CN110227366A - The soaked implementation method of ultra micro hydrogen and its manufacturing device - Google Patents

Abstract

The present invention relates to a kind of soaked implementation methods of ultra micro hydrogen, its implementation method are as follows: hydrogen and carbon dioxide storage are mixed into pre- storage air, it is soaked at ultra micro hydrogen that the pre- storage air pressure stabilizing mixed in equal amounts enters strike in water, then, the soaked input pressure bucket of the ultra micro hydrogen, then, which cleans pre- earnest for the soaked output of the ultra micro hydrogen.The present invention also provides a kind of ultra micro bubble hydrogen water making devices.The soaked implementation method of ultra micro hydrogen according to the present invention, when pre- earnest is cleaned in ultra micro bubble hydrogen output, which, which can rupture, releases hydrogen moment and fires, and the moment to hydrogen, which fires, cleans the pre- earnest；Ultra micro bubble hydrogen water making device according to the present invention, the soaked ultra micro hydrogen is to be formed using the mixing pumping together pre- storage air of mixing strike with water.

Description

Implementation method and manufacturing device of ultrafine hydrogen bubble water

technical field

The invention relates to a method for implementing ultrafine hydrogen bubble water and a manufacturing device thereof.

Background technique

In an environment where pollution is ubiquitous, many environments are forced to develop in the direction of pollution isolation, and its agricultural planting is the first target. However, the current agricultural planting for isolation, according to the existing technology, mostly retains water and air first. After filtering, it is supplied to plants grown in isolation.

However, water and air are still unable to filter out most chemical pollutants and viral viruses only by filtering, so that farmers still often suffer from the damage of plants by chemical pollutants and viral viruses.

Therefore, in order to completely eliminate chemical pollutants, bacterium and viral viruses, it is the problem to be solved in the agricultural planting of the isolation mode.

Contents of the invention

In view of this, the object of the present invention is to provide a method for implementing ultrafine hydrogen bubble water and a manufacturing device thereof.

In order to achieve the above-mentioned purpose, the present invention provides a method for implementing ultrafine hydrogen bubble water, including: storing and mixing hydrogen and carbon dioxide into a pre-stored air, and the pre-stored air is mixed in equal amounts into water and beaten into a diameter smaller than The 1μm carbon dioxide wraps the ultrafine bubbles of hydrogen, and until the ultrafine bubbles are fully emulsified and blended into the water to become an ultrafine hydrogen bubble water, then the ultrafine hydrogen bubble water is input into a pressure tank, and then the pressure tank puts the ultrafine bubble water The slightly hydrogen bubble water outputs at least one predetermined object for cleaning.

When the ultra-fine hydrogen bubbles of the present invention are output to clean the predetermined object, the ultra-fine hydrogen bubbles will burst to release the hydrogen gas. At this time, the hydrogen gas will explode instantly, and the hydrogen gas will be used to clean the object by instant explosion explosion. Scheduled items.

The present invention also provides an ultra-fine hydrogen bubble water production device, including: a pre-storage element, used to accommodate the pre-storage air mixed with hydrogen and carbon dioxide gas; an external water source, used to provide water; an ultra-fine hydrogen bubble machine , comprising a mixing pump for providing water with ultrafine hydrogen bubbles; a pressure tank for containing the water with ultrafine hydrogen bubbles; and then, the mixing pump is provided with an air connected to the pre-storage element to extract the pre-stored air delivery pipe, and the mixing pump is provided with a water diversion pipe connected to the external water source to extract the water, and the mixing pump is provided with an outlet pipe connected to the pressure tank; then, the mixing pump combines the drawn pre-stored air with the The water is mixed and beaten into the water with ultrafine hydrogen bubbles, and at the same time, the water with ultrafine hydrogen bubbles is input into the pressure tank through the outlet pipe.

The mixing pump of the present invention is further connected with an oscillating element that assists in beating the ultrafine hydrogen bubble water, and the oscillating element is also connected with the outlet pipe.

The pressure barrel of the present invention is provided with at least one external pump element for outputting the ultrafine hydrogen bubble water, and the external pump element is at least connected with an external connecting pipe for outputting the ultrafine hydrogen bubble water, and a spraying nozzle is provided at the end of the connecting external pipe. The spray head of the ultrafine hydrogen bubble water.

The ultra-fine hydrogen bubble water manufacturing device of the present invention is additionally equipped with a filter element for filtering water, and the filter element connects the filtered water to the external water source. Ice-water exchanger for lowering water temperature.

The ultra-fine hydrogen bubble water manufacturing device of the present invention is additionally equipped with a filter element for filtering water, and the filter element connects the filtered water to the external water source. Ice-water exchanger for lowering water temperature.

The present invention has the following beneficial effects:

According to the implementation method of the ultrafine hydrogen bubble water of the present invention, when the ultrafine hydrogen bubbles output the object to be cleaned, the ultrafine hydrogen bubbles will burst and release the hydrogen gas for instant explosion, which is used to clean the object by instant hydrogen explosion;

According to the ultrafine hydrogen bubble water manufacturing device of the present invention, the ultrafine hydrogen bubble water is formed by mixing and striking pre-stored air and water by using a mixing pump.

Description of drawings

Fig. 1 is a partial enlarged schematic view of the ultrafine hydrogen bubble water manufacturing device of the present invention containing ultrafine bubbles;

Fig. 2 is the schematic diagram of the oscillating element of the ultrafine hydrogen bubble machine tool of the present invention;

Fig. 3 is a schematic diagram of the use of the ultrafine hydrogen bubble water manufacturing device of the present invention;

Fig. 4 is a schematic diagram of the ice-water exchanger of the present invention.

in,

A-superfine hydrogen bubble water; A1-hydrogen; A2-carbon dioxide A3-pre-stored air; A4-superfine bubbles;

B-water; B0-filter element; B1-ultramicro hydrogen bubble water;

C-pressure barrel; C1-external pump components; C2-connected external pipe; C3-spray head;

D-predetermined object; D1-hydroponic tank; D2-planting; D21-root;

E- ice water exchanger;

1- Ultrafine hydrogen bubble water manufacturing device;

2- pre-storage element;

3- External water source;

4-ultramicro hydrogen bubble machine; 41-mixing pump; 42-air delivery pipe; 43-water diversion pipe; 44 outlet pipe; 45-oscillating element;

5-Cultivation house; 53-Recovery tank; 54-Recovery channel; 55-Recovery pump; 56-Recovery pipe.

Detailed ways

The following examples will further illustrate other features and advantages of the present invention, but these examples are only for illustration, not limitation of the present invention.

The present invention mainly provides an implementation method of ultrafine hydrogen bubble water A, the implementation method is: store and mix hydrogen A1 and carbon dioxide A2 into a pre-storage air A3, and the pre-storage air A3 is mixed into water B in an equal amount at a stable pressure. And beat into carbon dioxide A2 with a diameter of less than 1 μm to wrap the ultra-fine bubbles A4 of hydrogen A1, and until the ultra-fine bubbles A4 are fully emulsified and blended into the water B to become an ultra-fine hydrogen-bubbled water B1, and then the ultra-fine hydrogen-bubbled water B1 Input a pressure barrel C, and then, the pressure barrel C outputs the ultrafine hydrogen bubble water B1 at least to clean a predetermined object D (as shown in FIG. 1 ).

When the ultrafine hydrogen bubbles E are output to clean the predetermined object D, the ultrafine hydrogen bubbles A4 will collapse due to surface tension and release the hydrogen A1 at the same time. It is to clean the pollutants on the surface of the predetermined object D (as shown in FIG. 1 ) with the instantaneous micro-detonation of hydrogen A1.

A device 1 for producing ultrafine hydrogen bubble water provided by the present invention includes: a pre-storage element 2 for containing pre-storage air A3 mixed with hydrogen A1 and carbon dioxide A2; an external water source 3 for providing water B; An ultrafine hydrogen bubble machine 4 includes a mixing pump 41 for providing ultrafine hydrogen bubble water B1; a pressure tank C for containing the ultrafine hydrogen bubble water B1; then, the mixing pump 41 is provided with a Connect the pre-storage element 2 to extract the air delivery pipe 42 of the pre-storage air A3, and the mixing pump 41 is provided with a water diversion pipe 43 connected to the external water source 3 to extract the water B, and the mixing pump 41 is provided with a connection to the The outlet pipe 44 of the pressure tank C. Then, the mixing pump 41 mixes the extracted pre-stored air A3 and the water B to form the ultrafine hydrogen bubble water B1, and at the same time, transfers the ultrafine hydrogen bubble water B1 into the pressure tank C through the outlet pipe 44 (As shown in Figure 1).

The mixing pump 41 is connected with an oscillating element 45 that assists in synergizing and striking the ultrafine hydrogen bubble water B1 in an emulsified visual form, and the oscillating element 45 is connected with an outlet tube 44 to transport the ultrafine hydrogen bubbles in an emulsified visual form Water B1 to pressure tank C (as shown in Figure 2).

The ultra-fine hydrogen bubble water manufacturing device 1 is provided with a filter element B0 for filtering water B, and the filter element B0 connects the filtered water B to the external water source 3, and the external water source 3 is attached to the outside of the pressure tank C. An ice-water exchanger E (as shown in Figure 3) that lowers the temperature of the water B. Alternatively, an ice-water exchanger E that lowers the temperature of the water B is placed inside the external water source 3 and the pressure tank C. The ice-water exchanger E can keep the temperature of the water B at the most suitable pre-storage air A3 that blends into the blow to become ultra-fine hydrogen bubbles Optimum conditions for water B1 (as shown in Figure 4).

Then, the ultra-fine hydrogen bubble water manufacturing device 1 of the present invention can be set in a cultivation house 5, and at least a hydroponic tank D1 of the predetermined object D can be displayed in the cultivation house 5, and water B and water B are housed in the hydroponic tank D1. The planting D2 of the predetermined object D is provided with a recovery tank 53 under the cultivation house 5, and a recovery guide channel 54 is distributed, and one side of all recovery guide channels 54 collects the water B into the recovery tank 53, and on the recovery tank 53 A recovery pump 55 is provided, and the recovery pump 55 is configured to extract the water B in the recovery tank 53 into the filter element B0 through the recovery pipe 56 . In addition, the pressure tank C is at least provided with an external pump element C1 for outputting the ultrafine hydrogen bubble water B1, and the external pump element C1 is at least connected with an external connection pipe C2 for outputting the ultrafine hydrogen bubble water B1, and the external connection pipe C2 There is a spray head C3 for spraying the ultrafine hydrogen bubble water B1 at the end of the plant. The spray head C3 can just spray the ultrafine hydrogen bubble water B1 on the planting D2 to release the hydrogen gas A1 when the ultrafine hydrogen bubble A4 bursts. 5500°C micro-point instant explosion cleans the chemical pollutants, bacteria, filter viruses, fine dust and heavy metals accumulated on the surface of the plant D2. At the same time, the surface of the planting D2 is rinsed and cleaned with ultra-fine hydrogen bubble water B1 until it is clean. The external pump component C1 can also directly pour the ultra-fine hydrogen bubble water B1 into the hydroponic tank D1 by connecting the external connection tube C2, and the ultra-fine hydrogen bubble water B1 can be fully micro-ignited and detonated in the hydroponic tank D1 to disinfect and sterilize. In this way, the plant D2 including the root D21 has a more sound guarantee. In this way, the sound protection of the root D21 and the spraying on the surface of the plant D2 are used to improve the living environment of the plant D2. The living environment tends to be non-toxic and sterile, so that Planting D2 grows rapidly under the condition of no pollution and no disease bacteria, thereby increasing the yield of planting D2. In addition, the ultra-fine hydrogen bubble water B1 is reduced to general water B after the hydrogen A1 is slightly ignited and detonated. The reduced water B is then collected into the recovery tank 53 along the recovery guide channel 54, and the recovered water B is then pumped by the recovery pump. 55 is transported back to the filter element B0 to filter before use. Furthermore, besides the planting D2 planting of the cultivation house 5, the ultrafine hydrogen bubble water production device 1 can at least be used for: household cleaning and disinfection, industrial aseptic cleaning and finishing, medical supplies and their premises, fresh food Rapid disinfection of food, and applications in the field of animal husbandry (as shown in Figure 3).

From the above description, it can be seen that the ultrafine hydrogen bubble water manufacturing device 1 of the present invention uses the mixing pump 41 to mix and beat the extracted pre-stored air A3 and the water B into the ultrafine hydrogen bubble water B1, and cooperate with vibration The element 45 assists in synergizing the blowing of the ultrafine hydrogen bubble water B1 to emulsified vision, and at the same time, the mixing pump 41 transports the ultrafine hydrogen bubble water B1 into the pressure tank C for storage, and the pressure tank C uses the external pump element C1 to output the superfine water The micro-hydrogen bubble water B1 is sprayed on the plant D2, and the hydrogen gas A1 released when the ultra-micro hydrogen bubble A4 bursts is instantly detonated at 5500°C to clean up the chemical pollutants, bacteria, and filtration accumulated on the surface of the plant D2. Viruses, fine dust and heavy metals. Alternatively, the external pump element C1 can also be directly connected to the external connecting pipe C2 to pour the ultra-fine hydrogen bubble water B1 into the hydroponic tank D1 to perform comprehensive micro-ignition and detonation for disinfection and sterilization, so that the plants D2 including the root D21 have A more sound guarantee is used to improve the living environment of the plant D2 to become non-toxic and sterile, so that the plant D2 grows rapidly without polluting disease bacteria, which makes the ultra-fine hydrogen bubble water manufacturing device 1 have an improved The excellent characteristics of the yield and production rate of planting D2.

As shown in Fig. 4, this ultrafine hydrogen bubble water production device 1 of the present invention has and utilizes this filtering element B0 and pressure tank C to set up an ice-water exchanger E for lowering the temperature of water B, by ice-water exchanger E Another excellent feature is to control the temperature of the water B to keep it at the most suitable condition for the pre-stored air A3 to blow and fuse into the ultrafine hydrogen bubble water B1.

The ultra-fine hydrogen bubble water B1 of the present invention is reduced to general water B after the hydrogen A1 is slightly ignited and detonated, and the reduced water B is collected into the recovery tank 53 according to the recovery guide channel 54, and the recovered water B is then recovered by the recovery pump Pu 55 is transported back to the filter element B0 to filter before use. In this way, the ultrafine hydrogen bubble water manufacturing device 1 has another excellent feature of saving benefits for the water B.

The above descriptions are only preferred embodiments of the present invention, and any other equivalent structural changes made by using the description and drawings of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. An implementation method of ultrafine hydrogen bubble water, characterized in that the implementation method includes: storing and mixing hydrogen and carbon dioxide into a pre-storage air, and the pre-storage air is mixed into the water in equal amounts and beaten to a diameter of less than 1 μm The carbon dioxide wraps the ultrafine bubbles of hydrogen, and until the ultrafine bubbles are fully emulsified and blended into the water to become an ultrafine hydrogen bubble water, then the ultrafine hydrogen bubble water is input into a pressure tank, and then the pressure tank puts the ultrafine hydrogen bubble water The hydrogen bubble water is output to clean at least one scheduled object. 2. The implementation method of ultrafine hydrogen bubble water according to claim 1, characterized in that, when the ultrafine hydrogen bubbles are output to clean the predetermined object, the ultrafine hydrogen bubbles will burst to release the hydrogen gas, at this time, The hydrogen will detonate instantaneously, and the predetermined object is cleaned by the instantaneous detonation of the hydrogen gas. 3. An ultra-fine hydrogen bubble water manufacturing device, characterized in that it includes: a pre-storage element for containing pre-storage air mixed with hydrogen and carbon dioxide gas; an external water source for providing water; an ultra-fine hydrogen bubble The machine includes a mixing pump for providing water with ultrafine hydrogen bubbles; a pressure tank for containing the water with ultrafine hydrogen bubbles; Air delivery pipe, and the mixing pump is provided with a water diversion pipe connected to the external water source to extract the water, and the mixing pump is provided with an outlet pipe connected to the pressure tank; then, the mixing pump will draw the pre-stored air and The water is mixed and beaten into the ultrafine hydrogen bubble water, and at the same time, the ultrafine hydrogen bubble water is input into the pressure barrel through the outlet pipe. 4. The device for producing ultra-fine hydrogen-bubbled water according to claim 3, wherein the mixing pump is further connected with an oscillating element that assists in beating the ultra-fine hydrogen-bubbled water, and the oscillating element is also connected with the outlet tube. 5. The ultrafine hydrogen bubble water production device as claimed in claim 3, characterized in that, the pressure tank is at least provided with an external pump element for outputting the ultrafine hydrogen bubble water, and the external pump element is at least connected with an output of the ultrafine hydrogen bubble water. The connecting external pipe of micro hydrogen bubble water, the end of this connecting external pipe is additionally provided with a spray head for spraying the ultrafine hydrogen bubble water. 6. The ultrafine hydrogen bubble water manufacturing device as claimed in claim 3, characterized in that, the ultrafine hydrogen bubble water manufacturing device is additionally provided with a filter element for filtering water, and the filter element connects the filtered water to input The external water source, the external water source and the outside of the pressure barrel are additionally provided with an ice-water exchanger for lowering the water temperature. 7. The ultrafine hydrogen bubble water manufacturing device as claimed in claim 3, characterized in that, the ultrafine hydrogen bubble water manufacturing device is additionally provided with a filter element for filtering water, and the filter element connects the filtered water to input The external water source, the external water source and the inside of the pressure tank are additionally equipped with an ice-water exchanger for lowering the water temperature.