CN110818147A - Artificial intelligence all-in-one machine for hydrogen production and hydrogen mixing and canning - Google Patents

Abstract

The invention relates to the technical field of hydrogen-rich water production equipment, in particular to a hydrogen-producing and hydrogen-mixing canning artificial intelligence all-in-one machine which comprises a hydrogen-rich water production machine, wherein a permeation bin is arranged inside the hydrogen-rich water production machine, a liquid injection pipe is inserted into the top surface of the hydrogen-rich water production machine, a partition plate is arranged inside the permeation bin, a placing groove is arranged on the surface of the partition plate, a filter element is arranged inside the placing groove, the top end of the filter element is inserted into the bottom surface of a sealing head, an operation and control groove is arranged on the bottom surface of the sealing head, and a clamping rod is screwed; the beneficial effects are that: the hydrogen-producing and hydrogen-mixing integrated machine provided by the invention combines the hydrogen production of the filter element and the hydrogen production by electrolysis, collects hydrogen-rich water obtained by the two processes in the mixing bin, and injects the hydrogen-rich water into the hydrogen-mixing tank through the liquid injection valve head of the nano microbubble generator, so that the hydrogen content of the prepared hydrogen-rich water is suitable for being absorbed by a human body, and the drinking effect is good.

Description

Artificial intelligence all-in-one machine for hydrogen production and hydrogen mixing and canning

Technical Field

The invention relates to the technical field of hydrogen-rich water production equipment, in particular to a hydrogen-production and hydrogen-mixing canning artificial intelligence all-in-one machine.

Background

The water-rich water, also called plain water (Japanese name), is dissolved with a proper amount of hydrogen, has neutral taste, is colorless, tasteless and airless without distinguishing with boiled water or purified water. It has long been considered by biologists that hydrogen is a physiologically inert gas, that hydrogen itself is an optimal natural antioxidant, and that water added with hydrogen has a strong reducing function to neutralize active oxygen (free radicals) in body blood and cells.

The hydrogen-rich water is usually prepared by a single electrolysis method, so that the prepared hydrogen-rich water has low hydrogen content and poor use effect; the prepared hydrogen-rich water needs to be contained by a special hydrogen mixing tank, and the hydrogen mixing tank has large mass and is difficult to carry after being filled.

Disclosure of Invention

The invention aims to provide a hydrogen-production and hydrogen-mixing integrated manual intelligent filling machine to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an artificial intelligence all-in-one machine for hydrogen production and hydrogen mixing canning comprises a hydrogen-rich water production machine, wherein a permeation bin is arranged inside the hydrogen-rich water production machine, a liquid injection pipe is spliced on the top surface of the hydrogen-rich water production machine, a separation plate is arranged inside the permeation bin, a placement groove is arranged on the surface of the separation plate, a filter element is arranged inside the placement groove, the top end of the filter element is spliced on the bottom surface of a seal head, an operation groove is arranged on the bottom surface of the seal head, a clamping rod is screwed inside the operation groove, a screwing groove is arranged on the top surface of the seal head, a water permeable hole is arranged on the surface of the placement groove, an electrolysis bin is arranged inside the hydrogen-rich water production machine, a transfusion valve pipe is arranged between the electrolysis bin and the permeation bin, a liquid discharge valve pipe is arranged on the bottom surface of the electrolysis bin, the liquid discharge valve pipe is spliced in a mixing bin, the mixing bin is, the utility model discloses a hydrogen-rich water production machine, including annotate liquid valve head, annotate the below of liquid valve head and be provided with the hydrogen jar, the hydrogen jar overlap joint is on the limiting plate, the limiting plate is fixed on the conveyer belt, the conveyer belt is installed in hydrogen-rich water production machine's inside, has seted up the discharge opening on hydrogen-rich water production machine's the lateral wall, is provided with the smooth work or material rest on hydrogen-rich water production machine's the curb plate, the surface of smooth work or material rest.

Preferably, the infiltration storehouse is square column structure, and the infiltration storehouse is provided with two, and two infiltration storehouses are about the central symmetry distribution of hydrogen-rich water production machine, and the division board is square column structure, and the standing groove is circular column structure, and the standing groove is provided with a plurality ofly, and a plurality of standing grooves are arranged along the long limit of division board and are distributed.

Preferably, the filter core is circular cylinder structure, and the top integrated into one piece of filter core has the connection handle, and the connection handle is pegged graft on the bottom surface of head, controls the groove and is circular cylinder structure, and the supporting rod is provided with two, two supporting rods about the centre of a circle symmetric distribution who controls the groove.

Preferably, the screwing groove is of a circular column volume structure, a screwing handle is arranged inside the screwing groove, and the screwing handle is of a cross-shaped rod-shaped structure.

Preferably, the electrolysis bin is of an inverted table-shaped structure, an electrolysis positive pole rod is inserted in the electrolysis bin, and an electrolysis negative pole rod is inserted in the electrolysis bin.

Preferably, the limiting plate is "L" shaped plate column structure, and the limiting plate is provided with the multiunit, and the multiunit limiting plate arranges the distribution along the conveyer belt, and every group limiting plate is provided with two, and two limiting plates are about mixing hydrogen jar symmetric distribution.

Preferably, the sliding frame is a trapezoidal cylinder structure, the surface of the sliding frame is provided with containment plates, the containment plates are of a square plate-shaped structure, the containment plates are arranged in two numbers, the two containment plates are symmetrically distributed about the center of the short side of the top surface of the containment plates, and the top surface of the sliding frame is embedded with conveying rollers.

Preferably, the surface that the baffle is square platelike structure baffle is provided with the rubber buffer board, and the surface of baffle is provided with the diagonal draw bar, and the diagonal draw bar runs through the rubber buffer board setting.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality, and has the following advantages:

1. the hydrogen-production hydrogen-mixing canning artificial intelligence integrated machine provided by the invention combines the filtering of the filter element and the hydrogen production by electrolysis, collects hydrogen-rich water obtained by the two processes in the mixing bin, and injects the hydrogen-rich water into the hydrogen-mixing tank through the liquid valve head of the nano microbubble generator, so that the hydrogen content of the prepared hydrogen-rich water is suitable for being absorbed by human bodies, and the drinking effect is good;

2. according to the hydrogen production and mixing integrated machine for filling the artificial intelligence into the hydrogen tank, the top of the filter element is clamped at the lower part of the end socket, the end socket is screwed at the upper end of the hydrogen-rich water production machine, the filter element is inserted into the placing groove at the moment, the filter element is installed in such a way that the single filter element can be replaced independently, and the replacement efficiency is high;

3. according to the artificial intelligence integrated machine for hydrogen production and mixing tank loading, the hydrogen mixing tank is placed on the conveyor belt, the single hydrogen mixing tank is limited through the limiting plate, the filled hydrogen mixing tank is conveyed through the conveyor belt and slides out of the discharge opening, the hydrogen mixing tank reaches the baffle along the sliding frame, and then the hydrogen mixing tank is moved down from the sliding frame, so that labor is saved compared with the situation that the hydrogen mixing tank is directly moved down from a hydrogen-rich water production machine.

Drawings

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

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic diagram of the structure of the isolation board of the present invention;

fig. 4 is a schematic structural view of the slip frame of the present invention.

In the figure: the device comprises a hydrogen-rich water production machine 1, a permeation bin 2, a liquid injection pipe 3, a partition plate 4, a placing groove 5, a filter element 6, a sealing head 7, a control groove 8, a clamping rod 9, a screwing groove 10, a screwing handle 101, a water permeable hole 11, an electrolysis bin 12, an electrolysis positive pole rod 121, an electrolysis negative pole rod 122, a transfusion valve pipe 13, a mixing bin 14, a liquid injection valve head 15, a hydrogen mixing tank 16, a limiting plate 17, a conveying belt 18, a discharge opening 19, a sliding frame 20, an enclosure plate 201, a conveying roller 202, a baffle 21, a rubber buffer plate 211, a diagonal draw bar 212 and a nanometer microbubble generator 22.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: an artificial intelligence integrated machine for hydrogen production and mixing tank installation comprises a hydrogen-rich water production machine 1, a permeation bin 2 is arranged inside the hydrogen-rich water production machine 1, a liquid injection pipe 3 is inserted into the top surface of the hydrogen-rich water production machine 1, a partition plate 4 is welded inside the permeation bin 2, a plurality of placing grooves 5 are arranged on the surface of the partition plate 4, the permeation bin 2 is of a square column structure, the two permeation bins 2 are symmetrically distributed about the center of the hydrogen-rich water production machine 1, the partition plate 4 is of a square column structure, the placing grooves 5 are of a circular column structure, the placing grooves 5 are provided with a plurality of placing grooves 5, the placing grooves 5 are distributed along the long edge of the partition plate 4, a filter element 6 is inserted into the placing grooves 5, the top end of the filter element 6 is inserted into the bottom surface of a seal head 7, an operation and control groove 8 is arranged on the bottom surface of the seal head 7, a clamping rod 9 is screwed in the operation and, the top end of the filter element 6 is integrally formed with a connecting handle, the connecting handle is inserted on the bottom surface of the end socket 7, the control slot 8 is a circular column structure, the two clamping rods 9 are symmetrically distributed about the center of the control slot 8, the top surface of the end socket 7 is provided with a screwing slot 10, the surface of the placing slot 5 is provided with a permeable hole 11, the screwing slot 10 is a circular column volume structure, the inside of the screwing slot 10 is provided with a screwing handle 101, the screwing handle 101 is in a cross-shaped rod-shaped structure, water is injected into the permeation bin 2 from the liquid injection pipe 3, the water reacts with the filter element 6 inside the partition plate 4 through the permeable hole 11 to be filtered, the permeation bin 2 is provided with three groups of partition plates 4, the filter elements 6 inside the three groups of partition plates 4 respectively select PPF filter elements, PPF carbon fiber filter elements and CPF filter elements, the top end of the filter element 6 is inserted inside the end socket 7 and clamped, the screwing handle 101 is pinched by fingers to screw the seal head 7 upwards, and the filter element 6 is drawn out from the placing groove 5 after the seal head 7 is detached from the top of the hydrogen-rich water production machine 1, so that the single filter element 6 can be replaced independently;

an electrolysis bin 12 is arranged inside the hydrogen-rich water production machine 1, an infusion valve pipe 13 is arranged between the electrolysis bin 12 and the permeation bin 2, the electrolysis bin 12 is of an inverted table-shaped structure, an electrolysis positive pole rod 121 is inserted inside the electrolysis bin 12, an electrolysis negative pole rod 122 is inserted inside the electrolysis bin 12, a liquid discharge valve pipe is arranged on the bottom surface of the electrolysis bin 12 and inserted in a mixing bin 14, the mixing bin 14 is arranged inside the hydrogen-rich water production machine 1, water treated by a plurality of groups of filter elements 6 is injected into the electrolysis bin 12 through the infusion valve pipe 13, and after the electrolysis positive pole rod 121 and the electrolysis negative pole rod 122 are electrified, when current passes through the water, hydrogen is formed by reducing the water at a cathode; the anode forms oxygen by oxidizing water, the generation amount of hydrogen is about twice of that of the oxygen, the gas moves along with the water from a liquid discharge valve pipe and is injected into the mixing bin 14, the inside of the mixing bin 14 is provided with a nanometer microbubble generator 22, and the gas is injected into the hydrogen mixing tank 16 after being connected with the hydrogen mixing tank 16 through a liquid injection valve head 15 of the nanometer microbubble generator 22;

a liquid injection valve head 15 is inserted into the bottom surface of the mixing bin 14, a hydrogen mixing tank 16 is arranged below the liquid injection valve head 15, the hydrogen mixing tank 16 is lapped on a limiting plate 17, the limiting plate 17 is adhered on a conveyor belt 18, the limiting plate 17 is in an L-shaped plate structure, the limiting plate 17 is provided with a plurality of groups, the limiting plates 17 are distributed along the conveyor belt 18 in a arrayed manner, two limiting plates 17 are arranged in each group, the two limiting plates 17 are symmetrically distributed about the hydrogen mixing tank 16, the conveyor belt 18 is installed inside the hydrogen-rich water production machine 1, a discharge opening 19 is formed in the side wall of the hydrogen-rich water production machine 1, and after the hydrogen mixing tank 16 is filled, the conveyor belt 18 is started to;

the hydrogen-rich water production machine 1 is characterized in that a sliding rack 20 is welded on a side plate of the hydrogen-rich water production machine 1, the sliding rack 20 is of a trapezoidal cylinder structure, an enclosure plate 201 is arranged on the surface of the sliding rack 20, the enclosure plate 201 is of a square plate structure, two enclosure plates 201 are arranged, the two enclosure plates 201 are symmetrically distributed about the center of the short side of the top surface of the enclosure plate 201, a conveying roller 202 is embedded and installed on the top surface of the sliding rack 20, a baffle plate 21 is welded on the surface of the sliding rack 20, a rubber buffer plate 211 is arranged on the surface of the baffle plate 21 which is of the square plate structure, an inclined pull rod 212 is arranged on the surface of the baffle plate 21 and penetrates through the rubber buffer plate 211, a hydrogen mixing tank 16 falls down along the conveying roller 202 on the surface of the sliding rack 20 after falling off from a conveying belt 18, in the process, the enclosure plates 201 are enclosed on two sides of the sliding rack 20, at this time, the hydrogen mixing tank 16 is removed from the slide frame 20.

The working principle is as follows: when the filter is actually used, water is injected into the permeation bin 2 from the liquid injection pipe 3, the water reacts with the filter elements 6 in the partition plates 4 through the water permeable holes 11 to be filtered, three groups of partition plates 4 are arranged in the permeation bin 2, the filter elements 6 in the three groups of partition plates 4 are respectively selected from PPF filter elements, PPF carbon fiber filter elements and CPF filter elements, the top ends of the filter elements 6 are inserted into the end sockets 7 and clamped by the clamping rods 9, the screwing handles 101 are pinched by fingers to screw the end sockets 7 to the upper end sockets 7, and the filter elements 6 are drawn out from the placing grooves 5 after the end sockets 7 are detached from the top of the hydrogen-rich water production machine 1, so that the single filter elements 6 can; the water treated by the plurality of groups of filter elements 6 is injected into the electrolytic bin 12 through the infusion valve pipe 13, and after the electrolytic positive pole rod 121 and the electrolytic negative pole rod 122 are electrified, the hydrogen is formed by reducing water at the cathode when the current passes through the water; the anode forms oxygen through oxidizing water, the generation amount of hydrogen is about twice of that of oxygen, the gas moves along with water from a liquid discharge valve pipe and is injected into the mixing bin 14, the gas is connected with the hydrogen mixing tank 16 through a liquid injection valve head 15 of the nano micro bubble generator 22 and then is injected into the hydrogen mixing tank 16, after the hydrogen mixing tank 16 is full, the conveyor belt 18 is started to convey the hydrogen mixing tank 16 to the discharge opening 19, the hydrogen mixing tank 16 falls off from the conveyor belt 18 and then slides downwards along the conveying rollers 202 on the surface of the sliding rack 20, in the process, the enclosing plates 201 enclose two sides of the sliding rack 20 to prevent the hydrogen mixing tank 16 from sliding off the sliding rack 20, the hydrogen mixing tank 16 stops after impacting the rubber buffer plate 211, and at the moment, the hydrogen mixing tank 16 is moved down from the sliding rack 20.

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

Claims (8)

1. The utility model provides a hydrogen production mixes hydrogen canning artificial intelligence all-in-one, includes hydrogen-rich water production machine (1), its characterized in that: the hydrogen-rich water production device is characterized in that a permeation bin (2) is arranged inside the hydrogen-rich water production machine (1), a liquid injection pipe (3) is inserted into the top surface of the hydrogen-rich water production machine (1), a separation plate (4) is arranged inside the permeation bin (2), a placement groove (5) is formed in the surface of the separation plate (4), a filter element (6) is arranged inside the placement groove (5), the top end of the filter element (6) is inserted into the bottom surface of a sealing head (7), an operation groove (8) is formed in the bottom surface of the sealing head (7), a clamping rod (9) is screwed inside the operation groove (8), a screwing groove (10) is formed in the top surface of the sealing head (7), a water permeable hole (11) is formed in the surface of the placement groove (5), an electrolysis bin (12) is formed inside the hydrogen-rich water production machine (1), and a transfusion valve pipe (13) is arranged between the electrolysis bin (, liquid discharge valve pipe has been seted up to the bottom surface in electrolysis storehouse (12), and liquid discharge valve pipe is pegged graft in mixing storehouse (14), mix the inside at hydrogen-rich water production machine (1) in storehouse (14), the bottom surface of mixing storehouse (14) is pegged graft and is had liquid valve head (15), the below of liquid valve head (15) is provided with mixed hydrogen jar (16), mixed hydrogen jar (16) overlap joint is on limiting plate (17), limiting plate (17) are fixed on conveyer belt (18), conveyer belt (18) are installed in the inside of hydrogen-rich water production machine (1), have seted up discharge opening (19) on the lateral wall of hydrogen-rich water production machine (1), are provided with on the curb plate of hydrogen-rich water production machine (1) smooth work or material rest (20), the surface of smooth work or material rest (20) is provided with baffle (21), and the inside of mixing storehouse (14) is provided with nanometer microbubble generator (22).

2. The hydrogen-producing and hydrogen-mixing integrated machine capable of being filled with artificial intelligence as claimed in claim 1, wherein: the permeable bin (2) is of a square column structure, the permeable bin (2) is provided with two permeable bins (2) which are symmetrically distributed about the center of the hydrogen-rich water production machine (1), the partition board (4) is of a square column structure, the placing groove (5) is of a circular column structure, the placing groove (5) is provided with a plurality of placing grooves (5) which are distributed along the long edge of the partition board (4).

3. The hydrogen-producing and hydrogen-mixing integrated machine capable of being filled with artificial intelligence as claimed in claim 1, wherein: filter core (6) are circular cylinder structure, and the top integrated into one piece of filter core (6) has the connection handle, and the connection handle is pegged graft on the bottom surface of head (7), controls groove (8) and is circular cylinder structure, and supporting rod (9) are provided with two, and two supporting rod (9) are about the centre of a circle symmetric distribution who controls groove (8).

4. The hydrogen-producing and hydrogen-mixing integrated machine capable of being filled with artificial intelligence as claimed in claim 1, wherein: the screwing groove (10) is of a circular column volume structure, a screwing handle (101) is arranged inside the screwing groove (10), and the screwing handle (101) is of a cross-shaped rod-shaped structure.

5. The hydrogen-producing and hydrogen-mixing integrated machine capable of being filled with artificial intelligence as claimed in claim 1, wherein: the electrolysis bin (12) is of an inverted table-shaped structure, an electrolysis positive pole rod (121) is inserted into the electrolysis bin (12), and an electrolysis negative pole rod (122) is inserted into the electrolysis bin (12).

6. The hydrogen-producing and hydrogen-mixing integrated machine capable of being filled with artificial intelligence as claimed in claim 1, wherein: limiting plate (17) are "L" shaped plate column structure, and limiting plate (17) are provided with the multiunit, and multiunit limiting plate (17) arrange along conveyer belt (18) and distribute, and every group limiting plate (17) are provided with two, and two limiting plates (17) are about mixing hydrogen jar (16) symmetric distribution.

7. The hydrogen-producing and hydrogen-mixing integrated machine capable of being filled with artificial intelligence as claimed in claim 1, wherein: the material sliding frame (20) is of a trapezoidal cylinder structure, the surface of the material sliding frame (20) is provided with containment plates (201), the containment plates (201) are of a square plate-shaped structure, the containment plates (201) are arranged in two numbers, the two containment plates (201) are symmetrically distributed about the center of the short side of the top surface of the containment plates (201), and conveying rollers (202) are embedded into the top surface of the material sliding frame (20).

8. The hydrogen-producing and hydrogen-mixing integrated machine capable of being filled with artificial intelligence as claimed in claim 1, wherein: the surface that baffle (21) are square plate structure baffle (21) is provided with rubber buffer board (211), and the surface of baffle (21) is provided with oblique pull rod (212), and oblique pull rod (212) run through rubber buffer board (211) and set up.

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