CN211754002U

CN211754002U - Fine foam liquid manufacturing device

Info

Publication number: CN211754002U
Application number: CN202020254048.6U
Authority: CN
Inventors: 吉村光雅
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-04
Filing date: 2020-03-04
Publication date: 2020-10-27
Anticipated expiration: 2030-03-04

Abstract

The utility model provides a meticulous foam liquid manufacturing installation, generate case, basin and high suction pump including the foam liquid, be provided with out liquid way and feed liquor way on the high suction pump, one side fixed mounting of basin has the adjustment tank, the bottom intercommunication in feed liquor way and adjustment tank, install first flow control valve on the feed liquor way, be provided with gas inlet on the high suction pump, the last gaseous supply path that is connected with of gas inlet, install the gas flow control needle valve on the gaseous supply path, this meticulous foam liquid manufacturing installation reasonable in design, bubble diameter contains from micron to nanometer's fine bubble with high accuracy, and the content of per 1 cc's fine bubble is more moreover, has objectively improved stability and reliability, can produce the meticulous foam liquid that has good detergency.

Description

Fine foam liquid manufacturing device

Technical Field

The utility model belongs to the technical field of the microbubble, in particular to meticulous foam concentrate manufacturing installation.

Background

In recent years, water and solutions containing fine bubbles have attracted attention. These are called fine foam solutions, which are called as micro-foam water, nano-foam water, or a generic name thereof, for example, and can be used for cleaning precision instruments and medical instruments by mixing or dissolving various gases in a raw material solution to form bubbles to impart various functionalities, specifically, supplying gases having strong bactericidal properties and oxidizing power such as ozone and oxygen to the raw material solution to provide a fine foam solution having bactericidal effects and cleaning effects. In the case of oxygen, in order to increase the amount of dissolved oxygen in the fine foam concentrate, the oxygen is used in the agricultural and aquaculture fields for the purpose of promoting the growth of plants and the growth of fish, but the use of the fine foam concentrate is only limited to a small extent although various effects are expected. This is because conventional fine foam concentrates lack objective reliability such as stability of quality and reliability of content of fine bubbles, and in fine foam concentrates, generally, the smaller the diameter of bubbles in the fine foam concentrate, the larger the surface area of bubbles per volume, and therefore, the higher the detergency and the higher the growth (growth) promoting action of organisms, and the higher the content of bubbles per volume of fine foam concentrate, the higher the detergency and the growth promoting action of organisms are, and therefore, the present invention provides a fine foam concentrate production apparatus.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model provides a fine foam liquid manufacturing device, which has reasonable design, the bubble diameter contains the fine bubbles from the micron to the nanometer with high precision, and the content of the fine bubbles of every 1cc is more, thus improving the stability and reliability objectively and producing the fine foam liquid with good cleaning ability.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a fine foam liquid manufacturing device comprises a foam liquid generating box, a water tank and a high suction pump, wherein a liquid outlet path and a liquid inlet path are arranged on the high suction pump, an adjusting groove is fixedly arranged on one side of the water tank, the liquid inlet path is communicated with the bottom of the adjusting groove, a first flow adjusting valve is arranged on the liquid inlet path, an air inlet is arranged on the high suction pump, an air supply path is connected onto the air inlet, an air flow adjusting needle valve is arranged on the air supply path, a resin filter is connected onto the liquid outlet path, a liquid passage I is fixedly connected onto the other side of the resin filter, a metal filter is fixedly arranged in the middle of the foam liquid generating box, a plurality of micro-hole paths are arranged on the metal filter, and a first pressurizing chamber and a second pressurizing chamber are respectively arranged at positions, positioned on two sides of the metal filter, in the foam liquid generating box, and a first pressurizing flow path is fixedly connected to the first pressurizing chamber, the first pressurizing flow path is connected with a first liquid passage, a second pressurizing flow path is fixedly connected to the first pressurizing flow path, a second liquid passage is connected to the second pressurizing flow path, and a second flow regulating valve is installed on the second liquid passage.

In a preferred embodiment of the present invention, the length of the minute hole path is 30mm to 60 mm.

In a preferred embodiment of the present invention, the pore diameter of the fine pore path is 300 μm or less.

In a preferred embodiment of the present invention, the tank is filled with a raw material liquid.

As a preferred embodiment of the present invention, the second liquid passage communicates with the water tank.

The utility model has the advantages that: the utility model discloses a meticulous foam concentrate manufacturing installation, including foam concentrate generation case, basin, high suction pump, play liquid way, liquid inlet way, first flow control valve, gas inlet, gas supply way, gas flow control needle valve, resin filter, metallic filter, small hole way, pressurized chamber one, pressurization flow path one, lead to liquid way one, pressurization flow path two, lead to liquid way two, second flow control valve, adjustment tank and pressurized chamber two.

1. The fine foam liquid producing apparatus can produce fine foam liquid having a high cleaning ability, in which fine bubbles having diameters of from micro to nano are contained with high accuracy and the content of fine bubbles per 1cc is increased, and which can improve the stability and reliability objectively.

2. When the melt concentration of the gas-liquid mixture introduced into the second pressurizing chamber of the fine foam liquid production apparatus increases, the gas-liquid mixture passes through the fine pores of the metal filter in a pressurized state, and when the gas-liquid mixture comes into contact with the fine pores, microbubbles are sheared and broken, and flow is rectified in the fine pores, and fine bubbles are generated.

3. When the metal filter of the fine foam liquid manufacturing device contacts and collides with a gas-liquid mixture, the microparticles with surface charges and negative charges charged can be crushed to generate active oxygen substances such as superoxide radicals and hydroxyl radicals, so that the fine foam liquid manufacturing device has strong oxidizing power and sterilizing power and improves the cleaning power and the sterilizing power.

Drawings

FIG. 1 is a schematic view showing the construction of a fine foam liquid producing apparatus;

FIG. 2 is a schematic view showing a metallic filter structure of a fine foam liquid manufacturing apparatus;

in the figure: 1-foam liquid generating box, 2-water tank, 3-high suction pump, 4-liquid outlet path, 5-liquid inlet path, 6-first flow regulating valve, 7-gas inlet, 8-gas supply path, 9-gas flow regulating needle valve, 10-resin filter, 11-metal filter, 12-micro hole path, 13-pressurizing chamber I, 14-pressurizing flow path I, 15-liquid through path I, 16-pressurizing flow path II, 17-liquid through path II, 18-second flow regulating valve, 19-regulating groove and 20-pressurizing chamber II.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1 to 2, the present invention provides a technical solution: a fine foam liquid manufacturing device comprises a foam liquid generating box 1, a water tank 2 and a high-suction pump 3, wherein a liquid outlet path 4 and a liquid inlet path 5 are arranged on the high-suction pump 3, an adjusting groove 19 is fixedly arranged on one side of the water tank 2, the liquid inlet path 5 is communicated with the bottom of the adjusting groove 19, a first flow adjusting valve 6 is arranged on the liquid inlet path 5, an air inlet 7 is arranged on the high-suction pump 3, an air supply path 8 is connected onto the air inlet 7, an air flow adjusting needle valve 9 is arranged on the air supply path 8, a resin filter 10 is connected onto the liquid outlet path 4, a first liquid passage 15 is fixedly connected onto the other side of the resin filter 10, a metal filter 11 is fixedly arranged in the middle of the foam liquid generating box 1, a plurality of micro-pores 12 are arranged on the metal filter 11, and a pressurizing chamber 13 and a pressurizing chamber 20 are respectively arranged at positions on two sides of the metal filter 11 in the foam liquid generating box 1 A first pressurizing flow path 14 is fixedly connected to the second pressurizing chamber 20, the first pressurizing flow path 14 is connected to a first liquid passage 15, a second pressurizing flow path 16 is fixedly connected to the first pressurizing chamber 13, a second liquid passage 17 is connected to the second pressurizing flow path 16, and a second flow rate adjusting valve 18 is mounted on the second liquid passage 17.

In a preferred embodiment of the present invention, the pore diameter of the minute pores 12 is 300 μm or less.

In a preferred embodiment of the present invention, the length of the minute hole 12 is 30mm to 60 mm.

In a preferred embodiment of the present invention, the tank 2 is filled with a raw material liquid.

As a preferred embodiment of the present invention, the second liquid passage 17 is communicated with the water tank 2.

In a preferred embodiment of the present invention, when the melt concentration of the gas-liquid mixture introduced into the second pressurizing chamber 20 increases, the gas-liquid mixture passes through the fine pores 12 of the metal filter 11 in a pressurized state, and when the gas-liquid mixture comes into contact with the fine pores 12, the microbubbles are sheared and rectified in the fine pores 12 to generate fine bubbles, and therefore, a fine bubble liquid containing a large amount of microbubbles having uneven average bubble diameters can be produced.

In a preferred embodiment of the present invention, when the metal filter 11 contacts or collides with a gas-liquid mixture, the fine particles charged with negative surface charges are crushed to generate active oxygen species such as superoxide radicals and hydroxyl radicals, which have strong oxidizing power and bactericidal power, thereby improving the cleaning power and bactericidal power.

The working principle is as follows: an adjustment tank 19 into which the raw material liquid in the water tank 2 flows at a predetermined flow rate (may be inflow in an overflow manner, or may be flow-rate adjusted by a valve opening/closing manner, or the like), a gas supply path 8 is connected to a required gas source, the raw material liquid in the adjustment tank 19 is drawn in by the high-suction pump 3 through a liquid inlet path 5, and at the same time, gas is drawn in through a gas inlet 7 and the gas supply path 8, a first flow rate adjustment valve 6 is used to adjust the flow rate of the raw material liquid, a gas flow rate adjustment needle valve 9 is used to adjust the flow rate of the gas, then the high-suction pump 3 pumps the mixed liquid into the resin filter 10 through a liquid outlet path 4, the resin filter 10 filters suspended matter in the mixed liquid, the filtered mixed liquid enters a second pressurization chamber 20 through a first liquid passage 15 and a first pressurization flow passage 14, the pressure in the second pressurization chamber 20 is gradually increased, and the mixed liquid enters a first pressurization chamber 13, in this process, when the melt concentration of the gas-liquid mixture introduced into the second pressurizing chamber 20 increases, the melt passes through the fine pores 12 of the metal filter 11 in a pressurized state, when the gas-liquid mixture contacts the fine pores 12, the microbubbles are sheared and destroyed, and the microbubbles are rectified in the fine pores 12 to generate fine bubbles, so that a large amount of fine bubble liquid containing microbubbles having uneven average bubble diameters can be produced, when the metal filter 11 contacts and collides with the gas-liquid mixture, the fine particles charged with negative surface charges are crushed, active oxygen substances such as superoxide radicals and hydroxyl radicals are generated, strong oxidizing power and sterilizing power are contained, the cleaning power and sterilizing power are improved, finally, the fine foam liquid enters the water tank 2 again through the second pressurizing flow path 16 and the second flow path 17, the second flow path 17 is communicated with the water tank 2 to form a circulation, and the generated fine foam liquid is supplied to the water tank 2, the fine foam liquid passes through the metal filter 11 at least once, and the second flow rate regulating valve 18 is used for regulating the outflow rate, and the bubble diameter generated by the fine foam liquid manufacturing apparatus contains fine bubbles from micron to nanometer with high precision, and the content of the fine bubbles per 1cc is larger, so that the stability and reliability are objectively improved, and the fine foam liquid with good cleaning ability can be produced.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The fine foam liquid manufacturing device comprises a foam liquid generating box (1), a water tank (2) and a high-suction pump (3), and is characterized in that a liquid outlet path (4) and a liquid inlet path (5) are arranged on the high-suction pump (3), an adjusting groove (19) is fixedly arranged on one side of the water tank (2), the liquid inlet path (5) is communicated with the bottom of the adjusting groove (19), a first flow adjusting valve (6) is arranged on the liquid inlet path (5), a gas inlet (7) is arranged on the high-suction pump (3), a gas supply path (8) is connected onto the gas inlet (7), a gas flow adjusting needle valve (9) is arranged on the gas supply path (8), a resin filter (10) is connected onto the liquid outlet path (4), a first liquid inlet path (15) is fixedly connected onto the other side of the resin filter (10), a metal filter (11) is fixedly arranged in the middle of the foam liquid generating box (1), the foam liquid generating box is characterized in that a plurality of micro pores (12) are formed in the metal optical filter (11), a first pressurizing chamber (13) and a second pressurizing chamber (20) are respectively arranged at positions on two sides of the metal optical filter (11) in the foam liquid generating box (1), a first pressurizing flow path (14) is fixedly connected to the second pressurizing chamber (20), the first pressurizing flow path (14) is connected with a first liquid passing path (15), a second pressurizing flow path (16) is fixedly connected to the first pressurizing chamber (13), a second liquid passing path (17) is connected to the second pressurizing flow path (16), and a second flow regulating valve (18) is installed on the second liquid passing path (17).

2. The fine foam concentrate manufacturing apparatus of claim 1, wherein: the pore diameter of the fine pore path (12) is 300 [ mu ] m or less.

3. The fine foam concentrate manufacturing apparatus of claim 1, wherein: the length of the fine pore path (12) is 30mm to 60 mm.

4. The fine foam concentrate manufacturing apparatus of claim 1, wherein: the water tank (2) is filled with a raw material liquid.

5. The fine foam concentrate manufacturing apparatus of claim 1, wherein: the second liquid passage (17) is communicated with the water tank (2).