CN112973555B

CN112973555B - Hydrogen-rich water manufacture equipment

Info

Publication number: CN112973555B
Application number: CN202110415726.1A
Authority: CN
Inventors: 孟幸
Original assignee: Guangzhou Golden Hydrogen Biotechnology Co ltd
Current assignee: Henan Fuhe Supply Chain Management Co.,Ltd.
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2021-07-23
Anticipated expiration: 2041-04-19
Also published as: CN112973555A

Abstract

The invention belongs to the technical field of hydrogen-rich water manufacture, and particularly discloses hydrogen-rich water manufacture equipment, which comprises a tank body, the top of the tank body is fixedly sleeved with a sealing tank cover, the bottom end of the tank body is provided with a discharging and filtering structure, and the bottom of the tank body is supported by a supporting frame, a feed opening is vertically arranged on the inclined plane at the top of the sealing tank cover, a sealing disc plug is inserted at the top end of the feed opening, the interior of the tank body is provided with a stirring mechanism which comprises an aggregate ring groove hopper arranged in the tank body, a semi-spherical cover is fixedly arranged at the top end of the inner side of the material collecting ring groove hopper, an upper charging barrel is vertically arranged at the middle position of the inner side of the semi-spherical cover, the top end of the semi-spherical cover is fixedly provided with a dispersion disc box, the upper charging barrel is communicated with the dispersion disc box, and a plurality of upper dispersion pipes are obliquely communicated with the bottom of the outer side of the dispersion disc box at equal intervals along the circumferential direction. Compared with the prior art, the method effectively improves the manufacturing efficiency of the hydrogen-rich water.

Description

Hydrogen-rich water manufacture equipment

Technical Field

The invention belongs to the field of hydrogen-rich water manufacturing, and particularly discloses hydrogen-rich water manufacturing equipment.

Background

Hydrogen is added into common drinking water by hydrogen-rich water, the hydrogen-rich water is a carrier of the hydrogen, and the water for dissolving the hydrogen does not change the physical properties of the water, namely the water does not influence the effect of the water. Although hydrogen water is an ideal tool for supplementing hydrogen gas, there is a very difficult difficulty to overcome, namely, the solubility of hydrogen gas is very low, and how to improve the stable dissolution of hydrogen gas in water becomes an important problem in this field. The method for increasing the solid particles in the water is a method for increasing gas dissolution, and realizes the purpose of increasing the gas dissolution in the water by utilizing the characteristic that the surfaces of macromolecular particles adsorb micro bubbles.

Disclosure of Invention

In view of this, the present invention provides a hydrogen-rich water manufacturing apparatus to solve the problems of low stirring efficiency and poor mixing uniformity of the stirring apparatus in the prior art.

In order to achieve the above purpose, the invention provides hydrogen-rich water manufacturing equipment, which comprises a tank body, wherein a sealing tank cover is fixedly sleeved at the top of the tank body, a discharging and filtering structure is arranged at the bottom end of the tank body, the bottom of the tank body is supported by a support frame, a feeding port is vertically arranged on an inclined surface at the top of the sealing tank cover, a sealing disc plug is inserted at the top end of the feeding port, a stirring mechanism is arranged inside the tank body, the stirring mechanism comprises a collecting ring groove hopper arranged inside the tank body, a semicircular ball cover is fixedly arranged at the top end of the inner side of the collecting ring groove hopper, a feeding barrel is vertically arranged at the middle position of the inner side of the semicircular ball cover, a dispersing disk box is fixedly arranged at the top end of the semicircular ball cover, the feeding barrel is communicated with the dispersing disk box, the bottom of the outer side of the dispersing disk box is obliquely communicated with a plurality of upper dispersing tubes at equal intervals along the circumferential direction, many go up the dispersion pipe and laminate jointly and all be the arc perk form in hemisphere cover upper surface and its bottom, many go up the common intercommunication of dispersion pipe bottom opening part and install the unloading ring canal, many dispersion pipes down are installed to the vertical intercommunication of bottom equidistance of unloading ring canal, just many logical material pipes are installed to the intercommunication between collection ring groove fill bottom and the last feed cylinder bottom, lead to the material outside annular of the last feed cylinder of pipe below and seted up a plurality of through-holes, stirring leaf under the polylith is installed along the circumferencial direction equidistance to the last feed cylinder outer wall of collection ring groove fill below, the top of dispersion disk box is provided with actuating mechanism, just go up the inside material loading that is provided with of feed cylinder and fill hydrogen mechanism the top of dispersion disk box is provided with dispersion impact mechanism.

In the above technical scheme, it is preferred, arrange the material filtration and include that vertical intercommunication is installed at jar body bottom edge department and is arranged the material pipe, arrange the outside of material pipe and install the relief valve, arrange the bottom intercommunication of material pipe and install and filter the piece, the bottom of arranging the material pipe is provided with the drainage connector.

In the above technical scheme, it is preferred, the support frame is including fixed cup joint at the ring frame in jar body bottom outside, a plurality of fixed covers are installed along the circumferencial direction equidistance in the outside of ring frame, the equal vertical fixing clip in inside of fixed cover is equipped with the support column, many the common horizontally connected in bottom of support column has the support ring.

In the above technical scheme, preferably, the feeding and hydrogen filling mechanism includes an inner spiral blade fixedly installed on an inner wall of the charging barrel, a fixed disk is fixedly clamped at a middle position of a bottom end inside the tank body, a hydrogen filling pipe shaft is vertically and fixedly inserted at a middle position of an inner side of the fixed disk, the hydrogen filling pipe shaft extends into the dispersion disk box through the charging barrel, a gap is reserved between the outer wall of the hydrogen filling pipe shaft and the inner spiral blade, the bottom of the hydrogen filling pipe shaft extends to the outside of the tank body, a lower check valve is installed at the outer side of the hydrogen filling pipe shaft, and a plurality of gas filling holes are uniformly formed in the hydrogen filling pipe shaft at the gap of the inner spiral blade.

In the above technical scheme, preferably, the outer helical blade is fixedly mounted on the outer wall of the upper charging barrel on the inner side of the semicircular cover above the lower stirring blade, and the outer diameter of the outer helical blade is gradually increased from bottom to top.

In the above technical scheme, preferably, the driving mechanism includes a driving motor fixedly mounted at the top end of the sealing tank cover, an output shaft of the driving motor penetrates through the sealing tank cover and the end part of the driving motor is vertically connected with a driving shaft, the driving shaft extends to the inside of the tank body and the end part of the driving shaft is fixedly connected with the top end of the dispersion disc box.

In the above technical scheme, it is preferred, dispersion impact mechanism includes the collecting tray section of thick bamboo of fixed mounting in the drive shaft outside, collecting tray section of thick bamboo is located dispersion disk cartridge top, just many lower conveying pipelines are installed along circumferencial direction equidistance slope intercommunication in the bottom outside of collecting tray section of thick bamboo, the discharge port of conveying pipeline all is towards collecting ring groove fill down, many last conveying pipelines are installed along circumferencial direction equidistance slope intercommunication in the top outside of collecting tray section of thick bamboo, and is adjacent go up the conveying pipeline and be the symmetry setting and between the conveying pipeline equidistance slope install stirring leaf on the polylith, many the top of going up the conveying pipeline is connected with water injection mechanism jointly.

In the technical scheme, it is preferred, water injection mechanism includes the U type ring cover of fixed mounting on sealed cover inner wall, the vertical intercommunication in top of U type ring cover is installed and is annotated the material pipe, annotate the material pipe and extend to sealed cover outside and tip and install the check valve, the through-flow direction of going up the check valve is by annotating the material pipe and circulate to U type ring cover inside the inboard opening part of U type ring cover is provided with the seal ring board, many go up the common intercommunication of conveying pipeline and install on the seal ring board inner wall, just the seal ring board is kept away from the both ends of conveying pipeline one side and all is installed sealed snap ring, the seal ring board clamps at U type ring cover opening part through two sealed snap ring seal slip.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the feeding port is arranged, so that solid particles can be fed into the tank body, then the solid particles are sealed by the sealing disc plug, the arranged material injection pipe can inject water into the U-shaped ring sleeve in order, the arranged upper material conveying pipe, the material collecting disc cylinder and the lower material conveying pipe can convey the water in the U-shaped ring sleeve to the tank body in a distributed manner, so that the injected water has a plurality of impact points, the solid particles fed into the tank body are effectively dispersed, the subsequent stirring effect is improved, and the arranged upper check valve can avoid the leakage of air pressure in the tank body;

2. meanwhile, the material collecting disc cylinder is fixedly connected with the driving shaft, so that the driving shaft can drive the material collecting disc cylinder, the lower conveying pipe and the upper conveying pipe to rotate, discharged water is injected into the tank body in a rotating and dispersing manner, the mixing performance of the water in the conveying process is effectively improved, the sealing ring plate and the sealing snap ring are arranged to ensure the sealing performance of water conveying inside the U-shaped ring sleeve and the water pressure impact performance of water discharge, and the water and solid particles inside the tank body can be stirred by the upper stirring blades, so that the adsorption efficiency of the solid particles on small bubbles is improved, and the solubility of gas in water is rapidly increased;

3. the arranged material collecting ring groove hopper and the lower stirring blade can stir water and solid particles in the tank body again under the driving of the driving shaft, the material feeding barrel in the rotating process can drive the inner spiral blade to rotate, so that the water and the solid particles introduced by the material feeding pipe and the through hole are pushed to the interior of the dispersing disk box and then are dispersed by the upper dispersing pipe, the lower dispersing pipe is used for recycling, and finally the materials are dispersed by the lower dispersing pipe, so that the stirring efficiency of the solid particles and the water can be increased by double dispersion, the layering phenomenon of the stirring materials at the middle section and the bottom section in the tank body can be avoided by the arranged material feeding pipe and the through hole, the mixing uniformity of the stirring materials is greatly improved, the stirring materials below the ring groove hopper can be pushed to the inner wall at the top of the semicircular spherical cover by the arranged outer spiral blade, and the inner wall of the semicircular spherical cover is arc-shaped, thereby dispersing all around and increasing the stirring uniformity;

4. after solid particles and water are fully stirred, the solid particles and the water can be connected with external hydrogen production equipment through the arranged hydrogen filling pipe shaft, so that hydrogen is flushed into the stirred material fully stirred in the upper charging barrel through the gas filling hole, and the stirred material is still in a continuous stirring state in the process of flushing the hydrogen, so that the mixing efficiency of the hydrogen and the stirred material is increased, and the arranged lower check valve can prevent the stirred material from flowing backwards through the hydrogen filling pipe shaft;

5. through the arrangement of the filtering piece, the particles in the hydrogen-rich water can be filtered, collected and processed when the hydrogen-rich water is discharged, so that the quality of the hydrogen-rich water is ensured;

to sum up, this equipment compares with prior art and has effectively improved hydrogen-rich water's manufacturing efficiency.

Drawings

FIG. 1 is a schematic structural view of an apparatus for producing hydrogen-rich water according to the present invention;

fig. 2 is a schematic cross-sectional structural view of an apparatus for producing hydrogen-rich water according to the present invention;

FIG. 3 is a schematic view of a portion of the structure of FIG. 2;

FIG. 4 is a schematic view of FIG. 3 with a portion of the structure broken away;

FIG. 5 is a schematic view of a portion of the structure of FIG. 4;

FIG. 6 is a schematic view of a portion of the structure of FIG. 3;

FIG. 7 is a schematic cross-sectional view of FIG. 6;

FIG. 8 is a schematic view of the lower part of FIG. 7;

FIG. 9 is a schematic view of the upper portion of FIG. 7;

fig. 10 is a schematic cross-sectional structural view of a filter member of an apparatus for producing hydrogen-rich water according to the present invention.

In the figure: the device comprises a tank body 1, a material filling pipe 2, a driving motor 3, a sealing tank cover 4, a fixing sleeve 5, a material discharging valve 6, a supporting ring 7, a material discharging pipe 8, a supporting column 9, a ring frame 10, a driving shaft 11, a U-shaped ring sleeve 12, an upper stirring blade 13, a lower conveying pipe 14, a material collecting ring groove hopper 15, a lower stirring blade 16, a material passing pipe 17, an upper charging barrel 18, a discharging ring pipe 19, an upper dispersing pipe 20, a dispersing disk box 21, a material collecting disk barrel 22, an upper conveying pipe 23, a sealing ring plate 24, a sealing clamping ring 25, an outer spiral blade 26, a through hole 27, an inner spiral blade 28, a hydrogen filling pipe shaft 29, a lower dispersing pipe 30, a semicircular spherical cover 31, an upper one-way valve 32, a fixing disk 33, an air filling hole 34, a lower one-way valve 35, a material feeding port 36, a sealing disk plug 37, a filtering piece 38 and a water discharging connecting port 39.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments disclosed below.

The hydrogen-rich water manufacturing equipment shown in figures 1-10 comprises a tank body 1, a sealing tank cover 4 is fixedly sleeved at the top of the tank body 1, a discharging filtering structure is arranged at the bottom end of the tank body 1, the bottom of the tank body 1 is supported by a supporting frame, the supporting frame comprises a ring frame 10 fixedly sleeved at the outer side of the bottom of the tank body 1, a plurality of fixing sleeves 5 are equidistantly arranged at the outer side of the ring frame 10 along the circumferential direction, supporting columns 9 are vertically and fixedly clamped in the fixing sleeves 5, supporting rings 7 are jointly and horizontally connected to the bottom ends of the supporting columns 9, a feeding port 36 is vertically arranged on the inclined plane at the top of the sealing tank cover 4, a sealing disc plug 37 is inserted at the top end of the feeding port 36, a stirring mechanism is arranged in the tank body 1, the stirring mechanism comprises an aggregate ring groove hopper 15 arranged in the tank body 1, a semi-spherical cover 31 is fixedly arranged at the top end of the inner side of the aggregate ring groove hopper 15, a charging barrel 18 is vertically arranged at the middle position of the inner side of the semi-spherical cover 31, the top end of the hemispherical cover 31 is fixedly provided with a dispersion disc box 21, the upper charging barrel 18 and the dispersion disc box 21 are communicated with each other, the bottom of the outer side of the dispersion disc box 21 is obliquely and communicated with a plurality of upper dispersion pipes 20 at equal intervals along the circumferential direction, the plurality of upper dispersion pipes 20 are jointly attached to the upper surface of the hemispherical cover 31, the bottoms of the upper dispersion pipes are all in an arc-shaped tilting shape, the openings at the bottom ends of the plurality of upper dispersion pipes 20 are jointly communicated with a blanking ring pipe 19, the bottom of the blanking ring pipe 19 is vertically and communicated with a plurality of lower dispersion pipes 30 at equal intervals, a plurality of material passing pipes 17 are communicated and arranged between the bottom of the collecting ring groove hopper 15 and the bottom end of the upper charging barrel 18, the outer side of the upper charging barrel 18 below the material passing pipes 17 is annularly provided with a plurality of through holes 27, the outer wall of the upper charging barrel 18 below the collecting ring groove hopper 15 is provided with a plurality of lower stirring blades 16 at equal intervals along the circumferential direction, the top end of the dispersion disc box 21 is provided with a driving mechanism, the driving mechanism comprises a driving motor 3 fixedly arranged at the top end of the sealing cover 4, the output shaft of the driving motor 3 penetrates through the sealing tank cover 4 and the end part is vertically connected with a driving shaft 11, the driving shaft 11 extends into the tank body 1, and the end part is fixedly connected with the top end of the dispersion disc box 21.

The arranged material collecting ring groove hopper 15 and the lower stirring blade 16 can stir water and solid particles in the tank body 1 again under the drive of the drive shaft 11, the material feeding barrel 18 in the rotating process can drive the inner spiral blade 28 to rotate, so that the water and the solid particles introduced by the material feeding pipe 17 and the through hole 27 are pushed to the interior of the dispersing box 21, then the water and the solid particles are dispersed through the upper dispersing pipe 20, the material discharging ring pipe 19 is recovered, and finally the water and the solid particles are dispersed through the lower dispersing pipe 30, so that the stirring efficiency of the solid particles and the water can be increased through double dispersion, the arranged material feeding pipe 17 and the through hole 27 can prevent the stirring materials in the middle section and the bottom section in the tank body 1 from being layered, the mixing uniformity of the stirring materials is greatly improved, and the stirring materials below the material collecting ring groove hopper 15 can be pushed to the inner wall at the top of the half-round-ball cover 31 through the arranged outer spiral blade 26, the inner wall of the semi-spherical cover 31 is arc-shaped, so that the inner wall can be dispersed all around, and the stirring uniformity is improved.

A feeding and hydrogen charging mechanism is arranged in the feeding barrel 18 and comprises inner spiral blades 28 fixedly arranged on the inner wall of the feeding barrel 18, a fixed disc 33 is fixedly clamped in the middle position of the bottom end in the tank body 1, a hydrogen charging pipe shaft 29 is vertically and fixedly inserted in the middle position of the inner side of the fixed disc 33, the hydrogen charging pipe shaft 29 extends into the dispersion disc box 21 through the feeding barrel 18, a gap is reserved between the outer wall of the dispersion disc box 21 and the inner spiral blades 28, the bottom of the hydrogen charging pipe shaft 29 extends to the outside of the tank body 1, a lower one-way valve 35 is arranged on the outer side of the dispersion disc box, and a plurality of gas charging holes 34 are uniformly formed in the hydrogen charging pipe shaft 29 at the gap of the inner spiral blades 28; after solid particles and water are fully stirred, the solid particles and water can be connected with external hydrogen production equipment through the arranged hydrogen filling pipe shaft 29, so that hydrogen is flushed into the fully stirred mixture in the upper charging barrel 18 through the gas filling hole 34, and the mixture is still in a continuous stirring state in the process of flushing the hydrogen, so that the mixing efficiency of the hydrogen and the mixture is increased, and the arranged lower one-way valve 35 can prevent the mixture from flowing back through the hydrogen filling pipe shaft.

A dispersion impact mechanism is arranged above the dispersion disc box 21, the dispersion impact mechanism comprises a material collecting disc cylinder 22 fixedly arranged at the outer side of the driving shaft 11, the material collecting disc cylinder 22 is positioned above the dispersion disc box 21, a plurality of lower material conveying pipes 14 are obliquely and communicated and arranged at equal intervals along the circumferential direction at the outer side of the bottom of the material collecting disc cylinder 22, discharge ports of the lower material conveying pipes 14 face a material collecting ring hopper 15, a plurality of upper material conveying pipes 23 are obliquely and communicated and arranged at equal intervals along the circumferential direction at the outer side of the top of the material collecting disc cylinder 22, a plurality of upper stirring blades 13 are symmetrically arranged and obliquely arranged at equal intervals between the upper material conveying pipes 23 and the lower material conveying pipes 14, the top ends of the upper material conveying pipes 23 are connected with a water injection mechanism together, the water injection mechanism comprises a U-shaped ring sleeve 12 fixedly arranged on the inner wall of a sealing cover 4, an injection pipe 2 is vertically communicated and arranged at the top of the U-shaped ring sleeve 12, the injection pipe 2 extends to the outer part of the sealing cover 4, and an upper one-way valve 32 is arranged at the end part of the injection pipe, the through-flow direction of the upper one-way valve 32 is from the material injection pipe 2 to the inside of the U-shaped ring sleeve 12, a sealing ring plate 24 is arranged at an opening at the inner side of the U-shaped ring sleeve 12, a plurality of upper material conveying pipes 23 are communicated and installed on the inner wall of the sealing ring plate 24, sealing snap rings 25 are installed at two ends of one side of the sealing ring plate 24, which is far away from the upper material conveying pipes 23, and the sealing ring plate 24 is hermetically and slidably clamped at the opening of the U-shaped ring sleeve 12 through the two sealing snap rings 25; the water can be orderly injected into the U-shaped ring sleeve 12 through the arranged material injection pipe 2, the arranged upper material conveying pipe 23, the material collecting disc cylinder 22 and the lower material conveying pipe 14 can convey the water in the U-shaped ring sleeve 12 into the tank body 1 in a distributed manner, so that the injected water has a plurality of impact points, solid particles thrown in the tank body 1 are effectively dispersed, and the subsequent stirring effect is improved, meanwhile, the material collecting disc cylinder 22 is fixedly connected with the driving shaft 11, so that the driving shaft 11 can drive the material collecting disc cylinder 22, the lower material conveying pipe 14 and the upper material conveying pipe 23 to rotate, the discharged water is injected into the tank body 1 in a rotating and distributed manner, the mixing performance of the water in the conveying process is effectively improved, the sealing ring plate 24 and the sealing snap ring 25 can ensure the sealing performance of water conveying in the U-shaped ring sleeve 12 and the water pressure impact performance of water discharge, and the water and the solid particles in the tank body 1 can be stirred through the arranged upper stirring blade 13, improve the adsorption efficiency of solid particulate matter to the microbubble to this solubility that increases aquatic gas fast effectively increases the holding time and the quantity of aquatic hydrogen.

The outer helical blade 26 is fixedly arranged on the outer wall of the upper charging barrel 18 on the inner side of the semicircular spherical cover 31 above the lower stirring blade 16, and the outer diameter of the outer helical blade 26 is gradually increased from bottom to top; through the outer helical blade 26 that sets up to can push the stirring thing of gathering the annular hopper 15 below to the inner wall in half dome cover 31 top, because half dome cover 31 inner wall is circular-arc, thereby can be to dispersion all around, increase the stirring degree of consistency.

The discharging and filtering structure comprises a discharging pipe 8 vertically communicated and installed at the edge of the bottom end of the tank body 1, a discharging valve 6 is installed on the outer side of the discharging pipe 8, a filtering piece 38 is communicated and installed at the bottom end of the discharging pipe 8, and a discharging connecting port 39 is arranged at the bottom of the discharging pipe 8; through setting up and filtering piece 38 to can filter the collection processing to its inside particulate matter when excreteing the hydrogen-rich water that finishes, ensure hydrogen-rich water's quality.

The working principle is as follows: solid particles are put into the tank body 1 through the feeding port 36, then the solid particles are sealed through the sealing disc plug 37, after the sealing is finished, the water injected by the water injection mechanism is injected into the tank body 1 in a rotating and dispersing manner through the dispersing impact mechanism, the solid particles put into the tank body 1 are effectively dispersed, the subsequent stirring effect is improved, the water and the solid particles in the tank body 1 can be stirred by the dispersing impact mechanism in the rotating process, the water and the solid particles in the tank body 1 can be stirred again by the arranged collecting ring hopper 15 and the lower stirring blades 16 driven by the driving shaft 11, the inner spiral blades 28 can be driven by the upper charging barrel 18 in the rotating process to rotate, so that the water and the solid particles introduced through the material pipe 17 and the through hole 27 are pushed into the dispersing disk box 21 and then are dispersed through the upper dispersing pipe 20, the feeding ring pipe 19 is recycled, and finally the mixture is dispersed through the lower dispersing pipe 30, so that the stirring efficiency of solid particles and water can be increased through double dispersion, the layering phenomenon of the mixture at the middle section and the bottom section in the tank body 1 can be avoided through the arranged material feeding pipe 17 and the arranged through hole 27, the mixing uniformity of the mixture is greatly improved, the mixture below the collecting ring hopper 15 can be pushed to the inner wall at the top of the hemispherical cover 31 through the arranged outer spiral blades 26, the inner wall of the hemispherical cover 31 is arc-shaped, so that the mixture can be dispersed all around, the stirring uniformity is increased, when the solid particles and the water are fully stirred, the arranged hydrogen filling pipe shaft 29 can be connected with external hydrogen production equipment, so that the hydrogen is filled into the fully-stirred mixture in the charging barrel 18 through the gas filling hole 34, and the mixture is still in a continuous stirring state in the process of filling the hydrogen, therefore, the mixing efficiency of the hydrogen and the stirring materials is increased, and finally, the filtering piece 38 is arranged to filter and collect particles in the hydrogen-rich water when the hydrogen-rich water after being manufactured is discharged, so that the quality of the hydrogen-rich water is ensured.

In the present invention, the terms "mounting," "connecting," "fixing," and the like are used in a broad sense, for example, "connecting" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

In the description herein, reference to the term "one embodiment," "some embodiments," "a specific embodiment," or the like, if any, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a hydrogen-rich water manufacture equipment, includes jar body (1), the fixed cover sealing tank (4) that has cup jointed in the top of the jar body (1), the bottom of the jar body (1) is provided with row material filtration and its bottom passes through the support frame to be supported, its characterized in that, the vertical dog-house (36) that is provided with in top inclined plane of sealing tank cover (4), the top cartridge of dog-house (36) has sealed stopper (37), the inside of the jar body (1) is provided with rabbling mechanism, rabbling mechanism is including setting up the collection ring groove fill (15) inside the jar body (1), the inboard top fixed mounting of collection ring groove fill (15) has hemisphere cover (31), feed cylinder (18) are vertically installed to the inboard intermediate position of hemisphere cover (31), the top fixed mounting of hemisphere cover (31) has dispersion disk cartridge (21), feed cylinder (18) and dispersion disk cartridge (21) communicate each other, the bottom of the outer side of the dispersing disc box (21) is obliquely and obliquely communicated and provided with a plurality of upper dispersing pipes (20) at equal intervals along the circumferential direction, the upper dispersing pipes (20) are jointly attached to the upper surface of a semi-spherical cover (31), the bottoms of the upper dispersing pipes are all arc-shaped, the bottom openings of the upper dispersing pipes (20) are jointly communicated and provided with a blanking ring pipe (19), the bottoms of the blanking ring pipes (19) are vertically communicated and provided with a plurality of lower dispersing pipes (30) at equal intervals, a plurality of material passing pipes (17) are communicated and provided between the bottom of the material collecting ring groove hopper (15) and the bottom of the material feeding barrel (18), the outer side of the material feeding barrel (18) below the material passing pipes (17) is annularly provided with a plurality of through holes (27), a plurality of lower stirring blades (16) are arranged on the outer wall of the material feeding barrel (18) below the material collecting ring groove hopper (15) at equal intervals along the circumferential direction, and the top end of the dispersing disc box (21) is provided with a driving mechanism, and a feeding and hydrogen charging mechanism is arranged in the feeding barrel (18), and a dispersion impact mechanism is arranged above the dispersion disc box (21).

2. The hydrogen-rich water manufacturing equipment according to claim 1, characterized in that the discharging and filtering structure comprises a discharging pipe (8) vertically communicated and installed at the edge of the bottom end of the tank body (1), a discharging valve (6) is installed on the outer side of the discharging pipe (8), a filtering member (38) is installed on the bottom end of the discharging pipe (8) in a communicated manner, and a water discharging connection port (39) is arranged at the bottom of the discharging pipe (8).

3. The hydrogen-rich water manufacturing equipment according to claim 1, wherein the support frame comprises a ring frame (10) fixedly sleeved outside the bottom of the tank body (1), a plurality of fixed sleeves (5) are equidistantly installed on the outside of the ring frame (10) along the circumferential direction, supporting columns (9) are vertically and fixedly clamped inside the fixed sleeves (5), and the bottom ends of the supporting columns (9) are jointly and horizontally connected with a supporting ring (7).

4. The hydrogen-rich water manufacturing equipment according to claim 1, wherein the feeding and hydrogen filling mechanism comprises an inner spiral blade (28) fixedly installed on the inner wall of the upper material barrel (18), a fixed disk (33) is fixedly clamped at the middle position of the bottom end inside the tank body (1), a hydrogen filling pipe shaft (29) is vertically and fixedly inserted at the middle position of the inner side of the fixed disk (33), the hydrogen filling pipe shaft (29) extends to the inside of the dispersion disk box (21) through the upper material barrel (18) and a gap is reserved between the outer wall of the dispersion disk box and the inner spiral blade (28), the bottom of the hydrogen filling pipe shaft (29) extends to the outside of the tank body (1) and a lower check valve (35) is installed at the outer side of the hydrogen filling pipe shaft (29) at the gap of the inner spiral blade (28), and a plurality of gas filling holes (34) are uniformly formed in the hydrogen filling pipe shaft (29).

5. The apparatus for producing hydrogen-rich water according to claim 1, wherein an outer helical blade (26) is fixedly mounted on the outer wall of the upper cylinder (18) inside the upper half dome (31) of the lower stirring blade (16), and the outer diameter of the outer helical blade (26) is gradually increased from bottom to top.

6. The hydrogen-rich water production apparatus according to claim 1, wherein the driving mechanism comprises a driving motor (3) fixedly mounted on the top end of the sealing tank cover (4), an output shaft of the driving motor (3) penetrates through the sealing tank cover (4) and is vertically connected with a driving shaft (11) at the end part, and the driving shaft (11) extends into the tank body (1) and is fixedly connected with the top end of the dispersing disk box (21).

7. An apparatus for producing hydrogen-rich water according to claim 6, characterized in that the dispersion impact mechanism comprises a catch tray (22) fixedly mounted outside the drive shaft (11), the catch tray (22) being located above the dispersion tray housing (21), and the outer side of the bottom of the collecting tray cylinder (22) is obliquely communicated and provided with a plurality of lower feed conveying pipes (14) at equal intervals along the circumferential direction, the discharge port of conveying pipeline (14) all towards collection material ring groove fill (15) down, many last conveying pipeline (23) are installed along the equidistance slope intercommunication in the top outside of collection charging tray section of thick bamboo (22) circumference direction, and are adjacent go up conveying pipeline (23) and lower conveying pipeline (14) and be symmetry setting and between equidistance slope install stirring leaf (13) on the polylith, many the top of going up conveying pipeline (23) is connected with water injection mechanism jointly.

8. An apparatus for producing hydrogen-rich water according to claim 7, characterized in that the water injection mechanism comprises a U-shaped collar (12) fixedly mounted on the inner wall of the cover (4), the top of the U-shaped ring sleeve (12) is vertically communicated with a material injection pipe (2), the material injection pipe (2) extends to the outside of the sealing tank cover (4), the end part of the material injection pipe is provided with an upper one-way valve (32), the through-flow direction of the upper one-way valve (32) is from the material injection pipe (2) to the inside of the U-shaped ring sleeve (12), a sealing ring plate (24) is arranged at an opening at the inner side of the U-shaped ring sleeve (12), a plurality of upper feed delivery pipes (23) are communicated and arranged on the inner wall of the sealing ring plate (24), and both ends of one side of the sealing ring plate (24) far away from the upper material conveying pipe (23) are respectively provided with a sealing snap ring (25), the sealing ring plate (24) is sealed and slidably clamped at the opening of the U-shaped ring sleeve (12) through two sealing snap rings (25).