CN216005416U - Novel hydrogen-rich water station - Google Patents

Abstract

The utility model relates to a novel hydrogen-rich water station, which comprises a shell structure, wherein the shell structure comprises a water production component and a hydrogenation component, and the water production component is provided with a water flow pipeline, a filter element, a water flow booster pump and a water storage tank; in a specific application, an external water source such as tap water enters the water flow pipeline and then enters the filter element to be filtered to obtain pure water flow, and the water flow flows under pressure at the position of the water flow booster pump and then enters the water storage tank to be stored for use. When the user needs to take water, the water in the water storage tank flows out from the position of the external interface along the outflow pipe. In addition, the hydrogenation component is used for carrying out hydrogenation treatment, and two hydrogenation modes are provided, wherein the first hydrogenation mode is that hydrogen formed by the hydrogen generator flows into the water storage tank through the first gas supply pipeline for carrying out primary hydrogenation, and the second hydrogenation mode is that the hydrogen generator flows into the gas-liquid mixing unit through the second gas supply pipeline for adding into the water flow.

Description

Novel hydrogen-rich water station

Technical Field

The utility model relates to a system water drinking equipment, concretely relates to can be to water station structure of system water built-in hydrogenation.

Background

In order to improve the quality of drinking water, water making machines are installed in more and more living communities, and the water making machines have the main function that tap water can be purified to obtain pure water after being filtered by a filter element, and the pure water can be taken according to the requirements of users.

However, the traditional water making equipment has single function and usually only has the function of supplying pure water, and scientific research shows that the nutrition and the oxidation resistance of water can be further improved after hydrogen is added into drinking water to obtain hydrogen-rich water. More and more researches prove that the drinking of water rich in hydrogen can improve the functions of human bodies and improve the immunity, and particularly has a regulating effect on some chronic physical discomfort.

For example, chinese patent application No. CN201911005149.8 discloses a fault detection method, device, system and water purifier, which can automatically monitor, analyze and judge water purifier faults through blockage, and then perform cleaning operation to keep the electromagnetic valve of the water purifier open and avoid damaging operation. In addition, a domestic hydrogen-rich water purifier is disclosed in the chinese utility model with the application number CN202022591755.7, which has a simple structure and removes the dissolved gas in the water by a liquid degasser to increase the content of the added hydrogen.

However, the existing way of adding hydrogen to water in a water purifier is usually one-time hydrogenation, which limits the concentration of hydrogenation and makes the content of hydrogenation difficult to be ensured, especially when the water purifier is continuously used for water receiving, because only one intervening site for supplying hydrogen is provided, the proportion of hydrogen content in water is difficult to be ensured.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a device for realizing the hydrogenation action in the water flow of a water purifier at a plurality of sites.

In order to achieve the purpose, the utility model provides a novel hydrogen-enriched water station, which comprises a shell structure, wherein the shell structure comprises a water production assembly and a hydrogenation assembly, the water production assembly is provided with a water flow pipeline, a filtering filter element, a water flow booster pump and a water storage tank, the inlet part of the water flow pipeline is communicated with an external water source, and the water flow pipeline is sequentially communicated with the filtering filter element, the water flow booster pump and the water storage tank; the hydrogenation component comprises a hydrogen generator, a first gas supply pipeline and a second gas supply pipeline which are connected, wherein an outlet of the first gas supply pipeline is inserted into the water storage tank, the water storage tank is connected with an external interface through an outflow pipeline, a gas-liquid mixing unit is arranged on the outflow pipeline, a first inlet and an outlet of the gas-liquid mixing unit are respectively connected onto the outflow pipeline, and a second inlet of the gas-liquid mixing unit is connected with the second gas supply pipeline.

The beneficial effect of above-mentioned scheme does: in a specific application, an external water source such as tap water enters the water flow pipeline and then enters the filter element to be filtered to obtain pure water flow, and the water flow flows under pressure at the position of the water flow booster pump and then enters the water storage tank to be stored for use. When the user needs to take water, the water in the water storage tank flows out from the position of the external interface along the outflow pipe. In addition, the hydrogenation component is used for carrying out hydrogenation treatment, and two hydrogenation modes are provided, wherein the first hydrogenation mode is that hydrogen formed by the hydrogen generator flows into the water storage tank through the first gas supply pipeline for carrying out primary hydrogenation, and the second hydrogenation mode is that the hydrogen generator flows into the gas-liquid mixing unit through the second gas supply pipeline for adding into the water flow.

Preferably, the hydrogen generator is a water electrolysis device, a water supply pipeline of the water electrolysis device is connected with the pure water tank, and an air outlet pipeline of the water electrolysis device is connected with the first air supply pipeline and the second air supply pipeline.

The beneficial effect of above-mentioned scheme does: the water electrolysis device is of a structure in the prior art, and electrolyzes water to form hydrogen, and the hydrogen is conveyed along the first air supply pipeline and the second air supply pipeline.

A preferred scheme is, the gas-liquid mixture unit is the ejector, the ejector includes perpendicular main part pipe and the branch pipe of connecting, connecting thread portion is formed at the both ends of main part pipe, connecting thread portion is connected the cooperation with rivers pipeline detachably, the main part pipe has narrowing section portion, one side intercommunication of narrowing section portion the branch pipe, the branch pipe pass through threaded connection portion with the second air feed line is connected. Through the arrangement of the structure, a good gas and liquid mixing effect can be achieved.

Preferably, the main pipe is provided with a main body reinforcing rib plate formed in an extending mode, and the branch pipe and the main body reinforcing rib plate are connected through a reinforcing rib plate. The structural strength is increased, and the service life is prolonged.

One preferred scheme is that the filtering filter element comprises a four-stage filtering structure, and the four-stage filtering structure respectively comprises a 5 micron cotton filter element, a granular carbon filter element, a sintered carbon filter element and a 1 micron cotton filter element which are sequentially connected; and a reverse osmosis membrane filter element is also arranged between the water flow booster pump and the water storage tank.

In a preferred scheme, the top cover position of the water storage tank is provided with an adjusting assembly, the adjusting assembly comprises an arm-breaking rod, a rotating block, an annular body, a pressing plate and a moving rod, the ring is fixed on the top cover, the ring body is provided with a gap part, a hinged shaft lever is arranged in the gap part, the breaking-off rod is connected with the rotating block, an eccentric hole of the rotating block is rotatably connected on the hinged shaft rod, the pressing plate is arranged at the inner side of the gap part and is provided with a guide sliding rod and a driving block, the guide sliding rod is connected in the annular body through a spring structure, the driving block is arranged adjacent to the rotating block, the outer wall of the moving rod is provided with an arc-shaped slotted hole which is matched with the bottom of the pressing plate, the movable rod is of a hollow structure, and one end of the movable rod is connected with the first gas supply pipeline.

In the in-process of specifically using, at first the one end at the carriage release lever is connected to the flexible port of first gas supply line, then the carriage release lever then can carry out the position along the ring body and remove, and then stretch into the different positions in the water storage tank, with height-adjusting, and fix when needs are high, then swing breaking off the pole with the fingers and thumb, rotate in order to drive rotatory piece, rotatory piece then rotates through eccentric hole, from this can make the different positions of rotatory piece and pressboard contact, then can drive the pressboard when rotatory piece is the pivoted and remove and lean on to the one side that is close to the carriage release lever and fix on the carriage release lever, thereby play the stable fixed action to the carriage release lever.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a novel hydrogen-rich water station of the present invention;

FIG. 2 is a partial schematic view of a novel hydrogen-rich water station of the present invention;

FIG. 3 is a partial schematic view of a novel hydrogen-rich water station of the present invention;

FIG. 4 is a partial schematic view of a novel hydrogen-rich water station of the present invention;

FIG. 5 is a partial schematic view of a novel hydrogen-rich water station of the present invention;

FIG. 6 is an enlarged schematic view of region A in FIG. 5;

fig. 7 is a schematic structural diagram of the novel hydrogen-rich water station adjusting assembly of the present invention.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The first embodiment:

as shown in fig. 1 to 6, the utility model provides a novel hydrogen-enriched water station, which comprises a housing structure 10, a water production assembly 20 and a hydrogenation assembly 30 are included in the housing structure 10, the water production assembly 20 is provided with a water flow pipeline 21, a filtering filter element 22, a water flow booster pump 23 and a water storage tank 24, an inlet part of the water flow pipeline 21 is used for communicating with an external water source, and the water flow pipeline 21 is sequentially communicated with the filtering filter element 22, the water flow booster pump 23 and the water storage tank 24; the hydrogenation assembly 30 comprises a hydrogen generator 40, a first gas supply pipeline 41 and a second gas supply pipeline 42 which are connected, an outlet of the first gas supply pipeline 41 is inserted into the water storage tank 24, the water storage tank 24 is connected with the external interface 121 through the outflow pipeline 25, the outflow pipeline 25 is provided with a gas-liquid mixing unit 8, a first inlet 26 and an outlet 27 of the gas-liquid mixing unit 8 are respectively connected onto the outflow pipeline 25, and a second inlet 28 of the gas-liquid mixing unit 8 is connected with the second gas supply pipeline 42.

In a specific application, an external water source, such as tap water, enters the water flow pipe 21, and then enters the pure water flow filtered in the filter element 22, and the water flow is pressurized to flow at the position of the water flow booster pump 23, and then enters the water storage tank 24 for storage. When the user needs to take water, the water in the water storage tank 24 flows out from the position of the external port 121 along the outflow pipe 25. In addition, the hydrogenation is performed by the hydrogenation unit 30, and there are two hydrogenation modes, the first hydrogenation mode is to make the hydrogen gas generated by the hydrogen generator 40 flow into the water storage tank 24 through the first gas supply pipe 41 for primary hydrogenation, and the second hydrogenation mode is to make the hydrogen generator 40 flow into the gas-liquid mixing unit 8 through the second gas supply pipe 42 for adding into the water flow.

Second embodiment:

as shown in fig. 2 to 7, the hydrogen gas generator 40 is a water electrolysis device, a water supply pipe 61 of the water electrolysis device is connected to a purified water tank 62, and an air outlet pipe 63 of the water electrolysis device 40 is connected to the first air supply pipe 41 and the second air supply pipe 42. Purified water tank 62 may be pumped to supply water to the water electrolysis apparatus. In addition, the hydrogen generator 40 may employ an existing device having a hydrogen generating function for supplying hydrogen.

The water electrolysis device 40 is a conventional device that electrolyzes water to form hydrogen gas, which is transported along the first and second gas supply lines 41 and 42.

The gas-liquid mixing unit 8 is an ejector, the ejector includes a main pipe 65 and a branch pipe 66 which are vertically connected, connecting thread portions are formed at two ends of the main pipe 65, the connecting thread portions are detachably connected and matched with the outflow pipe 25 on one side of the downstream of the water flow pipe 21, the main pipe 65 is provided with a narrowing section portion 68, one side of the narrowing section portion 68 is communicated with the branch pipe 66, and the branch pipe 66 is connected with the second air supply pipe 42 through a thread connecting portion. Through the arrangement of the structure, a good gas and liquid mixing effect can be achieved.

The main tube 65 has a main reinforcing rib 69 formed to extend therefrom, and the branch tube 66 and the main reinforcing rib 69 are connected by a reinforcing rib plate 71. The structural strength is increased, and the service life is prolonged.

The filtering core 22 comprises a four-stage filtering structure, and the four-stage filtering structure respectively comprises a 5 micron cotton filter core, a granular carbon filter core, a sintered carbon filter core and a 1 micron cotton filter core which are sequentially connected; a reverse osmosis membrane filter element 72 is also arranged between the water flow booster pump 23 and the water storage tank 24. The filtering structure can adopt the existing devices and filter elements for water filtering and purifying and materials, and the description is omitted.

The top cover 91 of the water storage tank 24 is provided with an adjusting assembly 80, the adjusting assembly 80 comprises a rod 81, a rotating block 82, a ring body 83, a pressing plate 84 and a moving rod 85, the ring body 83 is fixed on the top cover 91, the ring body 83 is provided with a notch portion 86, a hinged shaft rod is arranged in the notch portion 86, the rod 81 is connected with the rotating block 82, an eccentric hole of the rotating block 82 is rotatably connected to the hinged shaft rod, the pressing plate 84 is further arranged on the inner side of the notch portion 86, the pressing plate 84 is adjacent to and matched with the moving rod 85, the moving rod 85 is of a hollow structure, and one end of the moving rod 85 is connected with the first air supply pipeline 41.

In the specific use process, first, the flexible port of the first air supply pipeline 41 is connected to one end of the moving rod 85, then the moving rod 85 can move along the annular body 83, and further extend into different positions in the water storage tank 24, so as to adjust the height, and when needing to be fixed at a certain height, the arm-breaking rod 81 is swung, so as to drive the rotating block 82 to rotate, the rotating block 82 rotates through the eccentric hole, therefore, different positions of the rotating block 82 can be in contact with the pressing plate 84, when the rotating block 82 rotates, the pressing plate 84 can be driven to move to one side close to the moving rod 85 to abut against and be fixed on the moving rod 85, and therefore, the stable fixing effect on the moving rod 85 is achieved.

In addition, in another alternative, an external wall thread is provided on the moving rod 85, then an internal thread hole is provided on the top cover 91, and then the moving rod 85 can perform a lifting motion on the top cover 91 by the thread fit, thereby performing a function of adjusting the height.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. 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.

Claims (6)

1. A novel hydrogen-rich water station is characterized by comprising a shell structure, wherein a water production assembly and a hydrogenation assembly are arranged in the shell structure, the water production assembly is provided with a water flow pipeline, a filtering filter element, a water flow booster pump and a water storage tank, an inlet part of the water flow pipeline is communicated with an external water source, and the water flow pipeline is sequentially communicated with the filtering filter element, the water flow booster pump and the water storage tank; the hydrogenation component comprises a hydrogen generator, a first gas supply pipeline and a second gas supply pipeline which are connected, wherein an outlet of the first gas supply pipeline is inserted into the water storage tank, the water storage tank is connected with an external interface through an outflow pipeline, a gas-liquid mixing unit is arranged on the outflow pipeline, a first inlet and an outlet of the gas-liquid mixing unit are respectively connected onto the outflow pipeline, and a second inlet of the gas-liquid mixing unit is connected with the second gas supply pipeline.

2. The new hydrogen-enriched water production station according to claim 1, wherein the hydrogen generator is a water electrolysis device, the water supply pipeline of the water electrolysis device is connected to the purified water tank, and the air outlet pipeline of the water electrolysis device is connected to the first air supply pipeline and the second air supply pipeline.

3. The new-type hydrogen-enriched water production station according to claim 1, wherein the gas-liquid mixing unit is a jet device, the jet device comprises a main pipe and a branch pipe which are vertically connected, connecting thread portions are formed at two ends of the main pipe, the connecting thread portions are detachably connected and matched with a water flow pipeline, the main pipe is provided with a narrowed section portion, one side of the narrowed section portion is communicated with the branch pipe, and the branch pipe is connected with the second gas supply pipeline through a threaded connection portion.

4. The advanced hydrogen-enriched water production station as claimed in claim 3, wherein the main pipe has extended main reinforcing ribs, and the branch pipe and the main reinforcing ribs are connected by reinforcing rib plates.

5. The new hydrogen-enriched water production station according to claim 1, wherein the filtering cartridge comprises a four-stage filtering structure comprising a 5 micron cotton cartridge, a granular carbon cartridge, a sintered carbon cartridge and a 1 micron cotton cartridge, respectively, connected in series; and a reverse osmosis membrane filter element is also arranged between the water flow booster pump and the water storage tank.

6. The new hydrogen-enriched water production station according to claim 1, wherein the top cover of the water storage tank is provided with an adjusting component, the adjusting component comprises a snapping rod, a rotating block, an annular body, a pressing plate and a moving rod, the annular body is fixed on the top cover, the annular body is provided with a notch part, a hinged shaft rod is arranged in the notch part, the snapping rod is connected with the rotating block, an eccentric hole of the rotating block is rotatably connected on the hinged shaft rod, the pressing plate is further arranged inside the notch part, the pressing plate is arranged adjacent to the moving rod, the moving rod is of a hollow structure, and one end of the moving rod is connected with the first air supply pipeline.

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