CN211896387U - Hydrogen-rich water generator and water purifier with same - Google Patents

Abstract

A hydrogen-rich water generator comprising: the hydrogen generating device comprises a shell, a filter material cavity and an air cavity, wherein the filter material cavity and the air cavity are formed in the shell and are communicated by fluid, the filter material cavity and the air cavity are sequentially distributed from bottom to top, and a filter material for generating hydrogen is accommodated in the filter material cavity; the first water inlet is formed below the filter material cavity; the second water inlet is formed above the air cavity; the water outlet is formed above the shell and communicated with the air cavity through a water outlet hole; the water flow flows in from the first water inlet, passes through the filter material, enters the air cavity and is mixed with the water flow flowing in from the second water inlet, and the mixed water flow enters the water outlet from the water outlet and is discharged outwards. A water purifier is also provided. The utility model provides a composite construction that hydrogen-rich water generator adopted has reduced the water route length in the purifier, has improved the hydrogen content in the aquatic to match with other filter flasks very easily, have good suitability.

Description

Hydrogen-rich water generator and water purifier with same

Technical Field

The utility model belongs to the technical field of water purification unit, especially, relate to a hydrogen-rich water generater to and a purifier that has this kind of hydrogen-rich water generater.

Background

At present, the modes for generating hydrogen-rich water are more, and are generally summarized into two modes, one mode is an electrolysis mode, and the other mode is a filter element generation mode. The latter generally employs magnesium ore or alloy ore, which reacts directly with water to produce hydrogen. If the technical scheme disclosed in taiwan patent (TWM 492188U) is as follows: ".. when the water purifier is used, tap water enters the initial filter element 20 from the water inlet element 11, is filtered by the intermediate filter element 21 and the final filter element 22 in sequence and is stored in the water storage barrel 30, at the moment, the water stored in the water storage barrel is pure water, when people want to cook, brew milk and drink medicine, the pure water in the water storage barrel 30 flows into the first energy filter element 40, and becomes energy pure water after the action of the plurality of ceramic particles 41, and then flows out from the first water outlet element 12 for drinking, and water molecules in the energy pure water have excellent dissolved oxygen, which can help the medicine to be absorbed by drinkers quickly. When a general user drinks, the pure water in the water storage barrel 30 flows into the reduction filter 50, the reduction filter 50 contains nano hydrophilic catalyst material which is a composite structure filter material, the dissociation efficiency is generated by the catalyst principle, the pure water in the reduction filter 50 is changed into alkaline hydroxide ion water with negative potential, the alkaline hydroxide ion water with negative potential is changed into alkaline hydroxide ion water with negative potential after being acted by the plurality of ceramic particles 61 in the second energy filter 60, and the alkaline hydroxide ion water with negative potential flows out from the second water outlet for drinking, the alkaline hydroxide ion water with negative potential has small water molecules, is easy to be absorbed by human bodies, contains rich hydroxide ions, effectively reduces free radicals in the water, and neutralizes acidic physique. "

The waterway structure of the prior art has to use at least two filter bottles to generate hydrogen-rich water, and the waterway is long, so that the hydrogen content in the hydrogen-rich water is limited, and the waterway structure is not easy to match with other filter bottles.

Disclosure of Invention

The utility model discloses it is longer to hydrogen-rich water purifier water route among the prior art, the problem that hydrogen content is limited and be difficult to match with other filter flasks among the hydrogen-rich water, designs and provides a brand-new hydrogen-rich water generator.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme to realize:

a hydrogen-rich water generator comprising: the hydrogen generating device comprises a shell, a filter material cavity and an air cavity, wherein the filter material cavity and the air cavity are formed in the shell and are communicated by fluid, the filter material cavity and the air cavity are sequentially distributed from bottom to top, and a filter material for generating hydrogen is accommodated in the filter material cavity; a first water inlet formed below the filter material chamber; a second water inlet formed above the air cavity; the water outlet is formed above the shell and communicated with the air cavity through a water outlet hole; and water flows in from the first water inlet, passes through the filter material, enters the air cavity and is mixed with water flows flowing in from the second water inlet, and the mixed water flows enter the water outlet from the water outlet and is discharged outwards.

In order to increase the contact time of hydrogen and water and improve the dissolved hydrogen amount in water, the method also comprises the following steps: the damping layer is arranged in the air cavity, and a plurality of micropores are formed on the damping layer.

Further, the housing further includes:

the first water inlet is formed in the bottom cover; and

the top cap, the second water inlet is seted up on the top cap, the top cap still has connecting portion, connecting portion are along the perpendicular to the direction of top cap extends respectively to the top down, the inside cavity of connecting portion is in order to form the delivery port.

Further, first water inlet includes a plurality of and evenly distributed is in on the bottom cover, the second water inlet is seted up connecting portion one side, the second water inlet includes a plurality of micropores of intaking.

Preferably, the water outlet hole is obliquely arranged, the water outlet hole has a first end and a second end, the first end is close to the connecting portion, and the position of the first end is higher than that of the second end.

In order to play interception and filter effect, still include:

the first filter screen is arranged between the bottom cover and the filter material; and

a second filter screen disposed between the air cavity and the filter material cavity.

Further, the method also comprises the following steps:

the supporting tube is arranged in the shell in a penetrating mode, the upper end of the supporting tube is connected with the connecting portion, and the lower end of the supporting tube is connected with the bottom cover; the damping layer, the first filter screen, the second filter screen and the filter material are distributed around the supporting tube.

Preferably, the filter material is a mixture of magnesium particles, activated carbon and special ceramic particles.

Another aspect of the utility model provides a water purifier, including hydrogen-rich water generator, include: the hydrogen generating device comprises a shell, a filter material cavity and an air cavity, wherein the filter material cavity and the air cavity are formed in the shell and are communicated by fluid, the filter material cavity and the air cavity are sequentially distributed from bottom to top, and a filter material for generating hydrogen is accommodated in the filter material cavity; a first water inlet formed below the filter material chamber; a second water inlet formed above the air cavity; the water outlet is formed above the shell and communicated with the air cavity through a water outlet hole; and water flows in from the first water inlet, passes through the filter material, enters the air cavity and is mixed with water flows flowing in from the second water inlet, and the mixed water flows enter the water outlet from the water outlet and is discharged outwards.

Compared with the prior art, the utility model discloses an advantage is with positive effect:

the utility model provides a composite construction that hydrogen-rich water generator adopted has reduced the water route length in the purifier, has improved the hydrogen content in the aquatic to match with other filter flasks very easily, have good suitability.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when read in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a hydrogen-rich water generator provided by the present invention;

fig. 2 is a schematic structural view of a bottom cover in the hydrogen-rich water generator shown in fig. 1;

fig. 3 is a schematic structural view of a top cover in the hydrogen-rich water generator shown in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In order to solve the problems that the water path of the hydrogen-enriched water purifier in the prior art is long, the hydrogen content of the hydrogen-enriched water is limited and the hydrogen-enriched water is not easy to be matched with other filter bottles, a brand new hydrogen-enriched water generator is shown in figure 1. Unlike the prior art, the hydrogen-rich water generator 1 includes a housing 10, and the housing 10 is preferably designed to be cylindrical, and the cross section of the housing 10 may be designed to be rectangular, rounded rectangular or other shapes according to industrial designs with different product appearances, which is not limited herein. A filter material cavity 11 and an air cavity 12 which are communicated with each other by fluid are formed in the shell 10, and the filter material cavity 11 and the air cavity 12 are sequentially distributed from bottom to top. The filter material chamber 11 accommodates a filter material 13 for generating hydrogen. The filter material 13 is preferably composed of a mixture of magnesium metal particles 30, activated carbon particles 29 and special ceramic particles 31, wherein the special ceramic particles 31 can activate water quality while promoting the reaction of water and magnesium metal so that the hydrogen content is maintained at a high level. The space ratio of the filter material 13 in the filter material cavity 11 is not more than 85%. The housing 10 has a first water inlet 14 and a second water inlet 15, the first water inlet 14 being formed below the filter media chamber 11 and the second water inlet 15 being formed above the air chamber 12. A water outlet 17 of the hydrogen-enriched water generator 1 is formed above the shell 10, and the water outlet 17 is communicated with the air cavity 12 through a water outlet hole 18. When the hydrogen-rich water generator works, water flows into the filter material cavity 11 from the first water inlet 14 from bottom to top and enters the air cavity 12 after passing through the filter material 13, meanwhile, the other water flows enter the air cavity 12 from top to bottom, the two water flows are mixed in the cavity and then enter the water outlet 17 through the water outlet hole 18 and are discharged outside. The hydrogen-rich water generator 1 may be connected to a filter bottle or other filter element located downstream through a pipe, thereby further improving the water quality. The composite structure of the hydrogen-rich water generator 1 reduces the water path length in the water purifier, improves the hydrogen content in water, is easy to match with other filter bottles, and has good applicability.

As shown in fig. 1, a damping layer 19 is also provided in the air chamber 12. The air chamber 12 is divided into upper and lower portions by a damping layer 19, and a plurality of minute holes 20 are formed on the damping layer 19. The damping layer 19 can be used for storing excessive hydrogen, increasing the contact time of the hydrogen and water and increasing the amount of dissolved hydrogen in the water. When excessive hydrogen is generated, the air chambers 12 on both sides of the damping layer 19 can play a role in storing hydrogen, so that the hydrogen is prevented from rapidly overflowing from the water outlet 17.

As shown in fig. 1, taking a cylindrical housing 10 as an example, a top cover 22 and a bottom cover 21 are provided at both ends of the housing 10. Wherein the first water inlet 14 is provided on the bottom cover 21 and the second water inlet 15 is provided on the top cover 22. More specifically, as shown in fig. 2, the first water inlet 14 includes a plurality of water inlets and is uniformly distributed on the bottom cover 21. The second water inlet 15 is opened at one side of the connection portion 16. The second water inlet 15 includes a plurality of water inlet pores 20, as shown in fig. 3. The top cover 22 and the bottom cover 21 are connected to the side plates enclosing the case 10 by ultrasonic welding. The top cover 22 has a connecting portion 16, the connecting portion 16 extends in a direction perpendicular to the top cover 22 in two directions, and the connecting portion 16 is hollow to form a water outlet 17 facing vertically upward. The corresponding outlet holes 18 are arranged obliquely, and the outlet holes 18 comprise one or more. If a plurality of outlet holes 18 are provided, the outlet holes 18 are arranged around and evenly, the outlet holes 18 having a first end and a second end, the first end being close to the connecting portion 16, the first end being located higher than the second end. The inclined arrangement of the water outlet holes 18 can increase the contact time of water and hydrogen gas, so that more hydrogen gas is dissolved in the water.

As shown in fig. 1, a first filter 26 is disposed between the bottom cover 21 and the filter media 13, and a second filter 27 is disposed between the filter media chamber 11 and the air chamber 12. The first filter screen 26 and the second filter screen 27 play a role in filtering and intercepting, so as to prevent the filter material 13 (i.e. the magnesium particles 30, the activated carbon particles 29 and the special ceramic particles 31) from leaking outwards, and simultaneously filter the turbid substances generated after the filter element reacts with water.

A support pipe 28 is also provided in the housing 10, the support pipe 28 passing through the entire housing 10. The upper end of the support tube 28 is connected to the connecting part 16, i.e. the connecting part 16 extends into the support tube 28 from top to bottom, and the lower end of the support tube 28 is connected to the bottom cover 21, i.e. the bottom cover 21 extends into the support tube 28 from bottom to top. The damping layer 19, the first screen 26, the second screen 27 and the filter material 13 are distributed around the support tube 28. Water enters the shell 10 through the first water inlet 14 on the bottom cover 21, flows through the first filter screen 26, the filter material 13 consisting of magnesium particles 30, activated carbon particles 29 and special ceramic particles 31, then enters the air cavity 12 through the second filter screen 27, water entering the air cavity 12 flows through the damping layer 19 and is mixed with water flowing in through the second water inlet 15 on the top cover 22, the mixed water enters the water outlet 17 through the water outlet hole 18 and is extruded from the top water outlet 17, and the whole water path circulation is completed.

The utility model also provides a water purifier, including hydrogen-rich water generator. The structure of the hydrogen-rich water generator is described in detail in the above embodiments, and will not be described in detail here. The water purifier with the hydrogen-rich water generator can achieve the same technical effects.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or that equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.

Claims (9)

1. A hydrogen-rich water generator, comprising:

the hydrogen generating device comprises a shell, a filter material cavity and an air cavity, wherein the filter material cavity and the air cavity are formed in the shell and are communicated by fluid, the filter material cavity and the air cavity are sequentially distributed from bottom to top, and a filter material for generating hydrogen is accommodated in the filter material cavity;

a first water inlet formed below the filter material chamber;

a second water inlet formed above the air cavity; and

the water outlet is formed above the shell and communicated with the air cavity through a water outlet hole;

and water flows in from the first water inlet, passes through the filter material, enters the air cavity and is mixed with water flows flowing in from the second water inlet, and the mixed water flows enter the water outlet from the water outlet and is discharged outwards.

2. The hydrogen-rich water generator of claim 1, further comprising:

the damping layer is arranged in the air cavity, and a plurality of micropores are formed on the damping layer.

3. The hydrogen-rich water generator of claim 2,

the housing further includes:

the first water inlet is formed in the bottom cover; and

the top cap, the second water inlet is seted up on the top cap, the top cap still has connecting portion, connecting portion are along the perpendicular to the direction of top cap extends respectively to the top down, the inside cavity of connecting portion is in order to form the delivery port.

4. The hydrogen-rich water generator of claim 3,

the first water inlet comprises a plurality of water inlets which are evenly distributed on the bottom cover, the second water inlet is arranged on one side of the connecting part, and the second water inlet comprises a plurality of water inlet micropores.

5. The hydrogen-rich water generator of claim 4,

the apopore slope sets up, the apopore has first end and second end, wherein first end is close to connecting portion, the position of first end is higher than the position of second end.

6. The hydrogen-rich water generator of claim 5, further comprising:

the first filter screen is arranged between the bottom cover and the filter material; and

a second filter screen disposed between the air cavity and the filter material cavity.

7. The hydrogen-rich water generator of claim 6, further comprising:

the supporting tube is arranged in the shell in a penetrating mode, the upper end of the supporting tube is connected with the connecting portion, and the lower end of the supporting tube is connected with the bottom cover; the damping layer, the first filter screen, the second filter screen and the filter material are distributed around the supporting tube.

8. The hydrogen-rich water generator of any one of claims 1 to 7,

the filter material is a mixture of magnesium particles, activated carbon and special ceramic particles.

9. A water purifier, characterized by comprising the hydrogen-rich water generator of any one of claims 1 to 8.

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