JP2023012038A - micro nano bubble generator - Google Patents

Abstract

A micro-nano bubble generator capable of generating many micro-nano bubbles in water is provided.
A micro-nano bubble generator (10) includes a tubular main body (1) and a first micro-nano bubble generator (2). The body portion 1 has a water passage 1c inside. Water flows through the water passage 1c from the first end 1a of the main body 1 toward the second end 1b. The first micro-nano bubble generating part 2 is located inside the water passage 1c and closer to the second end 1b than to the first end 1a. When water passes through the first micro-nano bubble generator 2, micro-nano bubbles are generated in the water.
[Selection drawing] Fig. 1

Description

The present invention relates to a micro-nano bubble generator that generates micro-nano bubbles in water.

It is known that water containing microbubbles with a diameter of about 1 to 100 μm or nanobubbles with a diameter of less than about 1 μm (hereinafter collectively referred to as “micro-nanobubbles”) has a high stain cleaning power. ing. Patent Literature 1 discloses a microbubble generator that generates microbubbles.

JP 2014-147901 A

An object of the present invention is to provide a micro-nano bubble generator capable of generating many micro-nano bubbles in water.

The present invention provides inventions of the aspects described below.
(Item 1)
A tubular body having a first end and a second end opposite to the first end, and internally provided with a water passage through which water flows from the first end to the second end Department and
a first micro-nano bubble generator located in the water passage and closer to the second end than to the first end and generating micro-nano bubbles in water;
A micro-nano bubble generator.

(Item 2)
The first micro-nano bubble generator has a cross-shaped opening,
The micro-nano bubble generator according to item 1.

(Item 3)
The first micro-nano bubble generator is integrally formed with the main body,
3. The micro-nano bubble generator according to item 1 or 2.

(Item 4)
It further comprises a second micro-nano bubble generator separate from the first micro-nano bubble generator, which is located in the water passage and generates micro-nano bubbles in water.
4. The micro-nano bubble generator according to any one of items 1 to 3.

(Item 5)
Placed in the middle of the path through which water flows into the washing machine,
5. The micro-nano bubble generator according to any one of items 1 to 4.

(Item 6)
Further comprising a union nut separated from the main body on the second end side of the main body,
6. The micro-nano bubble generator according to any one of items 1 to 5.

In the micro-nano bubble generator of the present invention, the first micro-nano bubble generator is positioned closer to the second end of the main body, which is the outlet of water, than the first end of the main body, which is the inlet of water. there is Therefore, the distance between the first micro-nano bubble generating part and the second end (outlet) is shortened, and the number of micro-nano bubbles that disappear before reaching the second end can be reduced. As a result, water containing many micro-nano bubbles can be discharged from the micro-nano bubble generator.

(a) A front view of a micro-nano bubble generator, (b) A longitudinal sectional view of the micro-nano bubble generator. FIG. 4 is a plan view of a first micro-nano bubble generating part; It is a longitudinal cross-sectional view of a micro-nano bubble generator of a comparative example. (a) A front view of a modification of the micro-nano bubble generator, (b) A longitudinal sectional view of the modification of the micro-nano bubble generator.

The micro-nano bubble generator 10 of the present invention will be described with reference to the drawings.

<1 Configuration of micro-nano bubble generator>
The micro-nano bubble generator 10 of the present invention is a device for generating micro-nano bubbles in water. The micro-nano bubble generator 10 is arranged, for example, in the middle of a pipe that connects a faucet and a washing machine, and is used to supply water containing micro-nano bubbles to the washing machine.

As shown in FIG. 1 , the micro-nano bubble generator 10 includes a tubular main body 1 , a first micro-nano bubble generator 2 and a second micro-nano bubble generator 3 . When water flows through the micro-nano bubble generator 10 (in FIG. 1(b), the direction of water flow is indicated by arrows), the first micro-nano bubble generator 2 and the second micro-nano bubble generator 3 generate Micro-nano bubbles are generated in

The body portion 1 includes a first end portion 1a and a second end portion 1b opposite to the first end portion 1a. Water flows from the first end portion 1a toward the second end portion 1b through the water passage 1c provided inside the main body portion 1 . The first end portion 1a is provided with a connecting portion 1d such as a screw. The second end portion 1b is provided with a connection portion 1e such as a screw. The connecting portions 1d and 1e are portions for connecting the micro-nano bubble generator 10 to a water supply joint connected to a hose, a washing machine, or the like.

As shown in FIG. 1(b), the first micro-nano bubble generator 2 is located inside the water passage 1c of the main body 1 and closer to the second end 1b than to the first end 1a. That is, the distance from the first micro-nano bubble generating part 2 to the second end 1b is smaller than the distance from the first micro-nano bubble generating part 2 to the first end 1a. As shown in FIG. 2 , the first micro-nano bubble generator 2 is integrally formed with the main body 1 . The first micro-nano bubble generator 2 has an opening 2a for generating micro-nano bubbles. When water passes through the opening 2a, micro-nano bubbles are generated in the water due to the pressure difference occurring before and after the opening 2a. The shape of the opening 2a is preferably cross-shaped in plan view as shown in FIG.

As shown in FIG. 1(b), the second micro-nano bubble generator 3 is located inside the water passage 1c of the main body 1 and closer to the first end 1a than the first micro-nano bubble generator 2. . The second micro-nano bubble generating part 3 is a part obtained by reducing the diameter of a part of the water conduit 1c. When water passes through the second micro-nano bubble generator 3, a pressure difference is generated before and after the second micro-nano bubble generator 3, thereby generating micro-nano bubbles in the water.

<2 Examples>
Using the micro-nano bubble generator 10 shown in FIG. 1 as an example and the micro-nano bubble generator 10′ shown in FIG. compared the numbers.

A member having the shape shown in FIG. 2 was used for the first micro-nano bubble generator 2 of the micro-nano bubble generator 10 of the example.

As shown in FIG. 3, in the micro-nano bubble generator 10' of the comparative example, the first micro-nano bubble generator 2' is positioned closer to the first end 1a' than to the second end 1b'. For the first micro-nano bubble generating part 2', a member having the shape shown in FIG. 2, which is the same as that of the example, was used. In addition, the second micro-nano bubble generator 3' of the micro-nano bubble generator 10' of the comparative example is closer to the second end 1b' than the first micro-nano bubble generator 2', and is closer to the second end 1b' than the first micro-nano bubble generator 2'. are also located near the first end 1a'. Also in the micro-nano bubble generator 10', water flows through the water passage 1c' from the first end 1a' toward the second end 1b'.

In the micro-nano bubble generator 10 of the example, 173,125 micro-nano bubbles were generated per 1 mL of water. On the other hand, in the micro-nano bubble generator 10' of the comparative example, 127,500 micro-nano bubbles were generated per 1 mL of water.

<3 Features>
In the micro-nano bubble generator 10 of the present invention, the first micro-nano bubble generator 2 is positioned closer to the second end 1b of the main body 1, which is the water outlet, than to the first end 1a of the main body 1. Therefore, the distance between the first micro-nano bubble generating portion 2 and the second end portion 1b is shortened. As a result, the number of micro-nano bubbles that disappear before reaching the second end 1b can be reduced, and water containing many micro-nano bubbles can be discharged from the micro-nano bubble generator 10.

By forming the opening 2a of the first micro-nano bubble generating part 2 into a cross shape, many micro-nano bubbles can be generated in the water.

Since the first micro-nano bubble generating part 2 is integrally formed with the main body part 1, the assembly of the first micro-nano bubble generating part 2 to the main body part 1 becomes unnecessary.

By providing the second micro-nano bubble generator 3, more micro-nano bubbles can be generated in water.

By arranging the micro-nano bubble generator 10 in the middle of the path through which water flows into the washing machine, it is possible to supply water containing micro-nano bubbles into the washing machine. As a result, dirt on the laundry can be washed effectively.

<4 Modifications>
The above-described embodiment merely shows one preferred specific example of the present invention. The present invention is not limited to the above embodiments, and various modifications are possible without departing from the gist of the present invention. The present invention can employ, for example, the following modifications. The following modified examples can be appropriately combined without departing from the gist of the present invention.

(1) The first micro-nano bubble generator 2 may be made of a member separate from the main body 1 and may be detachable from the main body 1 . Since the first micro-nano bubble generating part 2 is detachable from the main body part 1, the first micro-nano bubble generating part 2 can be replaced when the first micro-nano bubble generating part 2 is damaged or deteriorated.

(2) Like the second micro-nano bubble generating part 3, the first micro-nano bubble generating part 2 may be a part obtained by reducing the diameter of a part of the water conduit 1c.

(3) The second micro-nano bubble generator 3 is provided as necessary, and a configuration without the second micro-nano bubble generator 3 is also possible.

(4) The second micro-nano bubble generator 3 may be provided as a separate member from the main body 1 . In this case, the member shown in FIG. 2 can be employed as the second micro-nano bubble generator 3 .

(5) The micro-nano bubble generator 10 may further include a union nut 4 on the second end 1b side of the main body 1, as shown in FIG. A union nut 4 is provided, for example, to connect the micro-nano bubble generator 10 to a threaded joint for water supply of a washing machine. In the embodiment shown in FIG. 4, the connecting portion 1e is not provided on the second end portion 1b. The union nut 4 is not fixed to the body portion 1 and is separated. Therefore, even if the union nut 4 is rotated, the body portion 1 does not rotate. As a result, when connecting the union nut 4 to the joint of the washing machine, for example, even if a pipe such as a hose is connected to the first end 1a side, the pipe will not rotate together with the union nut 4. Therefore, if the piping is, for example, a rigid hose, twisting of the hose can be prevented.

10 Micro-nano bubble generator 1 Main body 1a First end 1b Second end 1c Water passage 2 First micro-nano bubble generator 3 Second micro-nano bubble generator 4 Union nut

Claims (6)

A tubular body having a first end and a second end opposite to the first end, and internally provided with a water passage through which water flows from the first end to the second end Department and
a first micro-nano bubble generator located in the water passage and closer to the second end than to the first end and generating micro-nano bubbles in water;
A micro-nano bubble generator. The first micro-nano bubble generator has a cross-shaped opening,
The micro-nano bubble generator according to claim 1. The first micro-nano bubble generator is integrally formed with the main body,
The micro-nano bubble generator according to claim 1 or 2. It further comprises a second micro-nano bubble generator separate from the first micro-nano bubble generator, which is located in the water passage and generates micro-nano bubbles in water.
The micro-nano bubble generator according to any one of claims 1 to 3. Placed in the middle of the path through which water flows into the washing machine,
The micro-nano bubble generator according to any one of claims 1 to 4. Further comprising a union nut separated from the main body on the second end side of the main body,
The micro-nano bubble generator according to any one of claims 1 to 5.

Images