CN210674824U - Preparation facilities of fine nanometer bubble solution - Google Patents

Abstract

The utility model discloses a device for preparing micro nano bubble solution, which comprises a micro nano bubble generator, wherein the micro nano bubble generator comprises a shell, a first cavity, a processing part and a second cavity; the surface of the processing part is provided with at least one conical through hole and a water inlet hole; at least one spiral groove is arranged in the conical through hole; the first cavity is communicated with the second cavity through the conical through hole and the water inlet hole. Utilize the utility model discloses a preparation facilities can prepare and obtain fine nanometer bubble solution, and fine nanometer bubble is gathered in the bottom of solution.

Description

Preparation facilities of fine nanometer bubble solution

Technical Field

The utility model relates to a fine bubble technical field especially relates to a preparation facilities of fine nanometer bubble solution.

Background

[ patent document 1] Japanese unexamined patent publication No. 2012-96203

[ non-patent document 1] Cudrania tricuspidata "" foundation of microbubble nanobubbles "", Bull, Soc, SeaWater Sci., Jpn., 64, 4-10(2010)

The aqueous solution of oxygen nanobubbles described in patent document 1 is characterized by containing 1017 or more oxygen nanobubbles of 1 to 10nm in 1 ml. However, according to the descriptions in patent document 1 and non-patent document 1, when oxygen nanobubbles are produced in a solution water tank of actually 50L or more, the number average diameter of the bubbles studied as example 1(Peak-1) is 131.0nm, the number average diameter of example 2 is 70.5nm, and the number average diameter of example 3 is 6.8nm and the oxygen nanobubbles are accumulated in the bottom of the solution at 30nm or less.

Further, as disclosed in patent document 1, although nanobubble water is expected to be effective in treating or preventing cancer, it is not known at present whether or not oxygen nanobubbles of 30nm or less are considered to be stably mass-produced as a nanobubble beverage disclosed in patent document 1 in view of the property of easily accumulating at the bottom when producing oxygen nanobubbles in a solution tank of 50L or more.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem, provide a preparation facilities of fine nanometer bubble solution, can prepare in solution and obtain the high fine nanometer bubble of a large amount of stability, and then preparation obtains fine nanometer bubble solution.

In order to achieve the purpose, the utility model adopts the following technical scheme.

A preparation device of micro nano bubble solution comprises a micro nano bubble generator, wherein the micro nano bubble generator comprises a shell, a first cavity, a processing part and a second cavity; the surface of the processing part is provided with at least one conical through hole and a water inlet hole; at least one spiral groove is arranged in the conical through hole; the first cavity is communicated with the second cavity through the conical through hole and the water inlet hole.

Further, after the solution in the first cavity passes through the conical through hole and the water inlet hole, a cross vortex can be generated in the second cavity, and then micro nano bubbles are generated.

Further, the processing part is cylindrical; the circumference of the processing part is provided with the conical through holes, and the inclination of the conical through holes is more than 5 degrees; the diameter of the smaller end of the conical through hole is 0.1-3 mm.

Furthermore, the water inlet hole is a cylindrical hole channel, and the diameter of the hole channel is 0.1-3 mm.

Furthermore, the device for preparing the micro-nano bubble solution also comprises an air dissolving device, the air dissolving device is connected with the micro-nano bubble generator through a pipeline, and the air dissolving device comprises a gas source, a pressure pump and a solution tank which are connected through a pipeline. Further, the gas source is in fluid connection with the solution tank through a pipeline, and the pressure pump is arranged on the pipeline; after the gas in the gas source flows out, the gas enters a solution tank filled with solution through the pipeline under the action of the pressure pump, so that the gas is dissolved in the solution to obtain the solution containing the gas. Then, the solution containing gas enters the micro-nano bubble generator through a pipeline.

Further, the outflow rate of the gas in the gas source is 0.5-5L/min.

Further, the pressure of the pressure pump is 0.2-1.0 MPa.

Further, the solution in the solution tank flows into the fine nano bubble generator through a pipe at a rate of 1-100L/min.

Further, the material of the housing is selected from at least one of stainless steel and plastic.

The utility model has the advantages that: utilize the device of the utility model can be prepared in the solution

A large amount of fine nano bubbles, and further a fine nano bubble solution with high stability can be produced in large quantities. The utility model discloses the fine nanobubble solution that the preparation obtained, fine nanobubble are gathered in the bottom of solution.

Drawings

Fig. 1 is a schematic view of a micro-nano bubble generator in embodiment 1 of the present invention.

Fig. 2 is a schematic view of a device for preparing a fine nanobubble solution in embodiment 2 of the present invention.

Fig. 3 is a schematic view of an air dissolving device in embodiment 2 of the present invention.

Fig. 4 is a distribution diagram of the diameter and the number of fine nanobubbles in the test example 1 of the present invention.

Fig. 5 is a distribution diagram of the diameter and the number of fine nanobubbles in the test example 2 of the present invention.

Fig. 6 is a graph showing the change in subcutaneous arterial blood oxygen saturation in test example 3 of the present invention.

The reference numerals in the figures are respectively:

1. a micro nano bubble generator;

2. a gas dissolving device;

11. a housing;

12. a water inlet hole;

13. a processing part;

14. a conical through hole;

15. a first cavity;

16. a second cavity;

21. a gas source;

22. a pressure pump;

23. a solution tank.

Detailed Description

The following embodiments of the present invention will be further explained with reference to the drawings, and it should be noted that the following embodiments should not be considered as limitations to the specific implementation of the present invention.

Example 1

A micro-nano bubble solution preparation device, referring to fig. 1, comprising a micro-nano bubble generator 1, wherein the micro-nano bubble generator 1 comprises a housing 11, a first cavity 15, a processing part 13 and a second cavity 16; the surface of the processing part 13 is provided with a plurality of conical through holes 14 and a water inlet hole 12; more than 1 spiral groove is arranged in the conical through hole 14; the first cavity 15 is communicated with the second cavity 16 through the conical through hole 14 and the water inlet hole 12.

The solution in the first cavity 15 can generate a cross vortex in the second cavity 16 after passing through the conical through hole 14 and the water inlet hole 12, and the gas contained in the solution is changed from large bubbles into small bubbles under the action of the vortex, so that micro nano bubbles are generated.

The treatment portion 13 has a cylindrical shape; one or more rows of conical through holes 14 are arranged on the circumference of the cylinder, and the inclination of the conical through holes 14 is more than 5 degrees; the diameter of the smaller end of the conical through hole 14 is 0.1-3 mm; the water inlet 12 is a cylindrical hole with a diameter of 0.1-3 mm. The material of the housing 11 is selected from at least one of stainless steel and plastic.

Example 2

A micro-nano bubble solution preparation device, referring to fig. 1, comprising a micro-nano bubble generator 1, wherein the micro-nano bubble generator 1 comprises a housing 11, a first cavity 15, a processing part 13 and a second cavity 16; the surface of the processing part 13 is provided with a plurality of conical through holes 14 and a water inlet hole 12; more than 1 spiral groove is arranged in the conical through hole 14; the first cavity 15 is communicated with the second cavity 16 through the conical through hole 14 and the water inlet hole 12.

The solution in the first cavity 15 can generate a cross vortex in the second cavity 16 after passing through the conical through hole 14 and the water inlet hole 12, and the gas contained in the solution is changed from large bubbles into small bubbles under the action of the vortex, so that micro nano bubbles are generated.

The treatment portion 13 has a cylindrical shape; one or more rows of conical through holes 14 are arranged on the circumference of the cylinder, and the inclination of the conical through holes 14 is more than 5 degrees; the diameter of the smaller end of the conical through hole 14 is 0.1-3 mm; the water inlet 12 is a cylindrical hole with a diameter of 0.1-3 mm. The material of the housing 11 is selected from at least one of stainless steel and plastic.

The utility model discloses a still include among the preparation facilities of fine nanometer bubble solution and dissolve gas device 2, refer to fig. 3, dissolve gas device 2 through the pipeline with fine nanometer bubble generator connects, it includes a gas source 21, a force pump 22 and a solution tank 23 to dissolve gas device 2 to be connected through the pipeline.

Referring to fig. 2, the gas flowing out of the gas source 21 may be introduced into a solution tank 23 filled with a solution under the action of the pressure pump 22, and then the solution containing the gas enters the micro-nano bubble generator 1 through a pipeline. The outflow rate of the gas in the gas source 21 is 0.5-5L/min. The pressure of the pressure pump 22 is 0.2-1.0 MPa. The solution in the solution tank 23 flows into the fine nano bubble generator 1 through a pipe at a rate of 1-100L/min.

Example 3

In this example, a fine nanobubble solution was prepared by the above-mentioned apparatus for preparing a fine nanobubble solution of examples 1 and 2.

The average diameter of the micro nano bubbles in the micro nano bubble solution is 1-10nm, and the micro nano bubbles exist at the position close to the bottom of the micro nano bubble solution. The gas in the micro nano bubbles is at least one of air, oxygen, ozone, carbon dioxide, hydrogen and nitrogen; each liter of the micro nano bubble solution contains 0.5L of gas. The micro nano bubble solution can be used as medical solution, common beverage, degerming agent, disinfectant and cleaning agent.

Test example 1

The diameter and the number distribution of the fine nanobubbles measured by the dynamic light scattering method in this test were measured by using an Otsuka electronics manufacturing particle size molecular weight measurement system (ELSZ-2000): adopt the utility model discloses the preparation facilities of fine nanometer bubble solution in the embodiment 2 prepares 50L's fine nanometer bubble solution, arranges the container in and preserves. The fine nanobubble solution was extracted from a position 80% of the height of the solution according to the height of the solution in the different containers, and the diameter size and number distribution of the fine nanobubbles in the extracted fine nanobubble solution were measured, and the test results are shown in fig. 4.

As can be seen from FIG. 4, the bubble diameter in this test is in the range of 1 to 10 nm.

Test example 2

The diameter and the number distribution of the fine nanobubbles measured by the dynamic light scattering method in this test were measured by using an Otsuka electronics manufacturing particle size molecular weight measurement system (ELSZ-2000): adopt the utility model discloses the preparation facilities of fine nanometer bubble solution in the embodiment 2 prepares 50L's fine nanometer bubble solution, arranges the container in and preserves. The fine nanobubble solutions were extracted from the positions 20% and 50% of the height of the solution, respectively, according to the height of the solution in the different containers, and the diameter size and the number distribution of the fine nanobubbles in the extracted fine nanobubble solutions were measured, and the test results are shown in fig. 5.

According to fig. 5, the diameter of the bubble produced by the device for preparing a micro-nano-bubble solution of the present invention is in the range of 1-10nm, especially 6-7 nm.

As can be seen from fig. 4 and 5, the average diameter of the micro-nanobubbles in the micro-nanobubble solution prepared by the present invention is very small and the micro-nanobubbles are accumulated at the bottom of the solution.

Test example 3

This is experimental chooses for use the utility model discloses in well embodiment 2 use oxygen to be the fine nanometer bubble oxygen solution that gaseous preparation obtained, select the experimenter at random and carry out oxyhemoglobin saturation's test experiment. The experimenter took 200ml of the fine nanobubble oxygen beverage orally, selected a pulse oximeter manufactured by SEATAR (S-114) to measure the finger tip arterial oxygen saturation, and recorded the time course of the arterial oxygen saturation, as shown in FIG. 6.

The result shows that after the micro nano bubble oxygen solution of the utility model is taken orally, the subcutaneous arterial blood oxygen saturation is improved by more than 1 percent along with the time.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A preparation device of micro nano bubble solution is characterized by comprising a micro nano bubble generator (1), wherein the micro nano bubble generator (1) comprises a shell (11), a first cavity (15), a processing part (13) and a second cavity (16); the surface of the processing part (13) is provided with at least one conical through hole (14) and a water inlet hole (12); at least one spiral groove is arranged in the conical through hole (14); the first cavity (15) is communicated with the second cavity (16) through the conical through hole (14) and the water inlet hole (12).

2. The apparatus for preparing a micro-nano bubble solution according to claim 1, wherein the processing portion (13) has a cylindrical shape; the circumference of the processing part (13) is provided with the conical through hole (14), and the inclination of the conical through hole (14) is more than 5 degrees; the diameter of the smaller end of the conical through hole (14) is 0.1-3 mm.

3. The apparatus for preparing a micro-nano bubble solution as set forth in claim 1, wherein the water inlet hole (12) is a cylindrical hole having a diameter of 0.1-3 mm.

4. The apparatus for preparing a micro-nano bubble solution according to any one of claims 1-3, wherein the apparatus for preparing a micro-nano bubble solution further comprises a gas dissolving device (2), and the gas dissolving device (2) is used for dissolving gas into the solution and is in fluid connection with the micro-nano bubble generator (1) through a pipeline.

5. The apparatus for preparing a micro-nano bubble solution according to claim 4, wherein the gas dissolving apparatus (2) comprises a gas source (21), a pressure pump (22) and a solution tank (23); the gas source (21) is in fluid connection with the solution tank (23) through a pipe on which the pressure pump (22) is arranged; so that the gas in the gas source (21) flows out and enters the solution tank (23) through the pipeline under the action of the pressure pump (22).

6. The apparatus for preparing a micro-nano bubble solution according to claim 5, wherein the solution dissolved with gas generated in the solution tank (23) enters the micro-nano bubble generator (1) through a pipeline.

7. The apparatus for preparing a micro-nano bubble solution according to claim 1, wherein the material of the housing (11) is selected from at least one of stainless steel and plastic.

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