CN212687646U - Hydrogen-rich water cup for drinking water - Google Patents

Abstract

The utility model discloses a hydrogen-rich water cup for drinking water, including bowl cover, cup, hydrogen generater. The hydrogen generator is characterized by comprising a machine body, a sealing component, an electrolytic water component, an electric control component, a base plate and an anti-skid rubber mat. The electrolytic water component adopts a hydrogen and oxygen cavity separating mechanism, and can remove oxygen generated by electrolysis from the bottom while preparing high-concentration hydrogen-rich water. The used electrode is made of platinum titanium alloy material, has good conductivity, corrosion resistance, no pollution to water quality, high concentration of hydrogen-rich water and no limitation on water temperature and water quality, can use the cup body, can directly prepare the hydrogen-rich water by bottled water, and can also absorb the hydrogen by a hose. The utility model discloses simple structure, it is practical convenient, a quick-witted three way.

Description

Hydrogen-rich water cup for drinking water

Technical Field

The utility model relates to a function drinking cup technical field, concretely relates to hydrogen-rich drinking cup is used in drinking water.

Background

The hydrogen-rich water cup is a functional water cup which can prepare hydrogen and fully dissolve the hydrogen in drinking water. The water electrolysis technical principle is adopted to electrolyze water into hydrogen and oxygen, the hydrogen is dissolved in drinking water to prepare hydrogen-rich water with the hydrogen content of more than 1000ppb, and drinking the hydrogen-rich water for a long time can improve the sub-health state of a human body and has the effect of adjuvant therapy on partial diseases. Some so-called hydrogen-rich water cups appearing in the market at present do not have a cavity-separating structure, hydrogen and oxygen generated by electrolysis are mixed into drinking water, and some peroxide gas and other harmful gases enter the human body along with the drinking water, so that the health of the human body is influenced; in addition, due to the difference of the adopted electrode materials, some heavy metal elements can enter the drinking water due to corrosion, so that the water temperature and the water quality have certain limiting requirements.

Disclosure of Invention

In order to the problem, the utility model provides a hydrogen-rich drinking cup for drinking water adopts and divides chamber mechanism, in the preparation high concentration hydrogen-rich water, can get rid of produced oxygen and other harmful gas from the bottom among the electrolysis process, and the electrode adopts platinum titanium alloy material not oxidized, that corrosion resistance is strong, the effectual above-mentioned problem of having solved.

The technical scheme of the utility model is that: a hydrogen-rich water cup for drinking water comprises a cup cover, a cup body and a hydrogen generator.

The hydrogen generator comprises a machine body, a sealing assembly, an electrolytic water assembly, an electric control assembly, a base plate and an anti-skid rubber mat.

The upper part of the machine body is provided with a machine body spiral interface which is matched with a cup body sealing ring and is connected with the spiral interface at the lower part of the cup body in a rotating way; the machine body is internally provided with a cavity which is provided with a sealing component, an electrolytic water component and an electric control component; the lower part of the machine body is provided with a base plate and an anti-skid rubber mat;

the sealing assembly comprises an upper sealing gasket, a positioning plate and a lower sealing gasket, wherein the positioning plate is provided with sealing bosses at the upper edge and the lower edge of a middle round hole, four positioning piles are arranged below the positioning plate, the upper sealing gasket and the lower sealing gasket are made of latex materials, and the upper sealing gasket, the positioning plate and the lower sealing gasket are sequentially stacked and assembled at the upper end inside the machine body and have the function of preventing water in the cup body from leaking from the edge of the electrolytic water assembly;

the electrolytic water component comprises a component body, a cathode plate, a proton exchange membrane, an anode plate, a ventilation water-blocking sheet and an emulsion rubber ring. The basal bodies of the cathode plate and the anode plate are all round planes formed by pressing titanium alloy sheets, the round planes are porous, binding posts are arranged at the edges of the round planes, and platinum layers are plated on the surfaces of the cathode plate and the anode plate; the proton exchange membrane is a membrane material which only allows hydrogen ions to exchange and pass and blocks other ions from passing, and due to the existence of the proton exchange membrane, hydrogen and oxygen generated by water electrolysis are separated, the hydrogen ions lose electrons on the cathode to form hydrogen, and the oxygen ions obtain electrons on the anode to form oxygen; the ventilation water-blocking sheet is an iridium gold sheet with micro-holes, so that oxygen and other waste gas generated by the anode can pass through the ventilation water-blocking sheet, and water can be prevented from leaking downwards; the latex ring is used for sequentially overlapping a cathode plate, a proton exchange membrane, an anode plate and a ventilating and water-blocking sheet together, so that the edges of the cathode plate, the proton exchange membrane, the anode plate and the ventilating and water-blocking sheet are surrounded into a whole and are embedded in the groove of the assembly body; the middle of the assembly body is provided with a groove for embedding the electrode assembly, the two sides of the groove are provided with positioning holes of a cathode binding post and an anode binding post, a waste gas cavity is arranged below the groove, and the bottom surface of the waste gas cavity is provided with a waste gas outlet;

preferably, the body of the hydrogen generator, the positioning plate of the sealing assembly and the assembly body of the electrolyzed water assembly are all formed by injection molding of a non-toxic high polymer insulating material;

the electric control assembly comprises a switch, a lithium battery, a circuit board, a charging socket and a display lamp, wherein the switch is a closed touch switch, is arranged on the side panel of the hydrogen generator body, is switched on after being started, can be set for 3-9 minutes for producing hydrogen by electrolyzing water, and then is automatically closed; the lithium battery provides a direct current power supply for the electrolyzed water, and is fixed on the base plate; the circuit board is arranged at the lower part of the assembly body in the hydrogen generator body; the charging socket is arranged according to a standard socket and is arranged on the side panel of the hydrogen generator body, and when the electric quantity of the lithium battery is insufficient and the hydrogen generation efficiency is reduced, the lithium battery needs to be charged in time; the display lamp is arranged on the periphery of the upper part of the sealing component in the hydrogen generator; the switch, the lithium battery, the circuit board, the charging socket and the display lamp are all electrically connected;

preferably, the rated voltage of the lithium battery is 9V or 12V, and the rated electric quantity is 1000-1400 mAh;

preferably, the display lamp is an LED lamp, can display three different colors of red, green and blue, and respectively displays different colors during charging, full charging and hydrogen production;

the base plate is fixed at the lower part of the machine body by screws, a waste gas outlet is arranged on the plane of the base plate and is communicated with a waste gas outlet on the bottom surface of a waste gas cavity in the electrolytic water assembly by a waste gas guide pipe;

the anti-skid rubber mat is adhered to the lower surface of the base plate, and a waste gas outlet on the anti-skid rubber mat corresponds to a waste gas outlet on the base plate;

the cup body is made of double-layer high-boron silicon glass, screw ports are formed in the upper portion and the lower portion of the cup body, the lower portion of the cup body is screwed with the machine body screw port, and the upper portion of the cup body is screwed with the cup cover.

Furthermore, the cup body can be replaced by a bottled water adapter, the lower part of the bottled water adapter is a lower screw socket which is screwed with the screw socket of the machine body, and the upper part of the bottled water adapter is provided with an upper screw socket which can be screwed with the bottle mouth of the bottled water, so that the direct preparation of hydrogen-rich water by using standard bottled water can be realized;

further, the upper screw of the bottled water adapter can be assembled with a hydrogen straw adapter, the lower part of the hydrogen straw adapter is provided with a straw adapter screw, the upper part of the hydrogen straw adapter is provided with a straw interface, and the straw interface can be communicated with a hydrogen absorbing hose.

The utility model provides a pair of hydrogen-rich water cup is used in drinking water, its beneficial effect is:

1. the utility model discloses an electrolytic water subassembly, the base member of negative plate and anode plate forms the round plane by the suppression of titanium alloy piece, is porously on the round plane, and the polar plate surface has plated noble metal platinum, and electrode conductivity is good, and the brineelectrolysis is efficient, and one-time hydrogen manufacturing is 3 minutes, and hydrogen-rich water hydrogen content can reach 1300 and give other charge 1500ppb, repeated hydrogen manufacturing, and the hydrogen content can reach the saturated condition, and the polar plate corrosion resistance is strong, does not pollute quality of water, does not have specific requirement to quality of water, temperature.

2. The utility model discloses an electrolysis water subassembly has proton exchange membrane between negative, anode plate, and electrolysis in-process hydrogen ion passes through proton exchange membrane, produces hydrogen at the negative electrode, and oxygen ion or peroxy ion are stopped by proton exchange membrane at the oxygen that the positive electrode produced, get rid of from the following level, form hydrogen and oxygen and divide the chamber to handle, and the drinking water of preparing is pure hydrogen-rich water.

3. The utility model is additionally provided with the bottled water adapter besides the normal cup body, and can directly make the bottled water into hydrogen-rich water, thereby being convenient to carry and use; still add hydrogen straw adapter, usable hose is direct snuffing hydrogen.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a sectional view of the hydrogen generator of the present invention;

FIG. 3 is a schematic view of the electrolytic water assembly of the present invention;

FIG. 4 is a schematic view of the seal assembly of the present invention;

fig. 5 is a schematic view of the adapter of the hydrogen straw of the present invention;

figure 6 is the utility model discloses bottled water adapter schematic diagram.

Reference numerals: 1-cup cover, 2-cup body, 3-hydrogen generator, 4-body, 41-base plate, 42-antiskid rubber mat, 43-waste gas outlet, 44-waste gas conduit, 45-cup body sealing ring, 46-bottled water adapter, 47-straw adapter, 48-straw interface, 49-upper screw, 50-switch, 51-lithium battery, 52-circuit board, 53-charging socket, 54-display lamp, 61-component body, 62-waste gas cavity, 63-waste gas outlet, 64-latex ring, 65-ventilation water-blocking sheet, 66-anode plate, 67-anode plate binding post, 68-proton exchange membrane, 69-cathode plate, 70-binding post, 71-straw adapter screw, 68-proton exchange membrane, 69-cathode plate, 70-binding post, 72-lower screw, 73-machine body screw, 80-lower sealing gasket, 81-upper sealing gasket, 82-positioning plate, 83-sealing boss and 84-positioning pile.

Detailed Description

The following describes in detail a hydrogen-rich water cup for drinking water according to the present invention with reference to the attached drawings.

Referring to fig. 1 to 6, a hydrogen-enriched water cup for drinking water comprises a cup cover 1, a cup body 2 and a hydrogen generator 3.

The hydrogen generator 3 comprises a machine body 4, a sealing component, an electrolytic water component, an electric control component, a base plate 41 and an antiskid rubber mat 42;

the upper part of the machine body 4 is provided with a machine body screw port 73 which is matched with the cup body sealing ring 45 and is screwed with the screw port at the lower part of the cup body 2; the machine body 4 is internally provided with a cavity and is provided with a sealing component, an electrolytic water component and an electric control component; the lower part of the machine body 4 is provided with a base plate 41 and an anti-skid rubber mat 42;

the sealing assembly comprises an upper sealing gasket 81, a positioning plate 82 and a lower sealing gasket 80, wherein the upper edge and the lower edge of a middle round hole of the positioning plate 82 are respectively provided with a sealing boss 83, four positioning piles 84 are arranged below the positioning plate 82, the upper sealing gasket 81 and the lower sealing gasket 80 are made of latex materials, and the upper sealing gasket 80, the positioning plate 82 and the lower sealing gasket 80 are sequentially stacked and assembled at the upper end inside the machine body 4 and are used for preventing water in the cup body from leaking from the edge of the electrolytic water assembly;

the water electrolysis assembly comprises an assembly body 61, a cathode plate 69, a proton exchange membrane 68, an anode plate 66, a ventilation water-blocking sheet 65 and a latex ring 64. The bases of the cathode plate 69 and the anode plate 66 are all made of titanium alloy sheets by pressing to form round planes, the round planes are porous, the edge of the cathode plate 69 is provided with a cathode plate binding post 70, the edge of the anode plate 66 is provided with an anode plate binding post 67, and the surfaces of the cathode plate and the anode plate are both plated with platinum layers; the proton exchange membrane 68 is a membrane material that only allows hydrogen ions to pass through, and blocks other ions from passing through, and due to the existence of the proton exchange membrane 68, hydrogen gas and oxygen gas generated by water electrolysis are separated, the hydrogen ions lose electrons on the cathode to form hydrogen gas, and the oxygen ions obtain electrons on the anode to form oxygen gas; the ventilation water-blocking sheet 65 is an iridium gold sheet with micro-holes, so that oxygen and other waste gas generated by the anode can pass through the ventilation water-blocking sheet, and water can be prevented from leaking downwards; the latex ring 64 is used for stacking a cathode plate 69, a proton exchange membrane 68, an anode plate 66 and a ventilating and water blocking sheet 65 together in sequence, so that the edges of the cathode plate, the proton exchange membrane 68, the anode plate and the ventilating and water blocking sheet are surrounded into a whole and are embedded in the groove of the assembly body 61; the middle of the component body 61 is provided with a groove for embedding an electrode component, the two sides of the groove are provided with positioning holes of a cathode binding post and an anode binding post, a waste gas cavity 62 is arranged below the groove, and the bottom surface of the waste gas cavity 62 is provided with a waste gas outlet 63;

preferably, the body 4 of the hydrogen generator 3, the positioning plate 82 of the sealing assembly and the assembly body 61 of the electrolyzed water assembly are all made of non-toxic high polymer insulating materials by injection molding;

the electric control assembly comprises a switch 50, a lithium battery 51, a circuit board 52, a charging socket 53 and a display lamp 54, wherein the switch 50 is a closed touch switch, is installed on a side panel of the hydrogen generator body 4, is switched on after being started, and is automatically closed after hydrogen production by water electrolysis is finished; the lithium battery 51 provides a direct current power supply for the electrolyzed water, and the lithium battery 51 is fixed on the base plate 41; the circuit board 52 is arranged at the lower part of the assembly body 61 in the hydrogen generator body 4; the charging socket 53 is arranged according to a standard socket and is arranged on the side panel of the hydrogen generator body 4; the display lamp 54 is arranged on the upper periphery of the sealing component in the hydrogen generator; the switch 50, the lithium battery 51, the circuit board 52, the charging socket 53 and the display lamp 54 are all electrically connected;

preferably, the rated voltage of the lithium battery 51 is 9V or 12V, and the rated electric quantity is 1000-1400 mAh;

preferably, the display lamp 54 is an LED lamp, which can display three different colors of red, green, and blue, and respectively display different colors during charging, full charging, and hydrogen production;

the base plate 41 is fixed at the lower part of the machine body by screws, the plane of the base plate 41 is provided with an exhaust gas outlet 43, and the exhaust gas outlet 43 is communicated with an exhaust gas outlet 63 on the bottom surface of an exhaust gas cavity 62 in the electrolytic water component by an exhaust gas guide pipe 44;

the antiskid rubber mat 42 is adhered to the lower surface of the base plate 41, and an exhaust gas outlet on the antiskid rubber mat 42 corresponds to an exhaust gas outlet on the base plate 41;

the cup body 2 is made of high borosilicate glass, the wall of the cup body is of a double-layer structure, screw ports are formed in the upper portion and the lower portion of the cup body 2, the lower portion of each screw port is connected with the machine body screw port 73 in a rotating mode, and the upper portion of each screw port is connected with the screw port of the cup cover 1 in a rotating mode.

Further, the cup body 2 can be replaced by a bottled water adapter 46, the lower part of the bottled water adapter 46 is a lower screw 72 and is screwed with a machine body screw 73, the upper part of the bottled water adapter is provided with an upper screw 49 which can be screwed with a bottled water bottle, and the bottled water of the available standard can be directly used for preparing hydrogen-rich water.

Further, a hydrogen suction pipe adapter 47 can be assembled on the upper screw port 49 of the bottled water adapter 46, the lower part of the hydrogen suction pipe adapter 47 is a suction pipe adapter screw port 71 and is screwed with the upper screw port 49 of the bottled water adapter 46, the upper part of the hydrogen suction pipe adapter 47 is a suction pipe interface 48, and a hydrogen suction hose can be connected through the suction pipe interface 48.

It should be pointed out that this embodiment is the preferred scheme of the present invention, and all simple improvements made according to this embodiment all belong to the protection scope of the present invention.

Claims (8)

1. A hydrogen-rich water cup for drinking water comprises a cup cover (1), a cup body (2) and a hydrogen generator (3), and is characterized in that the hydrogen generator (3) comprises a machine body (4), a sealing assembly, an electrolytic water assembly, an electric control assembly, a base plate (41) and an anti-skid rubber mat (42);

the upper part of the machine body (4) is provided with a machine body screw port (73) which is matched with a cup body sealing ring (45) and is screwed with a screw port at the lower part of the cup body (2); the machine body (4) is internally provided with a cavity and is provided with a sealing component, an electrolytic water component and an electric control component; the lower part of the machine body (4) is provided with a base plate (41) and an antiskid rubber mat (42);

the sealing assembly comprises an upper sealing gasket (81), a positioning plate (82) and a lower sealing gasket (80), wherein the upper edge and the lower edge of a middle round hole of the positioning plate (82) are respectively provided with a sealing boss (83), and four positioning piles (84) are arranged below the positioning plate (82); the upper sealing gasket (81) and the lower sealing gasket (80) are made of latex materials, and the upper sealing gasket (81), the positioning plate (82) and the lower sealing gasket (80) are sequentially stacked and assembled at the upper end inside the machine body (4) to prevent water in the cup body from leaking from the edge of the electrolytic water assembly;

the electrolytic water assembly comprises an assembly body (61), a cathode plate (69), a proton exchange membrane (68), an anode plate (66), a ventilating and water blocking sheet (65) and a latex ring (64), wherein the cathode plate (69) and the anode plate (66) are in a circular plane shape, the upper part of the cathode plate is porous, a cathode plate binding post (70) is arranged at the edge of the cathode plate (69), and an anode plate binding post (67) is arranged at the edge of the anode plate (66); the proton exchange membrane (68) is a membrane material which only allows hydrogen ions to exchange and pass and blocks other ions from passing, and due to the existence of the proton exchange membrane (68), hydrogen and oxygen generated by water electrolysis are separated, the hydrogen ions lose electrons on the cathode to form hydrogen, and the oxygen ions obtain electrons on the anode to form oxygen; the ventilation water-blocking sheet (65) is an iridium gold sheet with micro-holes, so that oxygen and other waste gas generated by the anode can pass through the ventilation water-blocking sheet, and water can be prevented from leaking downwards; the latex ring (64) is used for sequentially overlapping a cathode plate (69), a proton exchange membrane (68), an anode plate (66) and a ventilation water-blocking sheet (65) together, so that the edges of the cathode plate, the proton exchange membrane, the anode plate and the ventilation water-blocking sheet are encircled into a whole and are embedded in a groove of the assembly body (61); the middle of the component body (61) is provided with a groove for embedding the electrode component, the two sides of the groove are provided with positioning holes of a cathode binding post and an anode binding post, a waste gas cavity (62) is arranged below the groove, and the bottom surface of the waste gas cavity (62) is provided with a waste gas outlet (63);

the electric control assembly comprises a switch (50), a lithium battery (51), a circuit board (52), a charging socket (53) and a display lamp (54), wherein the switch (50) is a closed touch switch and is arranged on a side panel of the hydrogen generator body (4); the lithium battery (51) is used for providing a direct current power supply for the electrolyzed water and is fixed on the base plate (41); the circuit board (52) is arranged below the assembly body (61); the charging socket (53) is arranged according to a standard socket and is arranged on a side panel of the hydrogen generator body (4); the display lamp (54) is arranged on the periphery of the upper part of the sealing component in the hydrogen generator; the switch (50), the lithium battery (51), the circuit board (52), the charging socket (53) and the display lamp (54) are all electrically connected;

the base plate (41) is fixed at the lower part of the machine body (4) by screws, an exhaust gas outlet (43) is arranged on the plane of the base plate (41), and the exhaust gas outlet (43) is communicated with an exhaust gas outlet (63) on the bottom surface of an exhaust gas cavity (62) in the electrolytic water component by an exhaust gas guide pipe (44);

the antiskid rubber mat (42) is adhered below the base plate (41), and an exhaust gas outlet on the antiskid rubber mat (42) corresponds to an exhaust gas outlet on the base plate (41).

2. The hydrogen-rich drinking cup as claimed in claim 1, wherein the base materials of the cathode plate (69) and the anode plate (66) are titanium alloy sheets, and the surfaces of the titanium alloy sheets are plated with platinum layers.

3. The hydrogen-rich water cup for drinking water as claimed in claim 1, wherein the body (4) of the hydrogen generator (3), the positioning plate (82) of the sealing assembly and the assembly body (61) of the electrolyzed water assembly are all made of non-toxic high polymer insulating materials by injection molding.

4. The hydrogen-rich water cup as claimed in claim 1, wherein the rated voltage of the lithium battery (51) is 9V or 12V, and the rated power is 1000 and 1400 mAh.

5. The hydrogen-rich water cup for drinking water as claimed in claim 1, wherein the display lamp (54) is an LED lamp capable of displaying three different colors of red, green and blue, and displaying different colors during charging, fully charging and hydrogen production.

6. The hydrogen-rich water cup as claimed in claim 1, wherein the cup body (2) is made of borosilicate glass, has a double-layer structure, and has screw ports at the upper and lower parts, the lower screw port is screwed with the screw port (73) of the body, and the upper screw port is screwed with the screw port of the cup cover (1).

7. A hydrogen-rich drinking cup as claimed in claim 6, wherein the cup body (2) is replaced by a bottled water adapter (46), the lower part of the bottled water adapter (46) is a lower screw (72) which is screwed with a machine body screw (73), and the upper part of the bottled water adapter is provided with an upper screw (49) which can be screwed with a bottled water mouth, so that the hydrogen-rich water can be directly prepared by using the standard bottled water.

8. The hydrogen-rich water cup for drinking water as claimed in claim 7, wherein a hydrogen suction pipe adapter (47) is directly assembled on the upper screw port (49) of the bottled water adapter (46), the lower part of the hydrogen suction pipe adapter (47) is a suction pipe adapter screw port (71) which is screwed with the upper screw port (49) of the bottled water adapter (46), the upper part of the hydrogen suction pipe adapter (47) is a suction pipe interface (48), and a hydrogen suction hose can be connected through the suction pipe interface (48).

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