CN214243907U - Gas storage and hydrogen dissolution device - Google Patents

Abstract

The utility model discloses a hydrogen device is dissolved in gas storage, including base, hydrogen manufacturing bucket, hydrogen-rich water tank and lock hydrogen bucket, the base top is close to the edge and is provided with draw-in groove and draw-in groove endotheca and is equipped with the dustcoat casing, the hydrogen-rich water tank is installed through the mounting groove in the base top, hydrogen manufacturing bucket and lock hydrogen bucket are installed through the reservation groove respectively at base top both ends, it has the baffle all to weld between hydrogen manufacturing bucket and the hydrogen-rich water tank inner wall, first drinking-water pipe and second drinking-water pipe are installed respectively through the reservation hole to baffle top one end, the back flow is installed through the perforating hole to the baffle top other end, all be provided with on first drinking-water pipe and the second drinking-water pipe from inhaling the booster pump, it passes through screw fixed mounting in the baffle top to be provided with electrolysis module and electrolysis module in the hydrogen manufacturing bucket. The gas storage and hydrogen dissolution device solves the problem that hydrogen is difficult to dissolve in water, and has the advantages of large hydrogen storage amount and long duration.

Description

Gas storage and hydrogen dissolution device

Technical Field

The utility model relates to a sell water machine part technical field, specifically be a hydrogen device is dissolved in gas storage.

Background

The hydrogen-rich water has many advantages beneficial to human body, and a certain amount of hydrogen is dissolved in the water sold in the water selling machine in order to ensure that the water sold in the water selling machine is healthier, so the hydrogen storing and melting device is necessary.

In view of the problems of the prior art that the hydrogen gas is difficult to dissolve in water, the amount of stored hydrogen is small, and the duration is short, the prior art provides a hydrogen storage and dissolving device.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a hydrogen device is dissolved in gas storage, can effectively promote the content that hydrogen dissolved in water, and can let hydrogen water persist the longer time, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a gas storage and hydrogen dissolving device comprises a base, a hydrogen production barrel, a hydrogen-rich water tank and a hydrogen locking barrel, wherein a clamping groove is formed in the top of the base close to the edge, an outer cover shell is sleeved in the clamping groove, the hydrogen-rich water tank is installed on the top of the base through a mounting groove, the hydrogen production barrel and the hydrogen locking barrel are installed at two ends of the top of the base through a reserved groove respectively, a partition is welded between the hydrogen production barrel and the inner wall of the hydrogen-rich water tank, a first water pumping pipe and a second water pumping pipe are installed at one end of the top of the partition through a reserved hole respectively, a return pipe is installed at the other end of the top of the partition through a through hole, self-absorption booster pumps are arranged on the first water pumping pipe and the second water pumping pipe respectively, an electrolysis module is arranged in the hydrogen production barrel, a medical silica gel inner container is arranged on the inner side of the hydrogen locking barrel, a first water receiving pipe is connected to one side of the bottom of the hydrogen locking barrel, and a stop valve is arranged on the first water receiving pipe, first water receiving pipe end connection has gas mixing box and gas mixing box bottom to be connected with second water receiving pipe through reserving the mouth, the hydrogen gas holder is installed through the mounting bracket at the top in the dustcoat casing, the inlet end of hydrogen gas holder passes through pipe connection hydrogen manufacturing barrel top, be close to on the pipeline hydrogen gas holder one end is provided with the booster pump of bleeding, be close to on the pipeline hydrogen manufacturing barrel one end is provided with the proton membrane, the gas outlet of hydrogen gas holder is connected with first gas-supply pipe, second gas-supply pipe and third gas-supply pipe respectively, the water inlet of suction pump passes through the inside water piping connection hydrogen-rich water tank, the delivery port of hydrogen-rich water tank is connected with the outlet pipe, second water receiving pipe, outlet pipe and first water pipe end all overlap and establish and install micro-nano bubbler, third gas-supply pipe, second gas-supply pipe and first gas-supply pipe run through hydrogen-rich water tank, The hydrogen locking barrel and the gas mixing box are arranged at one side of the corresponding micro-nano bubbler.

As a preferred technical scheme of the utility model, the outer cover casing is made for the glass fiber board material.

As an optimal technical scheme of the utility model, hydrogen manufacturing barrel head end one side is provided with water inlet and the water inlet outside and has the water pump of adding through water piping connection, hydrogen manufacturing barrel head end inner wall has liquid level switch through screw fixed mounting, liquid level switch's electric power output end passes through the wire with the electric power input of the water pump of adding and constitutes the electricity and be connected.

As an optimized technical scheme of the utility model, the oxygen gas vent of proton membrane is connected with oxygen blast pipe and runs through outer cover casing top.

As a preferred technical scheme of the utility model, be close to on first gas-supply pipe, second gas-supply pipe and the third gas-supply pipe hydrogen gas holder department all is provided with the solenoid valve.

Compared with the prior art, the beneficial effects of the utility model are that: when the third gas pipe is opened, hydrogen is conveniently conveyed to the position near the micro-nano bubbler on the lower side of the top end of the second water pumping pipe, the self-suction booster pump on the second water pumping pipe is opened, water at the bottom of the hydrogen-rich water tank is conveniently sucked out to the upper end in the hydrogen-rich water tank, hydrogen is blown to the micro-nano bubbler, the content of hydrogen dissolved in water can be greatly improved, the water pumping pump is opened, hydrogen-rich water produced in the hydrogen production barrel is sucked in through a water conveying pipe during working, gas is discharged through a water outlet pipe, micro-nano bubbles can be conveniently produced through the micro-nano bubbler on the periphery of the bottom end of the water outlet pipe, the hydrogen at the bottom end of the second gas pipe is mixed with the hydrogen-rich water producing the bubbles to further melt hydrogen, the problem that the hydrogen is difficult to dissolve in water and the hydrogen content in water is low can be solved by utilizing the medical silica gel inner container, the breaking time of the hydrogen bubbles can be effectively reduced, promote and deposit the hydrogen volume, open the stop valve for hydrogen-rich water in the lock hydrogen bucket discharges in the gas mixing box via first water receiving pipe, opens the solenoid valve on the first gas-supply pipe, thereby can make and utilize first gas-supply pipe exhaust hydrogen to further mix with oxygen-rich water bubble when the water receiving, and then can promote the hydrogen content by in the second water receiving pipe exhaust water, is favorable to promoting the duration of water hydrogen bubble after connecing out.

Drawings

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

fig. 2 is the schematic diagram of the internal structure of the gas mixing box of the present invention.

In the figure: the device comprises a base 1, a hydrogen production barrel 2, a hydrogen-rich water tank 3, a hydrogen locking barrel 4, a housing 5, a hydrogen gas storage tank 6, a water suction pump 7, a partition plate 8, a proton membrane 9, a self-absorption booster pump 10, a first water suction pipe 11, a second water suction pipe 12, a return pipe 13, a liquid level switch 14, a water adding pump 15, a first gas pipe 16, an electromagnetic valve 17, a first water receiving pipe 18, a stop valve 19, a gas extraction booster pump 20, a gas mixing box 21, a second water receiving pipe 22, a second gas pipe 23, a third gas pipe 24, an electrolysis module 25, a medical silica gel inner container 26 and a micro-nano bubbler 27.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a gas storage and hydrogen dissolution device comprises a base 1, a hydrogen production barrel 2, a hydrogen-rich water tank 3 and a hydrogen locking barrel 4, wherein the top of the base 1 is provided with a clamping groove near the edge and the clamping groove is sleeved with an outer cover shell 5, the hydrogen-rich water tank 3 is installed at the top of the base 1 through a mounting groove, the hydrogen production barrel 2 and the hydrogen locking barrel 4 are respectively installed at the two ends of the top of the base 1 through a preformed groove, a partition plate 8 is welded between the inner walls of the hydrogen production barrel 2 and the hydrogen-rich water tank 3, a first water pumping pipe 11 and a second water pumping pipe 12 are respectively installed at one end of the top of the partition plate 8 through a preformed hole, a return pipe 13 is installed at the other end of the top of the partition plate 8 through a through hole, a self-absorption booster pump 10 is respectively arranged on the first water pumping pipe 11 and the second water pumping pipe 12, an electrolysis module 25 is arranged in the hydrogen production barrel 2 and the electrolysis module 25 is fixedly installed at the top of the partition plate 8 through screws, a medical silica gel inner container 26 is arranged at the inner side of the hydrogen locking barrel 4, lock 4 bottom one sides of hydrogen bucket and be connected with first water receiving pipe 18 and be provided with stop valve 19 on the first water receiving pipe 18, 18 end connection of first water receiving pipe has gas mixing box 21 and gas mixing box 21 bottom and is connected with second water receiving pipe 22 through reserving the mouth, hydrogen gas holder 6 is installed through the mounting bracket at the top in the dustcoat casing 5, the inlet end of hydrogen gas holder 6 passes through 2 tops of pipe connection hydrogen manufacturing bucket, be close to on the pipeline hydrogen gas holder 6 one end is provided with air exhaust booster pump 20, be close to on the pipeline hydrogen manufacturing bucket 2 one end is provided with proton membrane 9, the gas outlet of hydrogen gas holder 6 is connected with first gas-supply pipe 16, second gas-supply pipe 23 and third gas-supply pipe 24 respectively, the water inlet of suction pump 7 is through inside the hydraulic connection hydrogen-rich water tank 3, the delivery port of hydrogen-rich water tank 3 is connected with the outlet pipe, second suction pipe 12, The outlet pipe and the 18 tip of first water receiving pipe all overlap and establish and install micro-nano bubbler 27, third gas-supply pipe 24, second gas-supply pipe 23 and first gas-supply pipe 16 run through hydrogen-rich water tank 3, lock hydrogen bucket 4 respectively and mix gas box 21 and tip and be located corresponding micro-nano bubbler 27 one side, outer cover casing 5 is made for the glass fiber board material, and outer cover casing 5 that the glass fiber board material was made possesses good intensity, 2 bottom one side of hydrogen making bucket is provided with the water inlet and the water inlet outside has water pump 15 through water piping connection, 2 bottom inner wall of hydrogen making bucket has liquid level switch 14 through screw fixed mounting, the electric power output of liquid level switch 14 passes through the wire with water pump 15's electric input end and constitutes the electricity and be connected, utilize liquid level switch 14 can be when detecting 2 bottom temperature of hydrogen making bucket and be less than the setting value, put through water pump 15 and external power source's circuit, thereby make water pump 15 open, inhale 2 bottoms on hydrogen making bucket with outside running water, carry out the moisturizing to hydrogen making bucket 2, the oxygen gas vent of proton membrane 9 is connected with oxygen blast pipe and runs through 5 tops of dustcoat casing, utilizes proton membrane 9 can separate oxygen and hydrogen, and oxygen is discharged 5 outsides of dustcoat casing via the oxygen blast pipe, and hydrogen is inhaled and is stored in hydrogen gas holder 6, be close to on first gas-supply pipe 16, second gas-supply pipe 23 and the third gas-supply pipe 24 hydrogen gas holder 6 department all is provided with solenoid valve 17, opens the solenoid valve, and the convenience is put through or is closed first gas-supply pipe 16, second gas-supply pipe 23 and third gas-supply pipe 24 as required.

When in use: when the liquid level switch 14 is used for detecting that the water temperature at the bottom of the hydrogen production barrel 2 is lower than a set value, a circuit of the water adding water pump 15 and an external power supply is connected, so that the water adding water pump 15 is opened, external tap water is sucked into the bottom of the hydrogen production barrel 2 to supplement water to the hydrogen production barrel 2, the self-suction booster pump 10 in the hydrogen production barrel 2 conveniently sucks the water at the bottom to the upper end inside the hydrogen production barrel 2 through the first water suction pipe 11 during working, when the electrolysis module 25 is connected with electricity, water is conveniently electrolyzed to generate oxygen and hydrogen, the air suction booster pump 20 is opened to conveniently collect the gas, the oxygen and the hydrogen can be separated by using the proton membrane 9, the oxygen is discharged to the outer side of the outer cover shell 5 through the oxygen exhaust pipe, the hydrogen is sucked into the hydrogen storage tank 6 to be stored, when the third gas pipe 24 is opened, the hydrogen is conveniently conveyed, when the self-priming booster pump 10 on the second water pumping pipe 12 is opened, water at the bottom of the hydrogen-rich water tank 3 is conveniently sucked out to the upper end inside the hydrogen-rich water tank 3, hydrogen is blown to the micro-nano bubbler 27, the content of hydrogen dissolved in water can be greatly improved, the water pumping pump 7 is opened, hydrogen-rich water manufactured in the hydrogen production barrel 2 is sucked in through a water conveying pipe during working, gas is discharged through a water outlet pipe, micro-nano bubbles are conveniently generated by utilizing the micro-nano bubbler 27 at the periphery of the bottom end of the water outlet pipe, the electromagnetic valve 17 is opened, hydrogen at the bottom end of the second gas conveying pipe 23 is mixed with hydrogen-rich water generating rich bubbles to further melt hydrogen, so that the problems that hydrogen is difficult to dissolve in water and the hydrogen content in water is low can be solved, the hydrogen-rich water breaking time of the hydrogen bubbles can be effectively reduced by utilizing the medical silica gel inner container 26, the hydrogen storage amount is improved, the stop valve 19 is opened, and the hydrogen-rich water in the hydrogen locking barrel 4 is discharged into the gas mixing box 21 through the first water receiving pipe 18, the electromagnetic valve 17 on the first gas pipe 16 is opened, so that hydrogen discharged by the first gas pipe 16 can be further mixed with the oxygen-enriched water bubbles during water receiving, the hydrogen content in water discharged by the second water receiving pipe 22 can be improved, and the duration of the hydrogen bubbles after the water is received is prolonged.

The utility model discloses utilize electrolysis module 25 to carry out hydrogen manufacturing in hydrogen manufacturing barrel 2, and the hydrogen prestore is in hydrogen gas holder 6, can be with hydrogen manufacturing barrel 2 in be worth hydrogen-rich water with pure water mixture as required, further promote the hydrogen content in the hydrogen with hydrogen-rich water mixture in locking hydrogen barrel 4, utilize micro-nano bubbler 27, can effectively promote the area of contact of hydrogen and water in the unit interval, make the hydrogen content in the hydrogen promote greatly, utilize medical silica gel inner bag 26 can be so that hydrogen bubble is difficult for breaking in locking hydrogen barrel 4, be favorable to promoting the hydrogen content, recycle gas mixing box 21, can mix hydrogen and hydrogen water when the water receiving, promote the duration of water hydrogen bubble after connecing out.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a hydrogen device is dissolved in gas storage, includes base (1), hydrogen manufacturing bucket (2), hydrogen-rich water tank (3) and lock hydrogen bucket (4), its characterized in that: the hydrogen production device is characterized in that a clamping groove is formed in the top of the base (1) close to the edge, an outer cover shell (5) is sleeved in the clamping groove, a hydrogen-rich water tank (3) is installed at the top of the base (1) through a mounting groove, a hydrogen production barrel (2) and a hydrogen locking barrel (4) are installed at the two ends of the top of the base (1) respectively through a reserved groove, a partition plate (8) is welded between the hydrogen production barrel (2) and the inner wall of the hydrogen-rich water tank (3), a first water suction pipe (11) and a second water suction pipe (12) are installed at one end of the top of the partition plate (8) through a reserved hole respectively, a return pipe (13) is installed at the other end of the top of the partition plate (8) through a through hole, a self-absorption booster pump (10) is arranged on the first water suction pipe (11) and the second water suction pipe (12), an electrolysis module (25) is arranged in the hydrogen production barrel (2), and the electrolysis module (25) is fixedly installed at the top of the partition plate (8) through screws, lock hydrogen bucket (4) inboard is provided with medical silica gel inner bag (26), lock hydrogen bucket (4) bottom one side is connected with first water receiving pipe (18) and is provided with stop valve (19) on first water receiving pipe (18), first water receiving pipe (18) end connection has gas mixing box (21) and gas mixing box (21) bottom to be connected with second water receiving pipe (22) through reserving the mouth, hydrogen gas holder (6) are installed through the mounting bracket in dustcoat casing (5) top, the inlet end of hydrogen gas holder (6) passes through pipe connection hydrogen manufacturing bucket (2) top, be close to on the pipeline hydrogen gas holder (6) one end is provided with air suction booster pump (20), be close to on the pipeline hydrogen manufacturing bucket (2) one end is provided with proton membrane (9), the gas outlet of hydrogen gas holder (6) is connected with first gas-supply pipe (16) respectively, Second gas-supply pipe (23) and third gas-supply pipe (24), the water inlet of suction pump (7) passes through inside defeated water piping connection hydrogen-enriched water tank (3), the delivery port of hydrogen-enriched water tank (3) is connected with the outlet pipe, second suction pipe (12), outlet pipe and first water receiving pipe (18) tip all overlap and establish and install micro-nano bubbler (27), third gas-supply pipe (24), second gas-supply pipe (23) and first gas-supply pipe (16) run through hydrogen-enriched water tank (3), lock hydrogen bucket (4) and mix gas box (21) and tip and be located corresponding micro-nano bubbler (27) one side respectively.

2. A gas storage and hydrogen dissolution device according to claim 1, characterized in that: the outer cover shell (5) is made of glass fiber board materials.

3. A gas storage and hydrogen dissolution device according to claim 1, characterized in that: hydrogen manufacturing bucket (2) bottom one side is provided with water inlet and the water inlet outside and has water pump (15) of adding through water piping connection, hydrogen manufacturing bucket (2) bottom inner wall has liquid level switch (14) through screw fixed mounting, the electric power output of liquid level switch (14) passes through the wire with the electric power input of water pump (15) and constitutes the electricity and be connected.

4. A gas storage and hydrogen dissolution device according to claim 1, characterized in that: and an oxygen exhaust port of the proton membrane (9) is connected with an oxygen exhaust pipe, and the oxygen exhaust pipe penetrates through the top of the outer cover shell (5).

5. A gas storage and hydrogen dissolution device according to claim 1, characterized in that: the first gas transmission pipe (16), the second gas transmission pipe (23) and the third gas transmission pipe (24) are all provided with electromagnetic valves (17) near the hydrogen gas storage tank (6).

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