CN212316259U - Active oxygen and hydrogen-rich integrated generator - Google Patents

Abstract

The utility model relates to the technical field of ozone preparation equipment, and provides an active oxygen and hydrogen rich integrated generator, the existing low-pressure electrolysis type ozone preparation equipment has many defects, such as insufficient purity of the prepared active oxygen and hydrogen rich, high preparation cost, short service life of the equipment, and the like, the ozone generator comprises an outer barrel body with an opening at the upper end, an upper cover is arranged at the upper end of the outer barrel body, a medium barrel is vertically arranged in an inner cavity of the outer barrel body, the medium barrel is arranged on the bottom wall of the outer barrel body, the lower end of the medium barrel is connected with an active oxygen pipe in a penetrating way, the other end of the active oxygen pipe penetrates through the bottom wall of the outer barrel body and is connected with an active oxygen and hydrogen rich generating module in a penetrating way, and an active oxygen outlet pipe penetrating; the active oxygen and hydrogen-rich generation module is provided with an anode end for generating active oxygen and a cathode end for generating hydrogen-rich. The utility model is particularly suitable for the preparation of active oxygen and rich hydrogen, and has higher social use value and application prospect.

Description

Active oxygen and hydrogen-rich integrated generator

Technical Field

The utility model relates to an ozone preparation equipment technical field, concretely relates to integrative generator of rich hydrogen of active oxygen.

Background

Ozone has the chemical formula O3, formula weight 47.998, an allotrope of oxygen, and a light blue gas with a fishy smell. Ozone has strong oxidizing property, is a stronger oxidant than oxygen, and can perform oxidation reaction at a lower temperature; ozone is a powerful bleaching agent in the presence of water and can be used as a powerful oxidant, a bleaching agent, a fur deodorizer, an air purifying agent, a sanitizer and disinfection and deodorization of drinking water; ozone can be used for replacing a plurality of catalytic oxidations or high-temperature oxidations in chemical production, thereby simplifying production process and improving productivity; liquid ozone can also be used as a rocket fuel.

The reduction process of the ozone completes the functions of sterilization, deodorization, disinfection, bleaching, fresh-keeping and purification, so the ozone has the characteristics of broad-spectrum sterilization, instantaneous sterilization and no residue. Ozone is mainly applied to sterilization and disinfection treatment of air and water in real life. The ozone disinfection can completely avoid the harm of chemical disinfectants to the environment, and is an ideal sterilization and disinfection method.

The ozone technology is widely used in the countries such as the United states, Japan, Europe and the like at present, and the domestic ozone industry is rapidly developed in recent years, so that the ozone technology is a new industry with a bright prospect and a good trend. The appearance of low-voltage electrolytic ozone technology is a technical revolution of ozone preparation, but existing preparation equipment on the market has many defects, such as insufficient purity of the prepared active oxygen rich in hydrogen, high preparation cost, short service life of the equipment and the like.

Therefore, the active oxygen and hydrogen-rich integrated generator is provided.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To prior art's not enough, the utility model provides an integrative generator of rich hydrogen of active oxygen has overcome prior art's not enough, reasonable in design, compact structure, and current low pressure electrolysis formula ozone preparation equipment has a lot of not enough, if the rich hydrogen purity of active oxygen that prepares out is not enough, the preparation cost is high, the short-lived problem of waiting of equipment life.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

an active oxygen and hydrogen rich integrated generator comprises an outer barrel body with an opening at the upper end, wherein an upper cover is arranged at the upper end of the outer barrel body, a medium barrel is vertically arranged in an inner cavity of the outer barrel body, the medium barrel is installed on the bottom wall of the outer barrel body, the lower end of the medium barrel is connected with an active oxygen pipe in a penetrating way, the other end of the active oxygen pipe penetrates through the bottom wall of the outer barrel body and is connected with an active oxygen and hydrogen rich generating module in a penetrating way, and an active oxygen outlet pipe penetrating through the upper cover is arranged at the upper end of the medium barrel;

the hydrogen-rich hydrogen generating module of active oxygen is provided with an anode end for generating active oxygen and a cathode end for generating hydrogen-rich hydrogen, the anode end is connected with the active oxygen tube in a through manner, the cathode end is connected with the bottom wall of the outer barrel body through a connecting conduit in a through manner, the positions of the lower part of the hydrogen-rich hydrogen generating module corresponding to the anode end and the cathode end are respectively connected with a U-shaped connecting tube I and a U-shaped connecting tube II in a through manner, and the U-shaped connecting tube I and the U-shaped connecting tube II are connected with the bottom wall of the outer barrel body.

Preferably, the medium barrels are arranged in a plurality of the inner cavities of the outer barrel body in parallel at equal intervals.

Preferably, a supplementary pipeline is integrally formed on the side wall of the medium barrel, the other end of the supplementary pipeline is in through connection with a return hose, the return hose is a three-way pipe, one end of the return hose is in through connection with the U-shaped connecting pipe I, and the third end of the return hose is in through connection with the inner cavity of the outer barrel body.

Preferably, the supplement pipeline is obliquely and downwards installed on the side wall of the medium cylinder, and the inclination angle between the supplement pipeline and the medium cylinder is 30-60 degrees.

Preferably, the upper cover is provided with a hydrogen-rich outlet in a penetrating way.

Preferably, a drainage connector is arranged on the bottom wall of the outer barrel body in a penetrating mode.

Preferably, a backflow connector matched with the U-shaped connecting pipe I and the U-shaped connecting pipe II is arranged on the bottom wall of the outer barrel body.

Preferably, the system further comprises a control assembly, and the control assembly is used for controlling the operation of the active oxygen hydrogen-rich generation module.

(III) advantageous effects

The embodiment of the utility model provides an integrative generator of rich hydrogen of active oxygen possesses following beneficial effect:

1. through the combined structure of the medium cylinder and the active oxygen and hydrogen rich generation module, the active oxygen and hydrogen rich generation module is started, active oxygen is generated at the anode end, is introduced into the medium cylinder through the active oxygen pipe, and is finally connected to external equipment through the active oxygen outlet for collection and utilization; the negative pole end produces rich hydrogen, leads to outer staving through connecting conduit, is collected by leading-in external equipment of rich hydrogen export at last and utilizes, and effectual assurance active oxygen and the emergence of rich hydrogen provide effectual assurance for the preparation of ozone, and the rich hydrogen purity of output is close pure hydrogen, can improve added value.

2. Through the setting of U-shaped connecting pipe I, U-shaped connecting pipe II, when the emergence of active oxygen and rich hydrogen, carve the internal medium of effectual outer bucket of driving and get into the active oxygen by U-shaped connecting pipe I and U-shaped connecting pipe II and take place the inside medium replenishment that carries on of module to guarantee the long-term steady operation of integrative generator, extension equipment life.

3. The embodiment of the utility model can generate heat when the active oxygen hydrogen-rich generation module is electrolyzed, the heat is continuously heated along with the circulating medium, the medium cylinder and the outer barrel body are communicated by the supplement pipeline, the electrolytic medium can be continuously supplemented, and the balance of the inner liquid level and the outer liquid level can be achieved; simultaneously, the medium barrel and the supplementary pipeline are arranged in the inner cavity of the outer barrel body, the temperature of the medium in the medium barrel is increased rapidly, the heat specific volume of the medium in the outer barrel body can be utilized to achieve the cooling effect, the active oxygen and hydrogen enrichment of the device are ensured to occur, ozone is prepared, the purity of the produced hydrogen enrichment is close to that of pure hydrogen, the added value can be improved, and the economic benefit is realized.

Drawings

The above features, technical features, advantages and modes of realization of a hydrogen rich and active oxygen integrated generator will be further described in the following detailed description of preferred embodiments in a clearly understandable manner with reference to the accompanying drawings.

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

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a side view of the structure of the present invention;

FIG. 4 is a side sectional view of the present invention;

FIG. 5 is a bottom view of the present invention;

fig. 6 is a schematic view of the internal structure of the present invention;

fig. 7 is a schematic view of the combined structure of the medium barrel, the active oxygen hydrogen-rich generation module and the U-shaped cooling pipe.

In the figure: the device comprises an outer barrel body 1, a backflow connector 101, an upper cover 2, a medium barrel 3, a live oxygen outlet pipe 31, a live oxygen pipe 32, a supplement pipeline 33, a hydrogen-rich outlet 4, a live oxygen and hydrogen-rich generation module 5, an anode end 51, a cathode end 52, a connecting pipe 53, a U-shaped connecting pipe I61, a U-shaped connecting pipe II 62, a drainage connector 7 and a backflow hose 8.

Detailed Description

The invention will be further described with reference to the following figures 1-7 and examples:

example 1

An active oxygen and hydrogen rich integrated generator comprises an outer barrel body 1 with an opening at the upper end, an upper cover 2 is arranged at the upper end of the outer barrel body 1, a medium barrel 3 is vertically arranged in the inner cavity of the outer barrel body 1, the medium barrel 3 is installed on the bottom wall of the outer barrel body 1, the lower end of the medium barrel 3 is connected with an active oxygen pipe 32 in a penetrating way, the other end of the active oxygen pipe 32 penetrates through the bottom wall of the outer barrel body 1 and is connected with an active oxygen and hydrogen rich generating module 5 in a penetrating way, and an active oxygen outlet pipe 31 penetrating through the upper cover 2 is arranged at the upper end of the medium barrel 3;

in this embodiment, as shown in fig. 1 to 7, the active oxygen and hydrogen rich generating module 5 is provided with an anode end 51 for generating active oxygen and a hydrogen rich cathode end 52, the anode end 51 is connected to the active oxygen tube 32, the cathode end 52 is connected to the bottom wall of the outer tub body 1 through a connecting conduit 53, the lower portion of the active oxygen and hydrogen rich generating module 5 corresponding to the anode end 51 and the cathode end 52 is respectively connected to a U-shaped connecting tube i 61 and a U-shaped connecting tube ii 62 through, and the U-shaped connecting tube i 61 and the U-shaped connecting tube ii 62 are both connected to the bottom wall of the outer tub body 1 through a through way.

In this embodiment, the active oxygen and hydrogen rich generating module 5 is started, the anode end 51 generates active oxygen, the active oxygen is introduced into the medium cylinder 3 through the active oxygen pipe 32, and finally the active oxygen is connected to an external device through the active oxygen outlet 31 for collection and utilization, the active oxygen is emitted upwards and simultaneously drives the medium in the active oxygen and hydrogen rich generating module 5 to flow to the medium cylinder 3, and simultaneously drives the medium in the outer cylinder body 1 to enter the active oxygen and hydrogen rich generating module 5 through the U-shaped connecting pipe I61 and the U-shaped connecting pipe II 62 and flow to the anode end 51, and the active oxygen and hydrogen rich generating module 5 continues to generate electrolysis;

the negative pole end 52 produces rich hydrogen, lead to outer staving 1 through connecting conduit 53, at last, export 4 leading-in external equipment by rich hydrogen and collect the utilization, it drives the interior medium of the module 5 of generating hydrogen rich in active oxygen through connecting conduit 53 flow direction outer staving 1 when the rich hydrogen rises, it gets into the inside of the module 5 of generating hydrogen rich in active oxygen and flows to negative pole end 52 by U-shaped connecting pipe I61 and U-shaped connecting pipe II 62 to drive the interior medium of outer staving 1 simultaneously, the module 5 of generating hydrogen rich in active oxygen continues to take place the electrolysis, guarantee the production of active oxygen and rich hydrogen.

In this embodiment, as shown in fig. 6 to 7, a supplementary pipeline 33 is integrally formed on the side wall of the medium cylinder 3, and the other end of the supplementary pipeline 33 is connected to a backflow hose 8 in a penetrating manner, the backflow hose 8 is a three-way pipe, one end of the backflow hose 8 is connected to a U-shaped connecting pipe i 61 in a penetrating manner, and the third end of the backflow hose 8 penetrates through the inner cavity of the outer cylinder 1, so that electrolytic medium can be continuously supplemented, and the inner and outer liquid levels are balanced; meanwhile, the medium cylinder 3, the supplement pipeline 33 and the backflow hose 8 are arranged in the inner cavity of the outer barrel body 1, the medium in the medium cylinder 3 is heated up quickly, and the medium thermal specific volume in the outer barrel body 1 can be utilized to achieve the cooling effect.

In this embodiment, as shown in fig. 6 to 7, the supplement pipeline 33 is installed on the sidewall of the medium cylinder 3 in an inclined downward manner, the inclination angle between the supplement pipeline 33 and the medium cylinder 3 is 30 to 60 degrees, and the supplement pipeline 33 is installed in an inclined downward manner, so that the supplement of the electrolytic medium and the liquid level balance in the medium cylinder 3 can be effectively ensured by matching with the three-way structure of the return hose 8.

In this embodiment, as shown in fig. 1-2, the upper cover 2 is provided with a hydrogen-rich outlet 4, the cathode end 52 generates hydrogen-rich gas, which is introduced into the outer tub body 1 through the connecting conduit 53, and finally discharged from the hydrogen-rich outlet 4 and introduced into an external device for collection and utilization.

In this embodiment, as shown in fig. 3 to 5, a drainage port 7 is formed through the bottom wall of the outer tub 1 for adding water or replacing a drainage medium.

In this embodiment, as shown in fig. 3 and 4, a backflow port 101 matched with the U-shaped connecting tube i 61 and the U-shaped connecting tube ii 62 is disposed on the bottom wall of the outer tub body 1, so as to ensure the through connection effect of the U-shaped connecting tube i 61 and the U-shaped connecting tube ii 62.

In this embodiment, (not shown in the figure) further comprises a control component, and the control component is used for controlling the operation of the active oxygen and hydrogen rich generating module 5 so as to ensure the stable operation of the active oxygen and hydrogen rich generating device.

Example 2

The difference between this embodiment and embodiment 1 lies in, as shown in fig. 6 and 7, the medium barrel 3 is provided with a plurality of, and a plurality of medium barrels 3 equidistance are arranged side by side in the inner chamber of outer barrel body 1, under the condition of sharing outer barrel body 1, raise the efficiency to guarantee the overall arrangement rationality of whole equipment.

Other undescribed structures refer to example 1.

According to the utility model discloses above-mentioned embodiment's integrative generator of rich hydrogen of active oxygen, when the rich hydrogen of active oxygen takes place module 5 and starts, the heat extension in the more comprehensive absorption medium section of thick bamboo 3 of 1 inside medium of outer staving wholly takes place the life-span of module, reduces extra cooling device, guarantees the steady operation of the rich hydrogen of active oxygen and takes place module 5.

The embodiment of the present invention discloses a preferred embodiment, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention according to the above embodiment, and make different extensions and changes, but do not depart from the spirit of the present invention, all of which are within the protection scope of the present invention.

Claims (8)

1. An active oxygen and hydrogen rich integrated generator comprises an outer barrel body with an opening at the upper end, and is characterized in that an upper cover is arranged at the upper end of the outer barrel body, a medium barrel is vertically arranged in an inner cavity of the outer barrel body, the medium barrel is installed on the bottom wall of the outer barrel body, the lower end of the medium barrel is connected with an active oxygen pipe in a penetrating way, the other end of the active oxygen pipe penetrates through the bottom wall of the outer barrel body and is connected with an active oxygen and hydrogen rich generating module in a penetrating way, and an active oxygen outlet pipe penetrating through the upper cover is arranged at the upper end of the medium barrel;

the hydrogen-rich hydrogen generating module of active oxygen is provided with an anode end for generating active oxygen and a cathode end for generating hydrogen-rich hydrogen, the anode end is connected with the active oxygen tube in a through manner, the cathode end is connected with the bottom wall of the outer barrel body through a connecting conduit in a through manner, the positions of the lower part of the hydrogen-rich hydrogen generating module corresponding to the anode end and the cathode end are respectively connected with a U-shaped connecting tube I and a U-shaped connecting tube II in a through manner, and the U-shaped connecting tube I and the U-shaped connecting tube II are connected with the bottom wall of the outer barrel body.

2. The active oxygen and hydrogen rich integrated generator according to claim 1, wherein: the medium barrel is provided with a plurality of medium barrels, and the plurality of medium barrels are arranged in the inner cavity of the outer barrel body in parallel at equal intervals.

3. The active oxygen and hydrogen rich integrated generator according to claim 1, wherein: the medium barrel is characterized in that a supplement pipeline is integrally formed on the side wall of the medium barrel, the other end of the supplement pipeline is in through connection with a backflow hose, the backflow hose is a three-way pipe, one end of the backflow hose is in through connection with the U-shaped connecting pipe I, and the third end of the backflow hose penetrates through the inner cavity of the outer barrel body.

4. The active oxygen and hydrogen rich integrated generator according to claim 3, wherein: the supplement pipeline is obliquely and downwards arranged on the side wall of the medium cylinder, and the inclination angle between the supplement pipeline and the medium cylinder is 30-60 degrees.

5. The active oxygen and hydrogen rich integrated generator according to claim 1, wherein: the upper cover is provided with a hydrogen-rich outlet in a through way.

6. The active oxygen and hydrogen rich integrated generator according to claim 1, wherein: and a drainage connector is arranged on the bottom wall of the outer barrel body in a penetrating way.

7. The active oxygen and hydrogen rich integrated generator according to claim 1, wherein: and a backflow connector matched with the U-shaped connecting pipe I and the U-shaped connecting pipe II is arranged on the bottom wall of the outer barrel body.

8. The active oxygen and hydrogen rich integrated generator according to claim 1, wherein: the control assembly is used for controlling the running of the active oxygen hydrogen-rich generation module.

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