JP2022128240A - Stirring balls for generating nanobubbles - Google Patents

Abstract

To solve the problem in which generic stirring balls used for paint sprays, medicines that include an ingredients precipitating drug, etc. are simple spheres that when ingredients precipitated by shaking is dispersed and stirred uniformly, but ability of such stirring balls to generate nanobubbles is extremely insufficient.SOLUTION: Stirring balls for generating nanobubbles according to the present invention are stirring balls for generating nanobubbles including hollow bodies that have a hollow structure and are provided with a plurality of holes through which liquid can pass in a wall surface of the hollow structure. The stirring balls for generating nanobubbles are characterized in that, the stirring balls for generating nanobubbles have been stored in a liquid storage container such as a bottle and the liquid storage container is shaken up and down, thereby nanobubbles are generated by shearing and crushing action.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD The present invention relates to a nanobubble-generating stirring ball capable of efficiently generating nanobubbles.

General stirring balls used for paint sprays, chemicals that precipitate ingredients, etc. are simply spheres that disperse and uniformly stir the precipitated ingredients by shaking, but such balls generate nanobubbles extremely. was inadequate.

Nothing in particular.

The problem to be solved is that conventional stirring balls are mere spheres, and when they are shaken, the precipitated components are dispersed and uniformly stirred, but such stirring balls are extremely insufficient in generating nanobubbles.
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a nanobubble-generating stirring ball having a very simple structure and capable of generating nanobubbles very efficiently.

The nanobubble-generating stirring ball of the present invention is a hollow body having a hollow structure, and a plurality of holes through which a liquid passes are provided on the wall surface of the hollow structure. It is characterized in that nanobubbles are generated by a shearing and crushing action when the liquid storage container is housed in a container and the liquid storage container is shaken up and down.

The nanobubble-generating stirring ball of the present invention is a hollow body having a hollow structure, and a plurality of holes through which a liquid passes are provided on the wall surface of the hollow structure. It is also characterized by attaching it to a straw provided in a storage container and shaking the liquid storage container up and down to generate nanobubbles by shearing and crushing action.

The nanobubble-generating stirring ball of the present invention is characterized in that the hollow body has two or more holes of 1 mm or more in the wall surface of the hollow structure so that nanobubbles are generated. .

The nanobubble-generating stirring ball of the present invention is characterized in that a hollow body having a hollow structure has two or more holes at predetermined intervals in which various patterns are formed on the wall surface of the hollow structure, thereby generating nanobubbles. is also characterized.

The nanobubble-generating stirring ball of the present invention is characterized in that the hollow body of the hollow structure is made of a material heavier than water, such as polyethylene terephthalate (PET, specific gravity around 1.38), polystyrene (specific gravity around 1.05), and steel. It is something to do.

The nanobubble-generating stirring ball of the present invention is a hollow body having a hollow structure, and a plurality of holes through which a liquid passes are provided in the wall surface of the hollow structure. There is an advantage that nanobubbles with a very high concentration can be generated extremely efficiently by the action of shearing and crushing by storing in a container and shaking the liquid storage container up and down.

The nanobubble-generating stirring ball of the present invention is a hollow body having a hollow structure, and a plurality of holes through which a liquid passes are provided on the wall surface of the hollow structure. By attaching it to a straw provided in a storage container and shaking the liquid storage container up and down, nanobubbles can be generated in a very stable state by shearing and crushing action.

The nanobubble-generating stirring ball of the present invention has a very simple structure and can be manufactured at low cost, in which nanobubbles are generated by providing two or more holes of 1 mm or more in the wall surface of the hollow body of the hollow structure. It has the advantage of being able to

The nanobubble-generating stirring ball of the present invention is very simple in that the hollow body has two or more holes with a predetermined interval in which various patterns are formed on the wall surface of the hollow structure to generate nanobubbles. There is an advantage that it is possible to produce a product with a simple structure and excellent fashionability.

In the nanobubble-generating stirring ball of the present invention, the hollow body of the hollow structure is made of a material heavier than water, such as polyethylene terephthalate (PET, specific gravity around 1.38), polystyrene (specific gravity around 1.05), steel, etc. There is an advantage that nanobubbles can be generated efficiently.

FIG. 1 is an explanatory view showing a method of implementing the nanobubble-generating stirring balls, in which (a) is a schematic perspective view of a liquid storage container, and (b) is a schematic perspective view of the nanobubble-generating stirring balls. (Example 1) 2A and 2B are explanatory diagrams showing a method of implementing nanobubble-generating stirring balls, in which (a) is a schematic perspective view of a liquid storage container, and (b) is a schematic perspective view of nanobubble-generating stirring balls. (Example 2) 3A and 3B are explanatory diagrams showing a method of implementing nanobubble-generating stirring balls, in which (a) is a schematic perspective view of a liquid storage container, and (b) is a schematic perspective view of nanobubble-generating stirring balls. (Example 3) 4A and 4B are explanatory diagrams showing a method of implementing nanobubble-generating stirring balls, in which (a) is a schematic perspective view of a liquid storage container, and (b) is a schematic perspective view of nanobubble-generating stirring balls. (Example 4)

A first embodiment of the nanobubble-generating stirring balls of the present invention will be described in detail below with reference to the drawings.
In FIG. 1, reference numeral 11 denotes a liquid storage container such as a bottle, and examples thereof include liquid cosmetics, beverages such as soft drinks and fruit drinks, and liquid fertilizer containers.
The liquid storage container 11 accommodates nanobubble generating stirring balls 12 which are hollow bodies having a hollow structure and in which a plurality of holes 13 through which the liquid passes are provided in the wall surface of the hollow structure.
The nanobubble generating stirring balls 12 are stored in a liquid storage container 11 such as a bottle, and by shaking the liquid storage container 11 up and down, nanobubbles 14 with a very high concentration are generated extremely efficiently by shearing and crushing action. .

The nanobubble-generating stirring ball 12 may have a hollow structure as a basic structure, and may be spherical, rugby ball-shaped, cylindrical, heart-shaped, or any other appropriate shape.
In FIG. 1, holes 13 through which the liquid passes are formed at suitable intervals in the spherical nanobubble-generating stirring balls 12 .
The nanobubble-generating stirring balls 12 are stored in a liquid storage container 11 such as a bottle, and the liquid storage container 11 is shaken up and down to generate nanobubbles 14 extremely efficiently due to the shearing and crushing action in the holes 13 through which the liquid passes. occurs.

FIG. 2 shows a second embodiment of the nanobubble-generating stirring balls of the present invention.
In this example, too, the liquid storage container 21 contains nanobubble generating stirring balls 22 which are hollow bodies having a hollow structure and in which a plurality of holes 23 through which the liquid passes are provided in the wall surface of the hollow structure.
The nanobubble-generating stirring balls 22 are stored in a liquid storage container 21 such as a bottle, and the liquid storage container 21 is shaken up and down to generate nanobubbles 24 of very high concentration very efficiently by shearing and crushing action. .

The nanobubble generating stirring balls 22 are spherical, and the nanobubble generating stirring balls 22 in the stadium are provided with holes 23 through which the liquid passes through the upper and lower vertexes 25 of the spherical shape along a plurality of circular imaginary lines. I have.
The nanobubble-generating stirring balls 22 are stored in a liquid storage container 21 such as a bottle, and the liquid storage container 21 is shaken up and down to generate nanobubbles 24 extremely efficiently due to the shearing and crushing action in the holes 23 through which the liquid passes. occurs.

FIG. 3 shows a third embodiment of the nanobubble-generating stirring balls of the present invention.
In this example, a liquid storage container 31 has a straw 33 attached to an upper jetting portion 32, and a hole 35, which is a hollow body having a hollow structure and through which liquid passes, is formed at an appropriate position on the periphery of the straw 33. A plurality of nanobubble generating stirring balls 34 provided on the wall surface of the structure are fitted.
By attaching the nanobubble generating stirring balls 34 to appropriate positions on the outer periphery of the straw 33 and shaking the liquid storage container 31 up and down, shearing and crushing effects on the nanobubble generating stirring balls 34 can be obtained as the liquid is ejected from the straw 33 . As a result, nanobubbles 36 with a very high concentration are generated very efficiently.

FIG. 4 shows a fourth embodiment of the nanobubble-generating stirring balls of the present invention.
In this example, a liquid storage container 41 has a straw 43 attached to an upper jetting portion 42, and a hole 45, which is a hollow body having a hollow structure and through which liquid passes, is formed at an appropriate position on the periphery of the straw 43. A plurality of nanobubble generating stirring balls 44 provided on the wall surface of the structure are fitted.
By attaching the nanobubble generating stirring balls 44 to appropriate positions on the outer periphery of the straw 43 and shaking the liquid storage container 41 up and down, the liquid from the straw 43 is ejected, and the nanobubble generating stirring balls 44 are sheared and crushed. As a result, nanobubbles 46 with a very high concentration are generated very efficiently.

For a 160cc bottle that is generally used for cosmetics, the conditions for shaking are that the vertical width is 10cm or more, 10 times in 10 seconds, the hole diameter is 2mm, and the number of holes does not leave water in the stirring balls. A well-balanced arrangement of eight positions was used.
When the number of hollow and perforated nanobubble-generating stirring balls was one, the average amount of generated nanobubbles per 1 ml was 3.5E×7 (35 million).
When the number of hollow and perforated nanobubble-generating stirring balls was 3, the average amount of generated nanobubbles per 1 ml was 1.0E×8 (100 million).
When the number of hollow and perforated nanobubble-generating stirring balls was 5, the average amount of generated nanobubbles per 1 ml was 2.2E×8 (220 million).
As the number of hollow or perforated stirring balls increased, the amount of nanobubbles generated increased.
Further, when the vertical width was 10 cm or more and 20 times in 20 seconds, the average generation amount increased by about 10%. Similar results were obtained when the holes through which the liquid passed were placed in a soup type or a marquise type.
Furthermore, the same results were obtained by arranging the holes in a rugby ball, cylinder, heart shape, etc., in a well-balanced manner. In other words, it was found that the container containing the nanobubble-generating stirring balls was shaken up and down, and the liquid passed through the nanobubble-generating stirring balls and was sheared and crushed to generate nanobubbles.

As for the merit of the nanobubble-generating stirring ball, it is possible to generate nanobubbles by inserting a stirring ball that is large enough to fit through the mouth of a container, such as a container for cosmetics, a drink container, or a container for liquid fertilizer. rice field.
Therefore, it is not necessary to install the parts for generating nanobubbles anywhere in the cosmetics container, the drink container, the liquid fertilizer container, or the like.

By preparing a nanobubble-generating stirring ball which is a hollow body with a hollow structure and has a plurality of holes in the wall surface of the hollow structure through which the liquid passes, the nanobubble-generating stirring ball is stored in a liquid storage container such as a bottle, and the liquid is stored. By simply shaking the storage container up and down, it is possible to generate very high concentrations of nanobubbles very efficiently by shearing and crushing action.
Moreover, it is only necessary to prepare the nanobubble-generating stirring ball, which is a hollow body having a hollow structure and has a plurality of holes in the wall surface of the hollow structure through which the liquid passes. It can be suitably used for cosmetics containers, drink containers, liquid fertilizer containers, and the like.

11 liquid storage container 12 nanobubble generation stirring ball 13 liquid passage hole 14 nanobubble 21 liquid storage container 22 nanobubble generation stirring ball 23 liquid passage hole 24 nanobubble 25 spherical top and bottom vertices 31 liquid storage container 32 injection part 33 straw 34 Nanobubble generating stirring ball 35 Hole 36 Nanobubble 41 Liquid storage container 42 Injection part 43 Straw 44 Nanobubble generating stirring ball 45 Hole 46 Nanobubble

Claims (5)

A nanobubble-generating stirring ball which is a hollow body with a hollow structure and has a plurality of holes through which a liquid passes is provided on the wall surface of the hollow structure. A nanobubble-generating stirring ball characterized in that nanobubbles are generated by shearing and crushing action by shaking up and down. A nanobubble-generating stirring ball which is a hollow body having a hollow structure and has a plurality of holes through which a liquid passes is provided on the wall surface of the hollow structure, wherein the nanobubble-generating stirring ball is attached to a straw provided in a liquid storage container such as a bottle, and the 2. The nanobubble-generating stirring ball according to claim 1, wherein nanobubbles are generated by shearing and crushing action by shaking the liquid storage container up and down. 3. The nanobubble generating stirring ball according to claim 1 or 2, wherein the hollow body has two or more holes of 1 mm or more in the wall surface of the hollow structure so as to generate nanobubbles. 3. Nanobubbles are generated by providing two or more holes at predetermined intervals in which various patterns are formed on the wall surface of the hollow body of the hollow structure. The nanobubble-generating stirring ball according to any one of the above. 5. Any one of claims 1 to 4, wherein the hollow body of the hollow structure is made of a material heavier than water, such as polyethylene terephthalate (PET, specific gravity of about 1.38), polystyrene (specific gravity of about 1.05), and steel. The described nanobubble-generating stirring ball.

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