CN109965628B

CN109965628B - Hydrogen-rich water cup with hydrogen-rich water spraying function

Info

Publication number: CN109965628B
Application number: CN201910154223.6A
Authority: CN
Inventors: 彭伟; 杨万根
Original assignee: Olansi Health Industry Co ltd
Current assignee: Olansi Health Industry Co ltd
Priority date: 2019-03-01
Filing date: 2019-03-01
Publication date: 2024-05-14
Anticipated expiration: 2039-03-01
Also published as: CN109965628A

Abstract

The invention discloses a hydrogen-rich water cup with a hydrogen-rich water spraying function, which comprises a cup cover, wherein the cup cover comprises a cup cover and a cup cover base, the cup cover is connected with the cup cover base and internally forms an atomization cavity, a water tank, a spray control module and an atomization piece are arranged in the atomization cavity, the bottom of the cup cover base is provided with a through hole A, the through hole A is communicated with the bottom of the water tank, the side surface of the cup cover base is provided with a through hole B, the through hole B is communicated with an opening on the side surface of the water tank to form a spray channel, and the atomization piece is arranged in the spray channel; the cup seat comprises a cup seat cover and a cup seat base, a hydrogen-rich cavity is formed by the cup seat cover and the cup seat base, a through hole C is formed in the cup seat cover, an electrolyzed water control module and an electrode module are arranged in the hydrogen-rich cavity, and the electrode module is positioned below the through hole C; the cup body, the cup cover and the cup seat are connected with the cup body. The hydrogen-rich water cup can continuously and stably output hydrogen-rich water spray and has high water utilization rate in the water cup in a spray mode.

Description

Hydrogen-rich water cup with hydrogen-rich water spraying function

Technical Field

The invention relates to the technical field of cup design, in particular to a hydrogen-rich cup with a hydrogen-rich water spraying function.

Background

The hydrogen-rich water contains abundant hydrogen molecules, and has health promoting, disease preventing and skin caring effects. At present, related hydrogen-rich water cup products with a spraying function are already available on the market, so that drinking water of people can increase the hydrogen content in water through the principle of hydrogen production by water electrolysis, but the spraying function of the current hydrogen-rich water is realized by connecting a manual pressing device into the water cup through a pipe, and the defect is that the spraying can be performed by manual force application and pressing; 2. because the spray is manually pressed, the output of the spray cannot be stable and continuous; 3. the spray can utilize the water of the water bottle to be influenced by the length of the pipe, and the spray form is difficult to fully utilize the water of the water bottle.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings in the prior art and provides a hydrogen-rich water cup with a hydrogen-rich water spraying function.

The invention is realized by the following technical scheme: a hydrogen-rich water cup with a hydrogen-rich water spraying function comprises

The cup cover comprises a cup cover and a cup cover base, wherein the cup cover is connected with the cup cover base and internally forms an atomization cavity, a water tank, a spray control module and an atomization sheet are arranged in the atomization cavity, the spray control module is electrically connected with the atomization sheet, a through hole A is formed in the bottom of the cup cover base and communicated with the bottom of the water tank, a through hole B is formed in the side face of the cup cover base and communicated with an opening in the side face of the water tank to form a spray channel, and the atomization sheet is arranged in the spray channel;

The cup seat comprises a cup seat cover and a cup seat base, a hydrogen-rich cavity is formed by the cup seat cover and the cup seat base, a through hole C is formed in the cup seat cover, an electrolyzed water control module and an electrode module are arranged in the hydrogen-rich cavity, the electrolyzed water control module is electrically connected with the electrode module, and the electrode module is positioned below the through hole C;

the cup body, the bowl cover is connected with the cup body, and the through-hole A of bowl cover base communicates with the cup body, and the cup body is connected with the cup seat, and the through-hole C of cup seat lid communicates with the cup body.

Further, the water tank inside direction of the through hole A is connected with a hollow column.

Further, an atomization piece gasket is arranged in the spraying channel; the atomizing piece gasket is installed and is located through-hole C side at the atomizing piece.

Further, a through hole D is formed above the water tank; a sealing cover is arranged at the position of the through hole D; the sealing cover is connected with a pressure release spring; the pressure release spring is connected with a safety valve silica gel.

Further, a through hole E is formed above the cup cover; the through hole E is communicated with the through hole D.

Further, the spray control module is electrically connected with a spray button; the spraying button is arranged on the cup cover.

Further, the spray control module is electrically connected with a light emitting diode; the cup cover is provided with an observation window.

Further, a lamp support is arranged in the hydrogen-rich cavity of the cup holder, the cup holder cover and the lamp support form an upper half cavity of the hydrogen-rich cavity, and the cup holder base and the lamp support form a lower half cavity of the hydrogen-rich cavity.

Further, the electrode module is arranged in the upper half cavity of the hydrogen-rich cavity; the electrolyzed water control module is arranged in the lower half cavity of the hydrogen-rich cavity.

Further, two screw posts are arranged on the lamp bracket; the electrolyzed water control module is electrically connected with the electrode module through a screw column.

Compared with the prior art, the hydrogen-rich water cup with the hydrogen-rich water spraying function has the following beneficial effects:

1. Continuous stable output hydrogen-rich water spraying utilizes the atomizing piece of spray control module control to spray to hydrogen-rich water intaking, releases both hands, does not need the manual work to press to reach water atomizing's effect, can stabilize output always with equivalent hydrogen-rich water spraying, can not lead to the change of spraying output because of the instability that the workman pressed, utilize the atomizing piece of spray control module control to atomize hydrogen-rich water can make the atomizing of hydrogen-rich water last always, can not appear manual work to press because the intermittent condition that the health tired appears.

2. The spray type has high utilization rate of water in the cup, the cup is turned upside down, water in the cup body can enter the water tank of the cup cover and is atomized by the atomizing sheet, and hydrogen-rich water in the cup body can be utilized by the spray type, so that waste of the hydrogen-rich water caused by insufficient utilization of the hydrogen-rich water in the cup can be avoided.

Drawings

FIG. 1 is a block diagram of a hydrogen-enriched water cup with hydrogen-enriched water spraying function of the invention;

FIG. 2 is an exploded view of a hydrogen enriched water cup with hydrogen enriched water spraying function of the present invention;

Description of the drawings: 1-a cup cover; 11-a cup lid; 111-a viewing window; 112-through hole E; 113-screw cap; 12-a cup cover base; 13-a water tank; 131-sealing cover; 132-a pressure relief spring; 133-safety valve silica gel; 14-a spray control module; 141-spray button; 142-spray light emitting diode; 15-atomizing sheets; 16-a hollow column; 17-through hole B; 171-spray cap; 18-opening of the side of the water tank; 19-atomizing sheet gaskets; 101-an atomization cell; 1011-an atomizing battery charging plate; 102-a decorative ring; 103-a water tank gasket; 2-a cup holder; 21-a cup lid; 211-through hole C; 212-titanium screw; 22-a cup base; 221-electrolysis button; 222-charging end cap; 223-cup holder gasket; 23-an electrolyzed water control module; 24-electrode module; 25-lamp holders; 251-lamp holder gasket; 252-screw column; 26-an electrolytic cell; 261-battery tabletting; 3-a cup body; 31-a cup body; 32-a cup opening gasket; 33-cup body screw.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description of specific embodiments of the present invention is given with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof.

As shown in figures 1-2, a hydrogen-rich water cup with hydrogen-rich water spraying function comprises

The cup cover 1 comprises a cup cover 11 and a cup cover base 12, wherein the cup cover 11 is connected with the cup cover base 12, a decorative ring 102 is sleeved outside the joint, the tightness of the joint is improved, an atomization cavity is formed inside the joint after the cup cover 11 is connected with the cup cover base 12, and a device for atomizing hydrogen-rich water is arranged in the atomization cavity; the atomizing cavity is internally provided with a water tank 13, an atomizing battery 101, an atomizing control module 14 and an atomizing sheet 15, the atomizing battery 101 is electrically connected with an atomizing battery charging plate 1011, and the atomizing battery charging plate 1011 is communicated with the outside of the cover; the atomizing battery 101 is electrically connected with the atomizing control module 14 to supply power to the atomizing control module 14, and the atomizing control module 14 is electrically connected with the atomizing sheet 15 to realize the control of the atomizing sheet 15, so that the atomizing sheet 15 can continuously and stably work; the spray control module 14 is electrically connected with the spray button 141 and the spray light-emitting diode 142, the spray button 141 is arranged on the surface of the cup cover 11, a user can control whether the hydrogen-rich water is atomized or not through the spray button 141, when the spray control module 14 is in a working state, the spray light-emitting diode 142 emits light, otherwise, the user can know that the spray control module 14 can be in the working state through the spray light-emitting diode 142, and can distinguish whether the water tank 13 is in the water shortage state or the spray control module 14 is in the closing state through the spray light-emitting diode 142 under the condition of no fog; the cup cover 11 is provided with an observation window 111, and the light of the spray light-emitting diode 142 can be transmitted out of the cover through the observation window 111 so as to be seen by a user, thereby being convenient for observation; the bottom of the cup cover base 12 is provided with a through hole A (not shown), the through hole A is communicated with the atomizing cavity, the through hole A is communicated with the bottom of the water tank 13, water can enter the atomizing cavity through the through hole A, and the water only enters the water tank 13 of the atomizing cavity; a water tank gasket 103 is arranged at the contact part of the water tank 13 and the cup cover base 12, so that water in the water tank 13 can be prevented from exuding; the side surface of the cup cover base 12 is provided with a through hole B17, the through hole B17 is communicated with an opening 18 on the side surface of the water tank to form a spray channel, the atomizing sheet 15 is arranged in the spray channel, water in the water tank 13 is contacted with the atomizing sheet 15 through the opening 18 on the side surface of the water tank, atomized through the atomizing sheet 15, and sprayed to the outside through the through hole B17 on the side surface of the cup cover base 12; the through hole B17 is provided with a spray cover, when the spray function is needed, the spray cover is opened, and when the spray function is not needed, the spray cover is covered, so that the atomization sheet 15 is protected from the outside when not used.

The cup holder 2, the cup holder 2 includes a cup holder cover 21 and a cup holder base 22, a cup holder gasket 223 is arranged under the cup holder base 22, which can play a role in skid resistance; the cup seat cover 21 and the cup seat base 22 form a hydrogen-rich cavity, the cup seat cover 21 is provided with a through hole C211, an electrolytic water control module 23, an electrode module 24 and an electrolytic cell 26 are arranged in the hydrogen-rich cavity, the electrolytic cell 26 is electrically connected with the electrolytic water control module 23, the electrolytic water control module 23 is electrically connected with the electrode module 24, the electrode module 24 is positioned below the through hole C211, the electrolytic module is contacted with water of a cup through the through hole C211, when the electrolytic water control module 23 controls the electrode module 24 to work, the electrode module 24 electrolyzes the water of the cup to generate hydrogen-rich water, and the principle of generating the hydrogen-rich water by the electrode module 24 for the water electrolysis is known in the art and is not described herein; the electrolytic cell 26 is arranged in the cup cover 21 through the cell pressing piece 261, so that the electrolytic cell 26 can be more stably arranged; further, the electrolysis water control module 23 is electrically connected with an electrolysis button 221 and a light emitting diode, the electrolysis button 221 is arranged on the surface of the cup base seat 22, the operation of the electrolysis water control module 23 can be controlled through the electrolysis button 221, and whether the electrolysis water control module 23 is in an operating state or not can be known through the light emitting diode; the cup base 22 is provided with a charging end cover 222, when the electrolytic cell 26 is charged, the charging end cover 222 is opened, and after charging, the charging end cover 222 is closed, so that the effects of dust prevention, water prevention and dirt prevention can be achieved.

The cup body 3 comprises a cup body 31, a cup opening gasket 32 and a cup body screw 33, wherein the cup opening gasket 32 is sleeved at the upper end of the cup body 31, so that impact force of the cup connected to the cup body 3 can be effectively buffered; a cup body screw 33 is connected to the lower part of the cup body 31, and is connected with the cup seat 2 through the cup body screw 33; the through hole A of the cup cover base 12 is communicated with the cup body 3, and the through hole C211 of the cup cover 21 is communicated with the cup body 3.

Further, the through hole a is connected with the hollow column 16, the hollow column 16 extends to the inside of the water tank 13 from the through hole a, a water collecting tank is formed by the hollow column 16 and the bottom surface and the side surface of the water tank 13, when the water cup is turned upside down to enable the cover to be downward, water in the cup body 3 enters the water tank 13 through the through hole a, at the moment, the water in the water tank 13 can be atomized directly by utilizing the atomizing sheet 15, and meanwhile, when the water tank 13 contains water, the water cup is turned from the cover downward to the cover upward by the existence of the hollow column 16, the water in the water tank 13, which is lower than the height of the hollow column 16, can be stored in the water collecting tank formed by the hollow column 16, the bottom surface and the side surface of the water tank 13, and the water cup can be atomized when being in the right state; because the water in the cup body 3 can completely enter the water tank 13 when the water cup is turned upside down, and the atomizing sheet 15 is arranged at a position which can completely exhaust and atomize the water in the water tank 13, the design can completely exhaust the water in the water tank 13.

Preferably, an atomizing sheet gasket 19 is arranged in the spraying channel, the atomizing sheet gasket 19 is arranged on the side of the through hole C211 of the atomizing sheet 15, and the atomizing sheet gasket 19 is attached to the atomizing sheet 15 and the opening 18 on the side surface of the water tank, so that the water tank 13 cannot leak water through the opening 18 on the side surface of the water tank.

Preferably, a through hole D is arranged above the water tank 13; a sealing cover 131 is arranged at the position of the through hole D; the sealing cover 131 is connected with a pressure relief spring 132, the pressure relief spring 132 is connected with a safety valve silica gel 133, the pressure relief spring 132 and the safety valve silica gel 133 are arranged in the water tank 13, the sealing cover 131, the pressure relief spring 132 and the safety valve silica gel 133 form a pressure relief device, and when atomization breaks down, the pressure in the water tank 13 can be relieved through a through hole D by the pressure relief device when the pressure in the water tank 13 is overlarge.

Further, a through hole E112 is arranged above the cup cover 11; the through hole E112 is communicated with the through hole D, a screw cap 113 is arranged at the through hole E112, the water tank 13 goes to the outside through the through hole D and the through hole E112 in sequence when pressure is released, and the screw cap 113 at the through hole E112 can be sprung out when pressure is released.

Preferably, a lamp bracket 25 is arranged in the hydrogen-rich cavity of the cup holder 2, the lamp bracket 25 is provided with a convex groove of a light emitting diode, a lamp bracket gasket 251 is arranged in the lamp bracket 25, and the impact force of the cup body 3 connected with the cup holder 2 is buffered; the cup seat cover 21 and the lamp bracket 25 are connected to form an upper half cavity of the hydrogen-rich cavity, the electrode module 24 is connected to the upper half cavity of the hydrogen-rich cavity through the titanium screw 212, and can contact water of the cup body 3 through the through hole C211 to electrolyze the water; the cup base 22 and the lamp bracket 25 are connected to form a lower half cavity of the hydrogen-rich cavity, and the electrolytic water control module 23 and the electrolytic cell 26 are arranged in the lower half cavity of the hydrogen-rich cavity, so that the electrolytic water control module 23 and the electrolytic cell 26 can be effectively and completely isolated from water through the lamp bracket 25, and the part of the circuit is effectively protected.

Further, two screw posts 252 are disposed on the lamp support 25, the screw posts 252 can conduct electricity, the electrolyzed water control module 23 and the electrode module 24 are electrically connected through the screw posts 252, and the electric connection between the electrolyzed water control module 23 and the electrode module 24 is ensured while the waterproof performance is achieved.

The present invention is not limited to the above-described implementation method, and if various modifications or variations of the present invention are not departing from the spirit and scope of the present invention, the present invention is intended to include such modifications and variations as fall within the scope of the claims and the equivalents thereof.

Claims

1. A hydrogen-rich water cup with a hydrogen-rich water spraying function is characterized in that: the water tank is connected with the cup cover base, an atomization cavity is formed in the cup cover, a water tank, an atomization control module and an atomization sheet are installed in the atomization cavity, the atomization control module is electrically connected with the atomization sheet, a through hole A is formed in the bottom of the cup cover base and communicated with the bottom of the water tank, a through hole B is formed in the side face of the cup cover base and communicated with an opening in the side face of the water tank to form an atomization channel, and the atomization sheet is installed in the atomization channel; the cup seat comprises a cup seat cover and a cup seat base, a hydrogen-rich cavity is formed by the cup seat cover and the cup seat base, a through hole C is formed in the cup seat cover, an electrolyzed water control module and an electrode module are arranged in the hydrogen-rich cavity, the electrolyzed water control module is electrically connected with the electrode module, and the electrode module is positioned below the through hole C; the cup body is connected with the cup cover, the through hole A of the cup cover base is communicated with the cup body, the cup body is connected with the cup seat, and the through hole C of the cup seat cover is communicated with the cup body;

the cup body comprises: the cup comprises a cup body, a cup opening gasket and a cup body threaded piece, wherein the cup opening gasket is sleeved at the upper end of the cup body, so that impact force of the cup connected to the cup body can be effectively buffered; the lower part of the cup body is connected with a cup body screw thread piece which is connected with the cup seat;

The hollow column is connected to the water tank inside direction of the through hole A;

An atomization piece gasket is arranged in the spraying channel; the atomizing sheet gasket is arranged on the side of the atomizing sheet, which is positioned on the through hole C;

A through hole D is formed above the water tank; a sealing cover is arranged at the position of the through hole D; the sealing cover is connected with a pressure release spring; the pressure release spring is connected with a safety valve silica gel;

a through hole E is formed above the cup cover; the through hole E is communicated with the through hole D;

The through hole A is connected with the hollow column, the hollow column extends to the inside of the water tank from the through hole A, a water collecting tank is formed on the bottom surface and the side surface of the hollow column and the water tank, when the water cup is inverted to enable the cover to face downwards, water in the cup body enters the water tank through the through hole A, at the moment, water in the water tank can be atomized directly by the atomizing piece, and meanwhile, when the water tank is provided with water, the water cup is downwards converted into the cover upwards from the cover, and water in the water tank, which is lower than the height of the hollow column, can be stored in the water collecting tank formed on the bottom surface and the side surface of the hollow column and the water tank.

2. The hydrogen-enriched water cup with a hydrogen-enriched water spraying function according to claim 1, wherein: the spray control module is electrically connected with the spray key; the spraying button is arranged on the cup cover.

3. The hydrogen-enriched water cup with the hydrogen-enriched water spraying function according to claim 2, wherein: the spray control module is electrically connected with a light emitting diode; the cup cover is provided with an observation window.

4. The hydrogen-enriched water cup with a hydrogen-enriched water spraying function according to claim 1, wherein: the lamp holder is arranged in the hydrogen-rich cavity of the cup holder, the cup holder cover and the lamp holder form an upper half cavity of the hydrogen-rich cavity, and the cup holder base and the lamp holder form a lower half cavity of the hydrogen-rich cavity.

5. The hydrogen-enriched water cup with the hydrogen-enriched water spraying function according to claim 4, wherein: the electrode module is arranged in the upper half cavity of the hydrogen-rich cavity; the electrolyzed water control module is arranged in the lower half cavity of the hydrogen-rich cavity.

6. The hydrogen-enriched water cup with the hydrogen-enriched water spraying function according to claim 5, wherein: two screw posts are arranged on the lamp bracket; the electrolyzed water control module is electrically connected with the electrode module through a screw column.