CN209989169U - Gas-containing water treatment device - Google Patents

Abstract

The utility model discloses a gas-containing water treatment device, which comprises a first cavity, a second cavity and a third cavity which are communicated in sequence; the first cavity is divided into a stirring cavity and a filtering cavity up and down through a filter screen; the second cavity is vertically divided into a first dissolving cavity and a second dissolving cavity by a third partition plate, and the third partition plate is provided with a flow guide hole; the first dissolving cavity is communicated with the stirring cavity through a flow guide pipe, and the flow guide pipe is arranged in the second dissolving cavity and extends to the first dissolving cavity; the high-pressure gas injection pump injects gas into the stirring cavity, the first dissolving cavity and the second dissolving cavity, and a medicine box for containing active mineral ions is arranged in the third cavity; the bottom end of the third cavity is provided with a liquid outlet pipe communicated with the third cavity. The water-containing water drinking device is applied to the communities to provide the resident with the water containing water, the resident can drink the water containing water at any time in the fixed places of the communities, and convenience is provided for the resident with the demand on the water containing water.

Description

Gas-containing water treatment device

Technical Field

The utility model belongs to the technical field of water treatment, a contain gas water treatment facilities is related to.

Background

At present, gas-containing beverages are prepared by compressing gases such as carbon dioxide, oxygen, and hydrogen into water; when the beverage containing gas is drunk in summer, carbon dioxide in the beverage can be discharged from the human body to take away heat in the human body, so that the beverage has the function of reducing the body temperature, and meanwhile, the beverage containing a large amount of oxygen and hydrogen is also beneficial to the human body; however, most of the gas-containing water and beverages are made in some factories and become commodities, and people need to buy the commodities of the gas-containing beverages for drinking; the community is used as a unit for population living, and large-scale equipment cannot be purchased to produce the gas-containing water due to limited fund in the community, so that a device for producing the regular gas-containing water in the community is needed.

Disclosure of Invention

The utility model provides a technical problem lie in providing a gas-containing water treatment facilities, can use and provide the gas-containing water of standing by for the resident in the community, the resident can go to drink gas-containing water in the fixed place of community at any time, facilitates for the resident that has the demand to gas-containing water.

The utility model discloses a realize through following technical scheme:

a gas-containing water treatment device comprises a box body, wherein a first partition plate and a second partition plate which are vertically arranged in the box body divide the box body into a first cavity, a second cavity and a third cavity which are sequentially communicated;

the filter screen horizontally arranged in the first cavity divides the first cavity into a stirring cavity and a filtering cavity; the filter cavity is communicated with an external water pipeline through a liquid inlet pipe; a stirrer driven by a motor is arranged in the stirring cavity; a first gas injection pipe is arranged at the top end of the stirring cavity of the box body;

a third partition plate is horizontally arranged in the second cavity to vertically divide the second cavity into a first dissolving cavity and a second dissolving cavity, and a flow guide hole is formed in the third partition plate; the first dissolving cavity is communicated with the stirring cavity through a flow guide pipe, and the flow guide pipe is arranged in the second dissolving cavity and extends to the first dissolving cavity; a second gas injection pipe is arranged at the bottom end of the box body, which is positioned at the first dissolution cavity, and a third gas injection pipe is arranged at the top end of the box body, which is positioned at the second dissolution cavity; the second dissolving cavity is communicated with the third cavity through a communicating hole;

a mineral porous carrier for containing active mineral raw materials is arranged in the third cavity; the bottom end of the third cavity is provided with a liquid outlet pipe communicated with the third cavity.

Furthermore, a plurality of flow baffles horizontally arranged in the third cavity divide the third cavity into a plurality of mineral substance adding cavities, and each flow baffle is provided with a flow limiting hole; a mineral porous carrier is disposed within each mineral addition chamber.

Furthermore, the filter screen comprises an upper net, a middle net and a lower net, the upper net adopts an HEPA net, the aperture of the mesh of the upper net is 0.3 μm, the middle net is a hollow mesh structure, activated carbon is filled in the mesh structure, and the aperture of the mesh of the lower net is 2.5 μm.

Furthermore, a first valve, a third valve, a fourth valve, a second valve and a fifth valve are respectively arranged on the first gas injection pipe, the second gas injection pipe, the third gas injection pipe, the liquid inlet pipe and the liquid outlet pipe.

Further, the first gas injection pipe, the second gas injection pipe and the third gas injection pipe are respectively connected with a first high-pressure gas pump, a second high-pressure gas pump and a third high-pressure gas pump.

Furthermore, a liquid scale is arranged on the outer side of the first cavity.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the gas-containing water treatment device provided by the utility model has simple structure, and carbon dioxide, oxygen, hydrogen and other gases are injected into the box body through different high-pressure air pumps, so that the carbon dioxide, oxygen, hydrogen and other gases are dissolved by water in the box body; then the gas-containing water contacts with the active mineral raw material, and active mineral ions in the active mineral raw material are diffused into the water to provide various mineral ions required by the human body; the water-containing water drinking device can be applied to communities, large-scale water treatment equipment does not need to be introduced into the communities, people who have demands for the water-containing water can drink the water-containing water in designated places of the communities, and the needs of residents for the water-containing water are met.

Furthermore, a plurality of flow baffles horizontally arranged in the third cavity divide the third cavity into a plurality of mineral substance adding cavities, and each flow baffle is provided with a flow limiting hole; a mineral porous carrier is disposed within each mineral addition chamber.

The flowing distance of the gas-containing water in the third cavity is increased, and the mineral ions are fully mixed in the gas-containing water in the flowing process of the gas-containing water in different mineral adding cavities.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural diagram of the filter screen of the present invention.

Wherein, 1 is the box, 2 is first division board, 21 is the agitator, 22 is the motor, 23 is the filter screen, 231 is the upper net, 232 is the well net, 233 is the lower net, 3 is the second division board, 31 is the honeycomb duct, 32 is the third division board, 33 is the water conservancy diversion hole, 34 is the intercommunicating pore, 4 is first gas injection pipe, 41 is first valve, 5 is the feed liquor pipe, 51 is the second valve, 6 second gas injection pipes, 61 is the third valve, 7 third gas injection pipes, 71 is the fourth valve, 8 is the spoiler, 81 is the porous carrier of mineral substance, 82 is the restricted aperture, 9 is the drain pipe, 91 is the fifth valve.

Detailed Description

The present invention will now be described in further detail with reference to the attached drawings, which are provided for purposes of illustration and not limitation.

Specific examples are given below.

As shown in fig. 1, the utility model comprises a box body 1, a first partition board 2 and a second partition board 3 vertically arranged in the box body 1 divide the box body 1 into a first cavity, a second cavity and a third cavity which are communicated in sequence;

the filter screen 23 horizontally arranged in the first cavity divides the first cavity into a stirring cavity and a filtering cavity; the filter cavity is communicated with an external water pipeline through a liquid inlet pipe 5; a stirrer 21 driven by a motor 22 is arranged in the stirring cavity; a first gas injection pipe 4 is arranged at the top end of the stirring cavity of the box body 1;

a third partition plate 32 is horizontally arranged in the second cavity to vertically divide the second cavity into a first dissolving cavity and a second dissolving cavity, and a diversion hole 33 is formed in the third partition plate 32; the first dissolving cavity is communicated with the stirring cavity through a guide pipe 31, and the guide pipe 31 is arranged in the second dissolving cavity and extends to the first dissolving cavity; a second gas injection pipe 6 is arranged at the bottom end of the box body 1 positioned at the first dissolution cavity, and a third gas injection pipe 7 is arranged at the top end of the box body 1 positioned at the second dissolution cavity; the second dissolving cavity is communicated with the third cavity through a communication hole 34;

a mineral porous carrier 81 for containing active mineral raw materials is arranged in the third cavity; the bottom end of the third cavity is provided with a liquid outlet pipe 9 communicated with the third cavity.

To the above needs, the box body 1 is made of metal plates, and the plates are connected by welding, so that the inside of the box body 1 can bear larger air pressure; a groove is formed in the circumferential direction of the inner wall of the box body 1, and the first partition plate 2 and the second partition plate 3 are clamped in the groove and sealed through a sealing rubber strip; the inner walls of the first cavity and the second cavity are respectively provided with a bulge, and the filter screen 23 and the third partition plate 32 are respectively fixedly connected to the bulges through screws;

to further explain the above requirement, water is introduced into the filtering cavity from the liquid inlet pipe 5, the water is filtered by the filtering net 23 to remove fine particles in the water, and then enters the stirring cavity, the carbon dioxide gas is injected into the stirring cavity from the carbon dioxide gas source through the first gas injection pipe 4 by the first high-pressure gas pump 42, and the water is fully mixed with the carbon dioxide gas under the action of the stirrer 21; immediately after the water enters the first dissolving cavity, the second high-pressure air pump 62 injects oxygen gas into the first dissolving cavity through the second gas injection pipe 6, because the volume of the first dissolving cavity is limited, the pressure in the first dissolving cavity is increased under the continuous gas injection effect, which promotes the oxygen to be dissolved into the water; the gas-containing water in the first dissolving cavity enters the second dissolving cavity through the diversion hole 33, the hydrogen is injected into the second dissolving cavity from the hydrogen source through the third gas injection pipe 7 by the third high-pressure gas pump 72, the volume of the same second dissolving cavity is limited, and the pressure in the second dissolving cavity is increased under the continuous gas injection effect, so that the hydrogen is promoted to be dissolved into the water; the third partition plate 32 for partitioning the first dissolution chamber and the second dissolution chamber is provided to prevent mutual influence of the dissolution of oxygen and hydrogen into water; the gas-containing water body enters the third cavity through the communicating hole 34, the water body enters the mineral substance porous carrier 81 containing the active mineral substance raw material, the water is contacted with the active mineral substance raw material and diffuses active mineral substance ions into the water, and the water contains mineral substance ions beneficial to the human body so as to meet the demand of drinking water.

Further, as shown in fig. 1, a plurality of flow baffles 8 horizontally arranged in the third cavity divide the third cavity into a plurality of mineral adding cavities, and each flow baffle 8 is provided with a flow restriction hole 82; a mineral porous carrier 81 is provided within each mineral addition chamber. The number of the spoilers 8 is not less than two, and the spoilers are fixedly connected in the third cavity through screws; the flow limiting holes 82 are used for communicating different mineral substance adding cavities, and the adjacent two flow limiting holes 82 are not aligned, so that the retention time of the water body in each disinfection cavity is prolonged, the contact time of water and mineral substance raw materials is prolonged, and more mineral substance ions in the active mineral substance raw materials are fully diffused into the water body; optimally, the mineral porous carrier 81 is arranged at the position of the flow limiting hole 82; the water must first come into contact with the mineral feedstock before it can flow through the restricted orifice 82 into the next chamber, allowing the mineral ions of the activated mineral feedstock species to diffuse sufficiently into the water.

Further, as shown in fig. 2, the filter screen 23 includes an upper screen 231, a middle screen 232 and a lower screen 233, the upper screen 231 is a HEPA screen, the mesh aperture of the upper screen 231 is 0.3 μm, the middle screen 232 is a hollow mesh structure, the mesh structure is filled with activated carbon, and the mesh aperture of the lower screen 233 is 2.5 μm. The upper net 231 and the lower net 233 filter the solid fine particles, the activated carbon in the middle net 232 adsorbs the solid impurities, and the fine solid impurities in the water body are filtered in a grading way, so that the blockage of the filter screen 23 is avoided.

Further, as shown in fig. 1, the first gas injection pipe 4, the second gas injection pipe 6, the third gas injection pipe 7, the liquid inlet pipe 5 and the liquid outlet pipe 9 are respectively provided with a first valve 41, a third valve 61, a fourth valve 71, a second valve 51 and a fifth valve 91. When the liquid level of the water body entering the box body 1 rises too high or too low, the opening and closing sizes of the second valve 51 and the fifth valve 91 can be adjusted to control the flow rate entering the box body 1 and the flow rate of the fluid flowing out of the box body 1; meanwhile, when the components in the box body 1 need to be overhauled, the second valve 51 and the fifth valve 91 are closed, and the components in the box body 1 are overhauled after the water in the box body 1 is discharged. When the air pressure in the box body 1 is too high, the first high-pressure air pump, the second high-pressure air pump and the third high-pressure air pump are closed, and meanwhile, the first valve 41, the third valve 61 and the fourth valve 71 are closed, so that the gas in the box body 1 is prevented from flowing backwards.

Further, as shown in fig. 1, a liquid scale is arranged outside the first cavity; personnel can observe the liquid level height of the water body in the box body 1 from the outer side of the box body 1; and then the opening and closing sizes of the second valve 51 and the fifth valve 91 are adjusted to make the flow rates of the liquid inlet pipe 5 and the liquid outlet pipe 9 consistent.

The embodiments given above are preferred examples for implementing the present invention, and the present invention is not limited to the above-described embodiments. Any non-essential addition and replacement made by the technical features of the technical solution of the present invention by those skilled in the art all belong to the protection scope of the present invention.

Claims (4)

1. The gas-containing water treatment device is characterized by comprising a box body (1), wherein a first partition plate (2) and a second partition plate (3) which are vertically arranged in the box body (1) divide the box body (1) into a first cavity, a second cavity and a third cavity which are communicated in sequence;

a filter screen (23) horizontally arranged in the first cavity divides the first cavity into a stirring cavity and a filtering cavity up and down; the filter cavity is communicated with an external water pipeline through a liquid inlet pipe (5); a stirrer (21) driven by a motor (22) is arranged in the stirring cavity; a first gas injection pipe (4) is arranged at the top end of the stirring cavity of the box body (1);

a third partition plate (32) is horizontally arranged in the second cavity to vertically divide the second cavity into a first dissolving cavity and a second dissolving cavity, and a diversion hole (33) is formed in the third partition plate (32); the first dissolving cavity is communicated with the stirring cavity through a guide pipe (31), and the guide pipe (31) is arranged in the second dissolving cavity and extends to the first dissolving cavity; a second gas injection pipe (6) is arranged at the bottom end of the box body (1) positioned at the first dissolving cavity, and a third gas injection pipe (7) is arranged at the top end of the box body (1) positioned at the second dissolving cavity; the second dissolving cavity is communicated with the third cavity through a communicating hole (34);

a mineral porous carrier (81) for containing active mineral raw materials is arranged in the third cavity; the bottom end of the third cavity is provided with a liquid outlet pipe (9) communicated with the third cavity.

2. The gas-containing water treatment device according to claim 1, wherein a plurality of flow baffles (8) horizontally arranged in the third cavity divide the third cavity into a plurality of mineral adding cavities, and each flow baffle (8) is provided with a flow limiting hole (82); a mineral porous carrier (81) is provided within each mineral addition chamber.

3. The gas-containing water treatment device according to claim 1, wherein the filter screen (23) comprises an upper net (231), a middle net (232) and a lower net (233), the upper net (231) adopts a HEPA net, the mesh aperture of the upper net (231) is 0.3 μm, the middle net (232) is a hollow mesh structure, activated carbon is filled in the mesh structure, and the mesh aperture of the lower net (233) is 2.5 μm.

4. The gas-containing water treatment device according to claim 1, wherein the first gas injection pipe (4), the second gas injection pipe (6), the third gas injection pipe (7), the liquid inlet pipe (5) and the liquid outlet pipe (9) are respectively provided with a first valve (41), a third valve (61), a fourth valve (71), a second valve (51) and a fifth valve (91).

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