CN204395795U - Gas-liquid or liquid liquid mixing nano-bubble generating apparatus - Google Patents

Abstract

Gas-liquid or liquid liquid mixing nano-bubble generating apparatus, it relates to a kind of highly concentrated nano air-bubble generating means, low to solve existing nanobubble water production efficiency of equipment, and the nano bubble water concentration prepared is too low, nano bubble quantity is very few, and can not keep the problem little with the scope of application for a long time.It comprises storage tank, gas-liquid mixing pump, water inlet manifold road and total outlet pipeline, and storage tank is communicated with gas-liquid mixing pump by water-supply-pipe, and water inlet manifold road is communicated with gas-liquid mixing pump; It also comprises nano-bubble generator, and nano-bubble generator comprises the first sleeve, the second sleeve and mix and blend nozzle; The inner chamber of the second sleeve comprises straight-through chamber, column type chamber and cone shaped body, and the inner chamber of the first sleeve comprises the first die cavity and the second die cavity, is fixed with mix and blend nozzle in the second sleeve, and the inner chamber of mix and blend nozzle comprises conical section and fluid chemical field stirs section.The utility model is applied to fishery, beverage, industry and the field such as agriculture.

Description

Gas-liquid or liquid liquid mixing nano-bubble generating apparatus

Technical field

The utility model relates to a kind of highly concentrated nano air-bubble generating means.

Background technology

In recent years, a few great society problems such as water environment severe contamination has appearred in China each department, water resource critical shortage.Country and various places government also pay much attention to water problems; five water are ruled together by various places government, and (pollution treatment water, flood-protection, water drainage water, guarantor supply water, grab water saving) brings up to national strategy rank accordingly; the protection of water resource and the meaning of regeneration very great, task is extremely urgent.

Nanobubble water can be used for the every field in life.But the nano bubble water concentration that existing nanobubble water device fabrication goes out is too low, and nano grade air bubbles number is very few, and not easily preserve in a liquid for a long time, existing nano bubble generation production efficiency of equipment is low in addition, and can not meet multiduty actual needs, the scope of application is little.

Utility model content

The utility model is low for solving existing nanobubble water production efficiency of equipment, and the nano bubble water concentration prepared is too low, nano bubble quantity is very few, and can not keep the problem little with the scope of application for a long time, and then provides a kind of gas-liquid or liquid liquid mixing nano-bubble generating apparatus.

The utility model is the technical scheme taked that solves the problem:

Gas-liquid of the present utility model or liquid liquid mixing nano-bubble generating apparatus comprise storage tank, gas-liquid mixing pump, water inlet manifold road and total outlet pipeline, and storage tank is communicated with gas-liquid mixing pump by hydraulic pipeline, and water inlet manifold road is communicated with gas-liquid mixing pump, it also comprises nano-bubble generator, and nano-bubble generator comprises the first sleeve, the second sleeve and mix and blend nozzle, the inner chamber of the second sleeve comprises straight-through chamber, column type chamber and cone shaped body, column type chamber is arranged between straight-through chamber and cone shaped body, the inner chamber of the first sleeve comprises the first die cavity and the second die cavity, first die cavity is sleeved on the outer side surface of straight die cavity, mix and blend nozzle is fixed with in second sleeve, the inner chamber of mix and blend nozzle comprises conical section and fluid chemical field stirs section, conical section is arranged in straight-through chamber, larger diameter end and second die cavity of conical section are through, fluid chemical field stirs section and to be arranged in column type chamber and through with the smaller diameter end of conical cavity, second sleeve is processed with the fluid passage of through mix and blend nozzle, the axis of fluid passage and the axial vertical of column type chamber, straight die cavity, column type chamber, cone shaped body, first die cavity, second die cavity and conical section coaxially arranged, second die cavity of nano-bubble generator is communicated with water inlet manifold road, the cone shaped body of nano-bubble generator is communicated with total outlet pipeline.

Gas-liquid of the present utility model or liquid liquid mixing nano-bubble generating apparatus comprise storage tank, gas-liquid mixing pump, water inlet manifold road and total outlet pipeline, and storage tank is communicated with gas-liquid mixing pump by hydraulic pipeline, and water inlet manifold road is communicated with gas-liquid mixing pump, it also comprises at least two nano-bubble generators, and each nano-bubble generator comprises the first sleeve, the second sleeve and mix and blend nozzle, the inner chamber of the second sleeve comprises straight-through chamber, column type chamber and cone shaped body, column type chamber is arranged between straight-through chamber and cone shaped body, the inner chamber of the first sleeve comprises the first die cavity and the second die cavity, first die cavity is sleeved on the outer side surface of straight die cavity, mix and blend nozzle is fixed with in second sleeve, the inner chamber of mix and blend nozzle comprises conical section and fluid chemical field stirs section, conical section is arranged in straight-through chamber, larger diameter end and second die cavity of conical section are through, fluid chemical field stirs section and to be arranged in column type chamber and through with the smaller diameter end of conical cavity, second sleeve is processed with the fluid passage of through mix and blend nozzle, the axis of fluid passage and the axial vertical of column type chamber, straight die cavity, column type chamber, cone shaped body, first die cavity, second die cavity and conical section coaxially arranged, adjacent two nano-bubble generators are arranged in series, water inlet manifold road is communicated with the second die cavity of first nano-bubble generator, total outlet pipeline is communicated with the cone shaped body of last nano-bubble generator.

Gas-liquid of the present utility model or liquid liquid mixing nano-bubble generating apparatus comprise storage tank, gas-liquid mixing pump, water inlet manifold road and total outlet pipeline, and storage tank is communicated with gas-liquid mixing pump by hydraulic pipeline, and water inlet manifold road is communicated with gas-liquid mixing pump, it also comprises housing, intake tunnel, exhalant canal and multiple nano-bubble generator, each nano-bubble generator comprises the first sleeve, the second sleeve and mix and blend nozzle, the inner chamber of the second sleeve comprises straight-through chamber, column type chamber and cone shaped body, column type chamber is arranged between straight-through chamber and cone shaped body, the inner chamber of the first sleeve comprises the first die cavity and the second die cavity, first die cavity is sleeved on the outer side surface of straight die cavity, mix and blend nozzle is fixed with in second sleeve, the inner chamber of mix and blend nozzle comprises conical section and fluid chemical field stirs section, conical section is arranged in straight-through chamber, larger diameter end and second die cavity of conical section are through, fluid chemical field stirs section and to be arranged in column type chamber and through with the smaller diameter end of conical cavity, second sleeve is processed with the fluid passage of through mix and blend nozzle, the axis of fluid passage and the axial vertical of column type chamber, straight die cavity, column type chamber, cone shaped body, first die cavity, second die cavity and conical section coaxially arranged, multiple nano-bubble generator is arranged in parallel in housing, housing is processed with intake tunnel and exhalant canal, second die cavity of multiple nano-bubble generator is all communicated with water inlet manifold road by intake tunnel, and the conical cavity of multiple nano-bubble generator is all communicated with total outlet pipeline by exhalant canal.

Gas-liquid of the present utility model or liquid liquid mixing nano-bubble generating apparatus comprise storage tank, gas-liquid mixing pump, water inlet manifold road and total outlet pipeline, and storage tank is communicated with gas-liquid mixing pump by hydraulic pipeline, and water inlet manifold road is communicated with gas-liquid mixing pump, it also comprises at least two-stage nano-bubble generator group, and every grade of nano-bubble generator group comprises housing, intake tunnel, exhalant canal and multiple nano-bubble generator, each nano-bubble generator comprises the first sleeve, the second sleeve and mix and blend nozzle, the inner chamber of the second sleeve comprises straight-through chamber, column type chamber and cone shaped body, column type chamber is arranged between straight-through chamber and cone shaped body, the inner chamber of the first sleeve comprises the first die cavity and the second die cavity, first die cavity is sleeved on the outer side surface of straight die cavity, mix and blend nozzle is fixed with in second sleeve, the inner chamber of mix and blend nozzle comprises conical section and fluid chemical field stirs section, conical section is arranged in straight-through chamber, larger diameter end and second die cavity of conical section are through, fluid chemical field stirs section and to be arranged in column type chamber and through with the smaller diameter end of conical cavity, second sleeve is processed with the fluid passage of through mix and blend nozzle, the axis of fluid passage and the axial vertical of column type chamber, straight die cavity, column type chamber, cone shaped body, first die cavity, second die cavity and conical section coaxially arranged, multiple nano-bubble generator is arranged in parallel in housing, housing is processed with intake tunnel and exhalant canal, and the second die cavity of multiple nano-bubble generator is all communicated with intake tunnel, and the conical cavity of multiple nano-bubble generator is all communicated with exhalant canal, at least two-stage nano-bubble generator group is arranged in series, and the intake tunnel of first order nano-bubble generator group is communicated with water inlet manifold road, and the exhalant canal of afterbody nano-bubble generator group is communicated with total outlet pipeline.

The beneficial effects of the utility model are: one, the mix and blend nozzle of the utility model unique design, coordinate the design that the cone shaped body of the first sleeve and the second sleeve exports, by liquid or the gas manufacture nanobubble water of fluid passage conveying, the gas that fluid passage enters or liquid and the water pumped into stir section at fluid chemical field and form negative pressure, and with spouting from cone shaped body after the mixing of multiple rotary reflux type, obtain the highly concentrated nano air-bubble of Nano grade.Two, number of bubbles in the nanometer water that produces of nano-bubble generating apparatus of the present utility model, can carry out adjustment according to generator architecture unit group installation quantity and arrangement mode to change, it is every milliliter of n × 10 that generator or generator architecture unit group manufacture nano bubble quantity ⁶individual above (1>n>10000); The bubble concentration of preparation is high, and can keep for a long time, compared with conventional nano air-bubble manufacturing equipment, exceeds multiple order of magnitude, exceeds conventional nano air-bubble production equipment far away, and production efficiency increases substantially simultaneously, is applicable on various corollary apparatus.Three, can to realize nano-bubble generator alone or multiplely receive the series connection of bubble generator or the parallel connection of multiple nano-bubble generator for the utility model, or the series connection of multi-stage nano bubble generator group, multiple combination can be realized, compared with conventional nano bubble generator, gas or liquid can be realized to seal for a long time in a liquid with Nano grade ultrahigh concentration.Four, the utility model structure is simple, reasonable in design, and good manufacturability is simple to operate, takes up room little, is convenient to install.Five, the utility model is compared with in the past traditional nano bubble water producing method, the utility model is by tip technology, be that the gas inject of Nano grade is in liquid by a large amount of diameter, achieve and improve gas concentration in liquid instantaneously, and can for a long time by gas confinement problem in a liquid.Because nano bubble can be enclosed in water for a long time, and nano bubble quantity is extremely many, so the surface area exponentially level of bubble increases, make nanobubble water body in each field show many advantages like this, such as water pollution is administered, fishery, agricultural, medical treatment, nutriment, its huge glamour has been given play in the fields such as beverage industries all.

Accompanying drawing explanation

Fig. 1 is the principal section structural representation of nano-bubble generator of the present utility model, Fig. 2 is the section structure schematic diagram of the nano-bubble generating apparatus influent side of detailed description of the invention five, Fig. 3 is that E-E in Fig. 2 is to profile, Fig. 4 is the section structure schematic diagram of the nano-bubble generating apparatus water outlet side of detailed description of the invention five, Fig. 5 is the workflow schematic diagram that the nano-bubble generating apparatus of detailed description of the invention one prepares nanobubble water, Fig. 6 is the workflow schematic diagram that the nano-bubble generating apparatus of detailed description of the invention four prepares nanobubble water, Fig. 7 is the workflow schematic diagram that the nano-bubble generating apparatus of detailed description of the invention five prepares nanobubble water, Fig. 8 is the workflow schematic diagram that the nano-bubble generating apparatus of detailed description of the invention eight prepares nanobubble water.

Detailed description of the invention

Detailed description of the invention one: composition graphs 1 and Fig. 5 explanation, the gas-liquid of present embodiment or liquid liquid mixing nano-bubble generating apparatus comprise storage tank 7, gas-liquid mixing pump 8, water inlet manifold road 5 and total outlet pipeline 6, storage tank 7 is communicated with gas-liquid mixing pump 8 by hydraulic pipeline, and water inlet manifold road 5 is communicated with gas-liquid mixing pump 8, it also comprises nano-bubble generator A, and nano-bubble generator A comprises the first sleeve 1, second sleeve 2 and mix and blend nozzle 3, the inner chamber of the second sleeve 2 comprises straight-through chamber 2-1, column type chamber 2-2 and cone shaped body 2-3, column type chamber 2-2 is arranged between straight-through chamber 2-1 and cone shaped body 2-3, the inner chamber of the first sleeve 1 comprises the first die cavity 1-1 and the second die cavity 1-2, first die cavity 1-1 is sleeved on the outer side surface of straight die cavity 2-1, mix and blend nozzle 3 is fixed with in second sleeve 2, the inner chamber of mix and blend nozzle 3 comprises conical section 3-1 and fluid chemical field stirs section 3-2, conical section 3-1 is arranged in straight-through chamber 2-1, larger diameter end and the second die cavity 1-2 of conical section 3-1 are through, it is interior and through with the smaller diameter end of conical cavity 2-3 that fluid chemical field stirring section 3-2 is arranged in column type chamber 2-2, second sleeve 2 is processed with the fluid passage 2-4 of through mix and blend nozzle 3, the axis of fluid passage 2-4 and the axial vertical of column type chamber 2-2, straight die cavity 2-1, column type chamber 2-2, cone shaped body 2-3, first die cavity 1-1, second die cavity 1-2 and conical section 3-1 is coaxially arranged, the second die cavity 1-2 of nano-bubble generator A is communicated with water inlet manifold road 5, the cone shaped body 2-3 of nano-bubble generator A is communicated with total outlet pipeline 6.

The fluid of the fluid passage 2-4 of present embodiment is liquid or gas.

Detailed description of the invention two: composition graphs 1 illustrates, it is that the fluid chemical field that uiform section inner chamber or sectional area are expanded gradually by column type chamber 2-2 to conical cavity 2-3 direction stirs section that fluid chemical field described in present embodiment stirs section 3-2.

The beneficial effect of present embodiment is: rapidly gas or liquid can be cut into Nano grade, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, improve gas or strength of fluid instantaneously, and achieve it is closed in a liquid for a long time.Other is identical with detailed description of the invention one.

Detailed description of the invention three: composition graphs 1 illustrates, it is cylindrical cavity that the fluid chemical field of present embodiment stirs section 3-2, the diameter D1 that fluid chemical field stirs section 3-2 is 1mm-1000mm, the diameter d of fluid passage 2-4 is 1mm-1000mm, the diameter D2 of the larger diameter end of conical section 3-1 is 1mm-2000mm, the diameter K of the larger diameter end of cone shaped body 2-3 is 1mm-2000mm, and the second die cavity 1-2 is column type chamber, and the diameter D3 of the second die cavity 1-2 is 1mm-2000mm.

The beneficial effect of present embodiment is: rapidly gas or liquid can be cut into Nano grade, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, improve gas or strength of fluid instantaneously, and achieve it is closed in a liquid for a long time.Other is identical with detailed description of the invention one or two.

Detailed description of the invention four: composition graphs 1 and Fig. 6 explanation, the gas-liquid of present embodiment or liquid liquid mixing nano-bubble generating apparatus comprise storage tank 7, gas-liquid mixing pump 8, water inlet manifold road 5 and total outlet pipeline 6, storage tank 7 is communicated with gas-liquid mixing pump 8 by hydraulic pipeline, and water inlet manifold road 5 is communicated with gas-liquid mixing pump 8, it also comprises at least two nano-bubble generator A, and each nano-bubble generator A comprises the first sleeve 1, second sleeve 2 and mix and blend nozzle 3, the inner chamber of the second sleeve 2 comprises straight-through chamber 2-1, column type chamber 2-2 and cone shaped body 2-3, column type chamber 2-2 is arranged between straight-through chamber 2-1 and cone shaped body 2-3, the inner chamber of the first sleeve 1 comprises the first die cavity 1-1 and the second die cavity 1-2, first die cavity 1-1 is sleeved on the outer side surface of straight die cavity 2-1, mix and blend nozzle 3 is fixed with in second sleeve 2, the inner chamber of mix and blend nozzle 3 comprises conical section 3-1 and fluid chemical field stirs section 3-2, conical section 3-1 is arranged in straight-through chamber 2-1, larger diameter end and the second die cavity 1-2 of conical section 3-1 are through, it is interior and through with the smaller diameter end of conical cavity 2-3 that fluid chemical field stirring section 3-2 is arranged in column type chamber 2-2, second sleeve 2 is processed with the fluid passage 2-4 of through mix and blend nozzle 3, the axis of fluid passage 2-4 and the axial vertical of column type chamber 2-2, straight die cavity 2-1, column type chamber 2-2, cone shaped body 2-3, first die cavity 1-1, second die cavity 1-2 and conical section 3-1 is coaxially arranged, adjacent two nano-bubble generator A are arranged in series, water inlet manifold road 5 is communicated with the second die cavity 1-2 of first nano-bubble generator A, total outlet pipeline 6 is communicated with the cone shaped body 2-3 of last nano-bubble generator A.

The fluid of the fluid passage 2-4 of present embodiment is liquid or gas.

The beneficial effect of present embodiment is: rapidly gas or liquid can be cut into Nano grade, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, improve gas or strength of fluid instantaneously, and achieve it is closed in a liquid for a long time.

Detailed description of the invention five: composition graphs 1, Fig. 2-Fig. 4 and Fig. 7 explanation, the gas-liquid of present embodiment or liquid liquid mixing nano-bubble generating apparatus comprise storage tank 7, gas-liquid mixing pump 8, water inlet manifold road 5 and total outlet pipeline 6, storage tank 7 is communicated with gas-liquid mixing pump 8 by hydraulic pipeline, and water inlet manifold road 5 is communicated with gas-liquid mixing pump 8, it also comprises housing 4, intake tunnel 4-1, exhalant canal 4-2 and multiple nano-bubble generator A, each nano-bubble generator A comprises the first sleeve 1, second sleeve 2 and mix and blend nozzle 3, the inner chamber of the second sleeve 2 comprises straight-through chamber 2-1, column type chamber 2-2 and cone shaped body 2-3, column type chamber 2-2 is arranged between straight-through chamber 2-1 and cone shaped body 2-3, the inner chamber of the first sleeve 1 comprises the first die cavity 1-1 and the second die cavity 1-2, first die cavity 1-1 is sleeved on the outer side surface of straight die cavity 2-1, mix and blend nozzle 3 is fixed with in second sleeve 2, the inner chamber of mix and blend nozzle 3 comprises conical section 3-1 and fluid chemical field stirs section 3-2, conical section 3-1 is arranged in straight-through chamber 2-1, larger diameter end and the second die cavity 1-2 of conical section 3-1 are through, it is interior and through with the smaller diameter end of conical cavity 2-3 that fluid chemical field stirring section 3-2 is arranged in column type chamber 2-2, second sleeve 2 is processed with the fluid passage 2-4 of through mix and blend nozzle 3, the axis of fluid passage 2-4 and the axial vertical of column type chamber 2-2, straight die cavity 2-1, column type chamber 2-2, cone shaped body 2-3, first die cavity 1-1, second die cavity 1-2 and conical section 3-1 is coaxially arranged, multiple nano-bubble generator A is arranged in parallel in housing 4, housing 4 is processed with intake tunnel 4-1 and exhalant canal 4-2, the second die cavity 1-2 of multiple nano-bubble generator A is all communicated with water inlet manifold road 5 by intake tunnel 4-1, and the conical cavity 2-3 of multiple nano-bubble generator A is all communicated with total outlet pipeline 6 by exhalant canal 4-2.

The fluid of the fluid passage 2-4 of present embodiment is liquid or gas.

The beneficial effect of present embodiment is: gas or liquid can be cut into Nano grade rapidly by the nano-bubble generating apparatus of present embodiment, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, achieve and oxygen concentration in water is improved rapidly, and it is closed problem in a liquid for a long time.Through the manufacture of certain hour, number of bubbles in the nanometer water that nano-bubble generating apparatus of the present utility model produces, can carry out adjustment according to generator architecture unit group installation quantity and arrangement mode to change, it is every milliliter of n × 10 that generator architecture unit group manufactures nano bubble quantity ⁶individual above (1>n>10000), productivity ratio can be adjusted to 1L-500L per minute, can be widely used in beverage, agricultural, fishery, industry, medical treatment, and the numerous areas such as Drinking Water.

Detailed description of the invention six: composition graphs 1 illustrates, it is that the fluid chemical field that uiform section inner chamber or sectional area are expanded gradually by column type chamber 2-2 to conical cavity 2-3 direction stirs section that the fluid chemical field of each nano-bubble generator A of present embodiment stirs section 3-2.

The beneficial effect of present embodiment is: gas or liquid can be cut into Nano grade rapidly by present embodiment, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, improve gas or strength of fluid instantaneously, and achieve it is closed in a liquid for a long time.Other is identical with detailed description of the invention five.

Detailed description of the invention seven: composition graphs 1 illustrates, it is cylindrical cavity that the fluid chemical field of present embodiment stirs section 3-2, the diameter D1 that fluid chemical field stirs section 3-2 is 1mm-1000mm, the diameter d of fluid passage 2-4 is 1mm-1000mm, the diameter D2 of the larger diameter end of conical section 3-1 is 1mm-2000mm, the diameter K of the larger diameter end of cone shaped body 2-3 is 1mm-2000mm, and the second die cavity 1-2 is column type chamber, and the diameter D3 of the second die cavity 1-2 is 1mm-2000mm.

The beneficial effect of present embodiment is: rapidly gas or liquid can be cut into Nano grade, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, improve gas or strength of fluid instantaneously, and achieve it is closed in a liquid for a long time.Other is identical with detailed description of the invention five or six.

Detailed description of the invention eight: composition graphs 1, Fig. 2-Fig. 4 and Fig. 8 explanation, the gas-liquid of present embodiment or liquid liquid mixing nano-bubble generating apparatus comprise storage tank 7, gas-liquid mixing pump 8, water inlet manifold road 5 and total outlet pipeline 6, storage tank 7 is communicated with gas-liquid mixing pump 8 by hydraulic pipeline, and water inlet manifold road 5 is communicated with gas-liquid mixing pump 8, it also comprises at least two-stage nano-bubble generator group B, and every grade of nano-bubble generator group B comprises housing 4, intake tunnel 4-1, exhalant canal 4-2 and multiple nano-bubble generator A, each nano-bubble generator A comprises the first sleeve 1, second sleeve 2 and mix and blend nozzle 3, the inner chamber of the second sleeve 2 comprises straight-through chamber 2-1, column type chamber 2-2 and cone shaped body 2-3, column type chamber 2-2 is arranged between straight-through chamber 2-1 and cone shaped body 2-3, the inner chamber of the first sleeve 1 comprises the first die cavity 1-1 and the second die cavity 1-2, first die cavity 1-1 is sleeved on the outer side surface of straight die cavity 2-1, mix and blend nozzle 3 is fixed with in second sleeve 2, the inner chamber of mix and blend nozzle 3 comprises conical section 3-1 and fluid chemical field stirs section 3-2, conical section 3-1 is arranged in straight-through chamber 2-1, larger diameter end and the second die cavity 1-2 of conical section 3-1 are through, it is interior and through with the smaller diameter end of conical cavity 2-3 that fluid chemical field stirring section 3-2 is arranged in column type chamber 2-2, second sleeve 2 is processed with the fluid passage 2-4 of through mix and blend nozzle 3, the axis of fluid passage 2-4 and the axial vertical of column type chamber 2-2, straight die cavity 2-1, column type chamber 2-2, cone shaped body 2-3, first die cavity 1-1, second die cavity 1-2 and conical section 3-1 is coaxially arranged, multiple nano-bubble generator A is arranged in parallel in housing 4, housing 4 is processed with intake tunnel 4-1 and exhalant canal 4-2, the second die cavity 1-2 of multiple nano-bubble generator A is all communicated with intake tunnel 4-1, and the conical cavity 2-3 of multiple nano-bubble generator A is all communicated with exhalant canal 4-2, at least two-stage nano-bubble generator group B is arranged in series, and the intake tunnel 4-1 of first order nano-bubble generator group B is communicated with water inlet manifold road 5, and the exhalant canal 4-2 of afterbody nano-bubble generator group B is communicated with total outlet pipeline 6.

The fluid of the fluid passage 2-4 of present embodiment is liquid or gas.

The beneficial effect of present embodiment is: the second die cavity of multiple nano-bubble generators of present embodiment is all communicated with water inlet manifold road by intake tunnel, and the conical cavity of multiple nano-bubble generator is all communicated with total outlet pipeline by exhalant canal.Gas or liquid can be cut into Nano grade rapidly by present embodiment, be that gas or the liquid of Nano grade is injected in liquid, achieve a large amount of diameter and oxygen concentration in water is improved rapidly, and it are closed in a liquid for a long time.Through the manufacture of certain hour, number of bubbles in the nanometer water that nano-bubble generating apparatus of the present utility model produces, can carry out adjustment according to generator architecture unit group installation quantity and arrangement mode to change, it is every milliliter of n × 10 that generator architecture unit group manufactures nano bubble quantity ⁶individual above (1>n>10000), productivity ratio can be adjusted to 1L-500L per minute, can be widely used in beverage.Agricultural.Fishery.Industry.Medical treatment.And the field such as Drinking Water.

Detailed description of the invention nine: composition graphs 1 illustrates, the inner chamber of the fluid chemical field stirring section 3-2 of each nano-bubble generator A of present embodiment is that the fluid chemical field that uiform section inner chamber or sectional area are expanded gradually by column type chamber 2-2 to conical cavity 2-3 direction stirs section.

The beneficial effect of present embodiment is: gas or liquid can be cut into Nano grade rapidly by present embodiment, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, improve gas or strength of fluid instantaneously, and achieve it is closed in a liquid for a long time.Other is identical with detailed description of the invention eight.

Detailed description of the invention ten: composition graphs 1 illustrates, it is cylindrical cavity that the fluid chemical field of present embodiment stirs section 3-2, the diameter D1 that fluid chemical field stirs section 3-2 is 1mm-1000mm, the diameter d of fluid passage 2-4 is 1mm-1000mm, the diameter D2 of the larger diameter end of conical section 3-1 is 1mm-2000mm, the diameter K of the larger diameter end of cone shaped body 2-3 is 1mm-2000mm, and the second die cavity 1-2 is column type chamber, and the diameter D3 of the second die cavity 1-2 is 1mm-2000mm.

The beneficial effect of present embodiment is: rapidly gas or liquid can be cut into Nano grade, be that gas or the liquid of Nano grade is injected in liquid by a large amount of diameter, improve gas or strength of fluid instantaneously, and achieve it is closed in a liquid for a long time.Other is identical with detailed description of the invention eight or nine.

The course of work

Composition graphs 1-Fig. 8 explanation, when single nano-bubble generator prepares nano bubble, auxiliary supporting storage tank 7 and gas-liquid mixing pump 8, the incoming flow install pipeline switch valve 9 of storage tank 7, total outlet pipeline 6 go stream pipeline on switch valve 9 is installed, the delivery port of storage tank 7 is communicated with in the water inlet of gas-liquid mixing pump 8, the delivery port of gas-liquid mixing pump 8 is communicated with the intake tunnel 4-1 of the second die cavity 1-2 of single generator or multiple bubble structure unit A, the cone shaped body 2-3 of single generator or the exhalant canal 4-2 of multiple bubble structure unit A is communicated with and is communicated with total outlet pipeline 6, fluid passage 2-4 provides liquid or gas.

Conical section and fluid chemical field stir section and form mix and blend nozzle, current area reduces gradually, second sleeve reduces transition to column type chamber gradually by straight die cavity, the water under high pressure squeezing into conical section through gas-liquid mixing pump will produce fluid at a high speed along with the minimizing of current area, enter fluid chemical field and stir section region, there is vacuum effect instantaneously, produce negative pressure, enter gas in fluid passage or liquid to be sucked by brute force and fully mix with current and produce cavitation, and with the mixing of multiple rotary reflux type, thus be ground into the gas-liquid mixture phase of micro-bubble.This bubble is reduced into ultramicrofine bubble subsequently to interior crumple and discharges high-energy, and these high-octane bubbles can inspire more tiny nano bubble.Enter when gas in fluid passage or liquid mix with the liquid that gas-liquid mixing pump is squeezed into and form gas-liquid mixed or liquid liquid admixture.Fiercer when gas and liquid mix and blend, then the number of bubbles of the nanobubble water generated is more, and concentration is also higher, the diameter of bubble can be reduced simultaneously, collect and generate nano bubble, spouting from cone shaped body, be the highly concentrated nano air-bubble that diameter is Nano grade.

The cross section of cone shaped body increases gradually, discharge more nano grade air bubbles, by configuring the fluid passage of different-diameter, the larger diameter end outlet of the larger diameter end of the conical section of different-diameter and the cone shaped body of different-diameter, and the arrangement mode of generator architecture unit group, the adjustment of Air Bubble Size and quantity can be realized.

Claims (10)

1. gas-liquid or liquid liquid mixing nano-bubble generating apparatus, it comprises storage tank (7), gas-liquid mixing pump (8), water inlet manifold road (5) and total outlet pipeline (6), storage tank (7) is communicated with gas-liquid mixing pump (8) by hydraulic pipeline, and water inlet manifold road (5) are communicated with gas-liquid mixing pump (8), it is characterized in that: it also comprises nano-bubble generator (A), nano-bubble generator (A) comprises the first sleeve (1), the second sleeve (2) and mix and blend nozzle (3), the inner chamber of the second sleeve (2) comprises straight-through chamber (2-1), column type chamber (2-2) and cone shaped body (2-3), column type chamber (2-2) is arranged between straight-through chamber (2-1) and cone shaped body (2-3), the inner chamber of the first sleeve (1) comprises the first die cavity (1-1) and the second die cavity (1-2), first die cavity (1-1) is sleeved on the outer side surface of straight die cavity (2-1), mix and blend nozzle (3) is fixed with in second sleeve (2), the inner chamber of mix and blend nozzle (3) comprises conical section (3-1) and fluid chemical field stirs section (3-2), conical section (3-1) is arranged in straight-through chamber (2-1), larger diameter end and second die cavity (1-2) of conical section (3-1) are through, it is interior and through with the smaller diameter end of conical cavity (2-3) that fluid chemical field stirring section (3-2) is arranged in column type chamber (2-2), second sleeve (2) is processed with the fluid passage (2-4) of through mix and blend nozzle (3), the axis of fluid passage (2-4) and the axial vertical of column type chamber (2-2), straight die cavity (2-1), column type chamber (2-2), cone shaped body (2-3), first die cavity (1-1), second die cavity (1-2) and conical section (3-1) six coaxially arranged, second die cavity (1-2) of nano-bubble generator (A) is communicated with water inlet manifold road (5), the cone shaped body (2-3) of nano-bubble generator (A) is communicated with total outlet pipeline (6).

2. gas-liquid according to claim 1 or liquid liquid mixing nano-bubble generating apparatus, is characterized in that: described fluid chemical field stirs the fluid chemical field stirring section that section (3-2) is expanded to conical cavity (2-3) direction by column type chamber (2-2) gradually for uiform section inner chamber or sectional area.

3. gas-liquid according to claim 1 and 2 or liquid liquid mixing nano-bubble generating apparatus, it is characterized in that: it is cylindrical cavity that fluid chemical field stirs section (3-2), the diameter (D1) that fluid chemical field stirs section (3-2) is 1mm-1000mm, the diameter (d) of fluid passage (2-4) is 1mm-1000mm, the diameter (D2) of the larger diameter end of conical section (3-1) is 1mm-2000mm, the diameter (K) of the larger diameter end of cone shaped body (2-3) is 1mm-2000mm, second die cavity (1-2) is column type chamber, the diameter (D3) of the second die cavity (1-2) is 1mm-2000mm.

4. gas-liquid or liquid liquid mixing nano-bubble generating apparatus, it comprises storage tank (7), gas-liquid mixing pump (8), water inlet manifold road (5) and total outlet pipeline (6), storage tank (7) is communicated with gas-liquid mixing pump (8) by hydraulic pipeline, and water inlet manifold road (5) are communicated with gas-liquid mixing pump (8), it is characterized in that: it also comprises at least two nano-bubble generators (A), each nano-bubble generator (A) comprises the first sleeve (1), the second sleeve (2) and mix and blend nozzle (3), the inner chamber of the second sleeve (2) comprises straight-through chamber (2-1), column type chamber (2-2) and cone shaped body (2-3), column type chamber (2-2) is arranged between straight-through chamber (2-1) and cone shaped body (2-3), the inner chamber of the first sleeve (1) comprises the first die cavity (1-1) and the second die cavity (1-2), first die cavity (1-1) is sleeved on the outer side surface of straight die cavity (2-1), mix and blend nozzle (3) is fixed with in second sleeve (2), the inner chamber of mix and blend nozzle (3) comprises conical section (3-1) and fluid chemical field stirs section (3-2), conical section (3-1) is arranged in straight-through chamber (2-1), larger diameter end and second die cavity (1-2) of conical section (3-1) are through, it is interior and through with the smaller diameter end of conical cavity (2-3) that fluid chemical field stirring section (3-2) is arranged in column type chamber (2-2), second sleeve (2) is processed with the fluid passage (2-4) of through mix and blend nozzle (3), the axis of fluid passage (2-4) and the axial vertical of column type chamber (2-2), straight die cavity (2-1), column type chamber (2-2), cone shaped body (2-3), first die cavity (1-1), second die cavity (1-2) and conical section (3-1) six coaxially arranged, adjacent two nano-bubble generators (A) are arranged in series, water inlet manifold road (5) is communicated with second die cavity (1-2) of first nano-bubble generator (A), total outlet pipeline (6) is communicated with the cone shaped body (2-3) of last nano-bubble generator (A).

5. gas-liquid or liquid liquid mixing nano-bubble generating apparatus, it comprises storage tank (7), gas-liquid mixing pump (8), water inlet manifold road (5) and total outlet pipeline (6), storage tank (7) is communicated with gas-liquid mixing pump (8) by hydraulic pipeline, and water inlet manifold road (5) are communicated with gas-liquid mixing pump (8), it is characterized in that: it also comprises housing (4), intake tunnel (4-1), exhalant canal (4-2) and multiple nano-bubble generator (A), each nano-bubble generator (A) comprises the first sleeve (1), the second sleeve (2) and mix and blend nozzle (3), the inner chamber of the second sleeve (2) comprises straight-through chamber (2-1), column type chamber (2-2) and cone shaped body (2-3), column type chamber (2-2) is arranged between straight-through chamber (2-1) and cone shaped body (2-3), the inner chamber of the first sleeve (1) comprises the first die cavity (1-1) and the second die cavity (1-2), first die cavity (1-1) is sleeved on the outer side surface of straight die cavity (2-1), mix and blend nozzle (3) is fixed with in second sleeve (2), the inner chamber of mix and blend nozzle (3) comprises conical section (3-1) and fluid chemical field stirs section (3-2), conical section (3-1) is arranged in straight-through chamber (2-1), larger diameter end and second die cavity (1-2) of conical section (3-1) are through, it is interior and through with the smaller diameter end of conical cavity (2-3) that fluid chemical field stirring section (3-2) is arranged in column type chamber (2-2), second sleeve (2) is processed with the fluid passage (2-4) of through mix and blend nozzle (3), the axis of fluid passage (2-4) and the axial vertical of column type chamber (2-2), straight die cavity (2-1), column type chamber (2-2), cone shaped body (2-3), first die cavity (1-1), second die cavity (1-2) and conical section (3-1) six coaxially arranged, multiple nano-bubble generator (A) is arranged in parallel in housing (4), housing (4) is processed with intake tunnel (4-1) and exhalant canal (4-2), second die cavity (1-2) of multiple nano-bubble generator (A) is all communicated with water inlet manifold road (5) by intake tunnel (4-1), and the conical cavity (2-3) of multiple nano-bubble generator (A) is all communicated with total outlet pipeline (6) by exhalant canal (4-2).

6. gas-liquid according to claim 5 or liquid liquid mixing nano-bubble generating apparatus, is characterized in that: the fluid chemical field that fluid chemical field stirring section (3-2) of each nano-bubble generator (A) is expanded to conical cavity (2-3) direction by column type chamber (2-2) gradually for uiform section inner chamber or sectional area stirs section.

7. the gas-liquid according to claim 5 or 6 or liquid liquid mixing nano-bubble generating apparatus, it is characterized in that: it is cylindrical cavity that fluid chemical field stirs section (3-2), the diameter (D1) that fluid chemical field stirs section (3-2) is 1mm-1000mm, the diameter (d) of fluid passage (2-4) is 1mm-1000mm, the diameter (D2) of the larger diameter end of conical section (3-1) is 1mm-2000mm, the diameter (K) of the larger diameter end of cone shaped body (2-3) is 1mm-2000mm, second die cavity (1-2) is column type chamber, the diameter (D3) of the second die cavity (1-2) is 1mm-2000mm.

8. gas-liquid or liquid liquid mixing nano-bubble generating apparatus, it comprises storage tank (7), gas-liquid mixing pump (8), water inlet manifold road (5) and total outlet pipeline (6), storage tank (7) is communicated with gas-liquid mixing pump (8) by hydraulic pipeline, and water inlet manifold road (5) are communicated with gas-liquid mixing pump (8), it is characterized in that: it also comprises at least two-stage nano-bubble generator group (B), every grade of nano-bubble generator group (B) comprises housing (4), intake tunnel (4-1), exhalant canal (4-2) and multiple nano-bubble generator (A), each nano-bubble generator (A) comprises the first sleeve (1), the second sleeve (2) and mix and blend nozzle (3), the inner chamber of the second sleeve (2) comprises straight-through chamber (2-1), column type chamber (2-2) and cone shaped body (2-3), column type chamber (2-2) is arranged between straight-through chamber (2-1) and cone shaped body (2-3), the inner chamber of the first sleeve (1) comprises the first die cavity (1-1) and the second die cavity (1-2), first die cavity (1-1) is sleeved on the outer side surface of straight die cavity (2-1), mix and blend nozzle (3) is fixed with in second sleeve (2), the inner chamber of mix and blend nozzle (3) comprises conical section (3-1) and fluid chemical field stirs section (3-2), conical section (3-1) is arranged in straight-through chamber (2-1), larger diameter end and second die cavity (1-2) of conical section (3-1) are through, it is interior and through with the smaller diameter end of conical cavity (2-3) that fluid chemical field stirring section (3-2) is arranged in column type chamber (2-2), second sleeve (2) is processed with the fluid passage (2-4) of through mix and blend nozzle (3), the axis of fluid passage (2-4) and the axial vertical of column type chamber (2-2), straight die cavity (2-1), column type chamber (2-2), cone shaped body (2-3), first die cavity (1-1), second die cavity (1-2) and conical section (3-1) six coaxially arranged, multiple nano-bubble generator (A) is arranged in parallel in housing (4), housing (4) is processed with intake tunnel (4-1) and exhalant canal (4-2), second die cavity (1-2) of multiple nano-bubble generator (A) is all communicated with intake tunnel (4-1), and the conical cavity (2-3) of multiple nano-bubble generator (A) is all communicated with exhalant canal (4-2), at least two-stage nano-bubble generator group (B) is arranged in series, the intake tunnel (4-1) of first order nano-bubble generator group (B) is communicated with water inlet manifold road (5), and the exhalant canal (4-2) of afterbody nano-bubble generator group (B) is communicated with total outlet pipeline (6).

9. gas-liquid according to claim 8 or liquid liquid mixing nano-bubble generating apparatus, is characterized in that: the inner chamber of fluid chemical field stirring section (3-2) of each nano-bubble generator (A) is that the fluid chemical field that uiform section inner chamber or sectional area are expanded to conical cavity (2-3) direction gradually by column type chamber (2-2) stirs section.

10. gas-liquid according to claim 8 or claim 9 or liquid liquid mixing nano-bubble generating apparatus, it is characterized in that: it is cylindrical cavity that fluid chemical field stirs section (3-2), the diameter (D1) that fluid chemical field stirs section (3-2) is 1mm-1000mm, the diameter (d) of fluid passage (2-4) is 1mm-1000mm, the diameter (D2) of the larger diameter end of conical section (3-1) is 1mm-2000mm, the diameter (K) of the larger diameter end of cone shaped body (2-3) is 1mm-2000mm, second die cavity (1-2) is column type chamber, the diameter (D3) of the second die cavity (1-2) is 1mm-2000mm.