into the hydrogen generator 18 through the hydrogen pipe 27, the air extractor 29 and the air extractor 19, the air pressure in the first air pipe 19 is increased until the air pressure in the inner container 12 rises to the required height, the air pressure produced by the inner container 12 is supplied into the air inlet pipe 12, the air generator is supplied into the air chamber 12, and the air pressure is supplied into the air chamber for supplementing the hydrogen generator 12, and the air generator is further connected with the air chamber to the air generator 32 when the air is supplied to the air pressure is supplied to the air from the lower part of the air chamber, and is in communication with the air chamber 32, and the air is completely;

when the juice is required to be drunk, the controller 46 is controlled by operating the control panel 56, the upper turntable 32 is further controlled to rotate to the communication hole 35 to be communicated with the other branch of the first air pipe 19, the lower turntable 32 is controlled to rotate to the communication hole 35 to be communicated with the other branch of the air vent 20, the air extractor 29 is started, the high-pressure hydrogen in the inner container 12 is further extracted to the lower part in the isolated space 13 for storage, after the air extraction is finished, the air extractor 29 is controlled to stop, the control panel prompts that the cup cover 52 can be opened, at the moment, a user opens the cup cover 52 for drinking, and then the juice liquid level is raised to the upper limit position again according to the process;

in the above process, the temperature can be set by the control panel, when the temperature of the juice stored in the liner 12 is higher than the set value, the controller 46 controls the power equipment 41 to start, further drives the two side worms 40 to rotate synchronously, the worm 40 drives the worm wheel 39 to rotate, further drives the two side winding and unwinding wheels 38 to rotate synchronously, further releases the pull rope 23, further moves up the sliding partition 22 under the extrusion of the air pressure below, so that the hydrogen is in contact with a part of the liner 12, further the temperature on the liner 12 is transferred through the hydrogen, and radiates heat through the cup body 11, when the juice in the liner 12 radiates heat to the required temperature, the power equipment 41 is controlled to reverse, further the winding and unwinding wheels 38 are driven to wind the pull rope 23, further the sliding partition 22 is pulled down again and reset, so that the outside of the liner 12 is no longer in contact with the hydrogen and is in a vacuum area, and in the process, the contact area of the liner 12 and the hydrogen can be adjusted by adjusting the rising height of the sliding partition 22, further the radiating speed is adjusted; when the temperature of the juice stored in the inner container 12 is lower than a set value, when the hydrogen is pumped into the inner container 12 again through the first air pipe 19, the controller 46 controls the heater 45 to start heating, and then the hydrogen is heated and conveyed into the inner container 12, and the juice in the inner container 12 is heated through the heated hydrogen, so that the loss of heat in the inner container 12 after the juice is drunk can be effectively compensated, and the temperature of the juice is kept;

when the inner container 12 is required to be filled with purified water, the purified water option is selected by operating the control panel 56 at this time, then when the hydrogen production machine 18 is required to produce hydrogen, the first valve body 43 is kept closed, the controller 46 controls the second valve body 44 to be opened, purified water in the inner container 12 enters the hydrogen production machine 18 to be supplied through the first water inlet pipe 24, and if the water stored in the second water inlet pipe 25 is insufficient, the first valve body 43 can be opened to supplement the water in the first water inlet pipe 24 into the second water inlet pipe 25, so that the frequency of manually supplementing water into the second water inlet pipe 25 can be effectively reduced, the use convenience is improved, and in the lifting process of the regulating plate 16, the first water inlet pipe 24 can be self-adaptively stretched, and other use processes are the same as the above;

when the juice and the purified water are consumed, the controller 46 controls the upper rotary table 32 to rotate until the communication hole 35 is communicated with the branch of the second air pipe 21, the lower rotary table 32 rotates until the communication hole 35 is communicated with the air hole 20, the air extractor 29 is started, and the hydrogen stored in the air bag 17 is pumped into the space storing the hydrogen in the isolated space 13 for the next use by operating the control panel 56;

when the water in the hydrogen production machine 18 needs to be replaced, the first valve body 43 is controlled to be opened, the cup cover 52 is opened, the plug 51 is removed, the cup body 11 is inclined, the water replenishing port 50 is downward, the water in the hydrogen production machine 18 is discharged through the second water inlet pipe 25, and at the moment, fresh purified water is filled in the second water inlet pipe 25 again.

The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and implement it without limiting the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. The utility model provides a hydrogen-rich fruit juice cup, includes cup body and bowl cover, be provided with the inner bag in the cup body, the cup body with space between the inner bag is isolated space, its characterized in that: a base is fixedly arranged between the bottom of the inner container and the isolated space bottom wall, a cavity is formed in the inner top of the base and the bottom of the inner container, an adjusting plate capable of sliding up and down is arranged in the inner container, an air bag is fixed between the bottom of the adjusting plate and the bottom wall of the cavity, a hydrogen production machine is arranged in the cavity, a first air pipe is connected in the inner wall of the top of the cup body, the first air pipe extends downwards and is connected with the side wall of the base, an air vent is formed in the side edge of the base, a second air pipe is connected at the air hole of the air bag, an air suction mechanism is arranged in the base, and can suck hydrogen generated by the hydrogen production machine into the first air pipe, the air vent and the second air pipe as required, and simultaneously can suck air in any direction between the first air pipe, the air vent and the second air pipe.

The inner container and the outer circular surface of the base are sleeved with a sliding partition board in a sliding mode, the sliding partition board can divide the isolated space into two mutually isolated spaces, the isolated space is located on one side, facing the cup opening of the cup body, of the sliding partition board and is a vacuum space, the isolated space is located on the other side of the sliding partition board and is communicated with the vent hole, a rope winding and unwinding mechanism is arranged in the base, a pull rope is arranged in the rope winding and unwinding mechanism, and the pull rope is fixedly connected with the bottom of the sliding partition board;

the temperature measuring device comprises a base, a juice cup, a power supply module, a temperature measuring module, a pressure measuring module and a temperature and air pressure sensor, wherein the base is internally provided with the control module and the power supply module, the control module is used for controlling the operation of the whole juice cup, the power supply module is used for supplying power, and the inner container is internally provided with the temperature measuring module and the pressure measuring module and is used for monitoring the temperature and the air pressure in the inner container;

the hydrogen outlet of the hydrogen production machine is connected with a hydrogen pipe, the oxygen outlet of the hydrogen production machine is connected with an oxygen pipe, the outlet end of the oxygen pipe is communicated with the bottom of the cup body, and the first air pipe, the vent hole and the second air pipe are uniformly divided into two parts;

the air suction mechanism comprises an air suction machine arranged in the base, an adjusting cavity is arranged on the side edge of the air suction machine, a third air pipe extending into the adjusting cavity is connected with an air inlet and an air outlet of the air suction machine, rotatable rotating discs are arranged on two sides of the adjusting cavity, the end parts of the third air pipes on the two sides are propped against the circle center part of the circular side surface of the rotating disc on the same side, a sealing ring sleeved on the periphery of the third air pipe is fixed on the rotating disc, a sealing disc is fixed on one side of the rotating disc, a communication hole is jointly penetrated in the rotating disc and the sealing disc, the hydrogen pipe, the first air pipe, the vent hole and one branch of the second air pipe are in an annular array and propped against one side of the sealing disc away from the rotating disc, the first air pipe, the vent hole and the other branch of the second air pipe are in an annular array and propped against one side of the sealing disc away from the rotating disc on the other side, and control motors for driving the sealing discs on two sides are respectively arranged in the side walls of the two sides of the adjusting cavity;

the rope winding and unwinding mechanism comprises winding and unwinding cavities arranged on two sides in the base, winding and unwinding wheels are respectively arranged in the winding and unwinding cavities on two sides in a rotating mode, and the pull ropes are respectively wound on the winding and unwinding wheels on two sides;

one end of the retraction wheel is fixed with a worm wheel, one side of the worm wheel is provided with a worm in a meshed manner, the worm is rotatably arranged between two side walls of the retraction cavity, and power equipment for synchronously driving the two side worms to rotate is fixedly arranged between the retraction cavities; the rope through hole is formed in one outward side of the winding and unwinding cavity, and the rope through hole is convenient for winding and unwinding the pull rope.

2. A hydrogen enriched fruit juice glass as claimed in claim 1, wherein: the two ends of the first water inlet pipe, which are connected with the regulating plate and the hydrogen production machine, are hard pipes, and the middle part is a corrugated pipe; the base is made of heat insulation materials, the second water inlet pipe and the first air pipe are both coated with heat insulation layers, the heat insulation layers penetrate through the sliding partition plates, and the sliding partition plates are sealed with the inner wall of the isolated space, the inner container, the base and the outer contact part of the adjusting plate through sealing gaskets.

3. A hydrogen enriched fruit juice glass as claimed in claim 1, wherein: the first valve body is installed at the joint of the second water inlet pipe and the hydrogen production machine, the second valve body is installed at the joint of the first water inlet pipe and the regulating plate, and the heater is installed at the branch of one end of the first gas pipe in the base.

4. A hydrogen enriched fruit juice glass as claimed in claim 1, wherein: the control module comprises a controller arranged in the base, and the controller is used for controlling the operation of the whole juice glass.

5. A hydrogen enriched fruit juice glass as claimed in claim 1, wherein: the power supply module comprises a storage battery fixedly arranged at the bottom of the base, and a charging port penetrating through the bottom of the cup body is formed in the bottom of the storage battery.

6. The hydrogen enriched fruit juice glass as defined in claim 4, wherein: the temperature measurement module comprises a temperature detector fixedly arranged in the inner container, the pressure measurement module comprises an air pressure detector fixedly arranged at the inner top of the inner container, and the temperature detector and the air pressure detector are both in data connection with the controller.