TWI658863B - Implementation method of ultra-micro hydrogen bubble water and manufacturing device thereof - Google Patents

Abstract

The invention refers to a method for implementing ultrafine hydrogen bubble water and a manufacturing device thereof. The method for implementing the method is: storing and mixing hydrogen and carbon oxide into pre-stored air, and the pre-stored air is mixed into water at a constant pressure to fight into ultra-fine hydrogen. Soak the water, and then the ultra-hydrogen bubble water is input into the pressure bucket, and then, the pressure bucket outputs the ultra-hydrogen bubble water to the cleaning object. Therefore, the predetermined object is cleaned by the ultra-fine hydrogen bubble water. The basis of the facts.

Description

Implementation method of ultra-micro hydrogen bubble water and manufacturing device thereof

The invention refers to a method for implementing ultra-micro hydrogen bubble water and a manufacturing device thereof, in which a person in the technical field of hydrogen gas and carbon oxide is first stored and mixed, and then injected into water to fight into ultra-micro hydrogen bubble water.

First, in the environment where pollution is ubiquitous, many environments must be developed in the direction of pollution isolation. The agricultural cultivation is the first target. At present, the cultivation of agricultural isolation methods, according to the existing technology, are mostly retained in advance. After filtering with air, it is supplied to plants grown in isolation.

However, water and air are only filtered, and it is still unable to filter out most chemical pollutants and filter viruses. As a result, farmers are still suffering from chemical pollutants and filter viruses.

Therefore, in order to completely exclude chemical pollutants, bacterial cells and filter viruses, it is precisely the problem of agricultural plantation in isolation that needs to be solved.

In view of the above, it is known that the agriculturally grown plants of the conventional isolation method still need to solve the problems of chemical pollutants, bacterial cells and filter viruses. Therefore, the inventors of the present invention are directed to the isolation of agriculturally grown plants without a chemical environment. The research and development in the direction of pollution, bacterial cells and filterable viruses, and after many considerations by the inventor of this case, it is best to consider the use of hydrogen and oxygen in a small range to fuse deflagration.

The ultra-micro hydrogen bubble water implementation method of the present invention is: mixing hydrogen and carbon oxide into a pre-storage air, and the pre-storage air is mixed into the water in a stable and equal amount and blown into a super-micro of carbon oxide-wrapped hydrogen with a diameter less than 1 μm The bubbles and the ultrafine bubbles are fully emulsified and integrated into the water to become an ultrafine hydrogen bubble water. Then, the ultrafine hydrogen bubble water is input into a pressure tank, and the pressure bucket outputs the ultrafine hydrogen bubble water to at least a predetermined object for cleaning. At this point, when the ultrafine hydrogen gas bubble is output for cleaning the predetermined object, the ultrafine hydrogen gas bubble bursts and releases the hydrogen gas to ignite and explode instantly, and the hydrogen gas is ignited and exploded to clean the predetermined object, and the invention finally ends.

According to the method for implementing ultra-fine hydrogen bubble water of the present invention, the cleaning of the predetermined object can be implemented by the instantaneous explosion of hydrogen.

That is, the ultra-micro hydrogen bubble water manufacturing device of the present invention includes: a pre-storage element for containing pre-stored air mixed with hydrogen and carbon oxide gas; an external water source for providing water; an ultra-micro hydrogen bubble machine, The utility model comprises a mixing pump for providing ultrafine hydrogen bubble water, and a pressure bucket for containing the ultrafine hydrogen bubble water. Then, the hybrid pump is provided with an air delivery pipe connected to the pre-storage element to extract the pre-stored air, and the hybrid pump is provided with a water intake pipe connected to the external water source to extract the water, and the hybrid pump is provided with a connection to the The outlet tube of the pressure tank; then, the mixing pump mixes the extracted pre-stored air with the water to blow into the ultra-micro hydrogen bubble water, and at the same time, the ultra-micro hydrogen bubble water is input into the pressure barrel through the outlet tube.

The hybrid pump of the present invention is connected with an oscillating element for striking the ultra-micro hydrogen bubble water, and the oscillating element is further connected with the outlet tube.

The pressure barrel of the present invention is provided with at least one external pump element outputting the ultra-micro hydrogen bubble water, and the external pump element is further connected with at least one connecting external pipe outputting the ultra-hydrogen bubble water, and a spray nozzle is provided at the end of the external connecting pipe. Spray head of ultra-micro hydrogen bubble water.

The ultra-micro hydrogen bubble water manufacturing device of the present invention is provided with a filtering element for filtering water. The filtering element connects the filtered water to the external water source, and the external water source and the pressure barrel are provided with an ice water to reduce the water temperature. Exchanger. Or an external water source and a pressure water bucket are placed inside the ice water exchanger to reduce the water temperature.

According to the device for manufacturing ultra-micro hydrogen bubble water of the present invention, the ultra-micro hydrogen bubble water is made by using a mixing pump to mix and blow against pre-stored air and water.

〔this invention〕

A‧‧‧ Ultra-micro hydrogen bubble water

A1‧‧‧ Hydrogen

A2‧‧‧Carbon oxide

A3‧‧‧Pre-stored air

A4‧‧‧ Super Micro Bubble

B‧‧‧ Water

B0‧‧‧Filter original

B1‧‧‧ Ultra-micro hydrogen bubble water

C‧‧‧Pressure bucket

C1‧‧‧External pump element

C2‧‧‧ with external tube

C3‧‧‧ spray head

D‧‧‧ Pre-Order

D1‧‧‧ Hydroponic trough

D2‧‧‧ Planting

D21‧‧‧root

E‧‧‧ Ice Water Exchanger

1‧‧‧ Ultra-micro hydrogen bubble water manufacturing device

2‧‧‧Pre-stored components

3‧‧‧External water source

4‧‧‧ Ultra-micro hydrogen bubble machine

41‧‧‧hybrid pump

42‧‧‧air duct

43‧‧‧Diversion pipe

44‧‧‧Export tube

45‧‧‧ Oscillating element

5‧‧‧ Cultivation House

53‧‧‧Recovery tank

54‧‧‧ Recovery Channel

55‧‧‧ Recovery Pump

56‧‧‧Recycling tube

FIG. 1 is a partially enlarged schematic view of an ultrafine hydrogen bubble water manufacturing device of the present invention, including ultrafine bubbles.

Fig. 2 is a schematic diagram of an oscillating element of an ultrafine hydrogen bubble machine of the invention.

Fig. 3 is a schematic diagram of the ultrafine hydrogen bubble water production device of the invention.

Figure 4 is a schematic diagram of the ice water exchanger of the invention.

Now, in order to make your reviewers have a better understanding of the present invention, the following examples are used to illustrate it.

The present invention mainly provides a method for implementing ultra-micro hydrogen bubble water A. The method is: storing and mixing hydrogen A1 and carbon oxide A2 into a pre-storage air A3. Carbon dioxide A2 with a diameter of less than 1 μm is formed into ultrafine bubbles A4 wrapped with hydrogen A1, and the ultrafine bubbles A4 are fully emulsified and integrated into the water B to become an ultrafine hydrogen bubble water B1. Then, the ultrafine hydrogen bubble water B1 is input A pressure bucket C, and then the pressure bucket C outputs at least one predetermined object D from the ultra-hydrogen bubble water B1 (as shown in FIG. 1).

When the ultrafine hydrogen bubble E outputs the cleaning object D, the ultrafine hydrogen bubble A4 will rupture due to the shrinkage of surface tension and release the hydrogen A1 at the same time. At this time, the hydrogen A1 will instantly ignite and detonate, which is to clean the surface of the predetermined object D with the hydrogen A1. (Such as shown in Figure 1).

The invention provides an ultra-micro hydrogen bubble water manufacturing device 1 comprising: a pre-storage element 2 for containing pre-storage air A3 mixed with hydrogen A1 and carbon oxide A2 gas; an external water source 3 for providing water B; An ultra-hydrogen bubble machine 4 includes a mixing pump 41 for providing ultra-hydrogen bubble water B1; a pressure tank C for containing the ultra-hydrogen bubble water B1; and then, the mixing pump 41 is provided with a An air delivery pipe 42 connected to the pre-storage element 2 to extract the pre-stored air A3, and the hybrid pump 41 is provided with a water introduction pipe 43 connected to the external water source 3 to extract the water B, and the hybrid pump 41 is provided with a connection to the The outlet tube 44 of the pressure barrel C. Then, the mixing pump 41 mixes and extracts the pre-stored air A3 and the water B into the ultra-hydrogen bubble water B1, and at the same time, the ultra-hydrogen bubble water B1 is input into the pressure tank C through the outlet pipe 44 (Eg: shown in Figure 1).

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

That is, the ultra-micro hydrogen bubble water manufacturing device 1 is provided with a filtering element B0 for filtering water B, and the filtering element B0 connects the filtered water B to the external water source 3, and the external water source 3 is external to the pressure barrel C. An ice water exchanger E (as shown in Fig. 3) is provided to reduce the temperature of water B. Or an ice water exchanger E is placed inside the external water source 3 and the pressure bucket C to reduce the temperature of water B. The ice water exchanger E can keep the temperature of water B at the most suitable for pre-storage of air A3 and blow into ultrafine hydrogen bubbles. The best conditions above water B1 (as shown in Figure 4).

Then, the ultra-hydrogen bubble water production device 1 of the present invention can be set in a cultivation house 5 where at least the hydroponic tank D1 with the predetermined object D can be displayed, and the contents of the hydroponic tank D1 are placed with water B and The plant D2 of the predetermined object D is provided with a recovery tank 53 below the cultivation house 5 and a recovery guide channel 54 is distributed, and one side of the full recovery guide channel 54 collects water B into the recovery tank 53 and is disposed on the recovery tank 53 A recovery pump 55 is provided. The recovery pump 55 is provided with a water B in the recovery tank 53 and is introduced into the filtering element B0 through the recovery pipe 56. In addition, the pressure barrel C is provided with at least one pump element C1 that outputs the ultra-micro hydrogen bubble water B1, and the external pump element C1 is connected with at least one external pipe C2 that outputs the ultra-hydrogen bubble water B1, and the external pipe At the end of C2, there is a spray head C3 for spraying the ultra-hydrogen bubble water B1. The spray head C3 can spray the ultra-hydrogen bubble water B1 on the plant D2 to release the hydrogen A1 when the ultra-fine hydrogen bubble A4 bursts. The micro-dot at 5500 ℃ instantly explodes and cleans up the chemical pollutants, bacteria, filter viruses, dust and heavy metals accumulated on the surface of plant D2. At the same time, the surface of plant D2 was washed and washed with ultra-hydrogen bubble water B1 until it was clean. In addition, the external pump element C1 can also directly fill the ultra-hydrogen bubble water B1 into the hydroponic tank D1 through the connecting pipe C2, and the ultra-micro hydrogen bubble water B1 can perform a full micro-ignition explosion in the hydroponic tank D1. Disinfection and sterilization, in order to make plant D2 and root D21 have more sound protection. In this way, the sound protection of root D21 and the spraying on the surface of plant D2 are used to improve the living environment of plant D2 to be non-toxic and sterile. Plant D2 grows rapidly without pollution and disease-free bacteria, thereby further increasing the yield of plant D2. In addition, the ultra-micro hydrogen bubble water B1 is reduced to general water B after the hydrogen A1 is slightly ignited and detonated. The reduced water B is collected into the recovery tank 53 in accordance with the recovery guide channel 54 and the recovered water B is pumped by the recovery pump. 55 is sent back to the original filter B0 and filtered and reused. In addition, in addition to planting D2 in the cultivation house 5, the ultra-hydrogen bubble water manufacturing device 1 can be used at least for: Cleaning and disinfection, industrial aseptic cleaning and finishing, the use of medical supplies and their premises, rapid disinfection of fresh food, and the scope of the animal husbandry industry, etc., such as the use of (, as shown in Figure 3).

From the above description, it can be known that the ultra-hydrogen bubble water manufacturing apparatus 1 of the present invention mixes and blows the pre-stored air A3 and the water B into the ultra-hydrogen bubble water B1 with the mixing pump 41, and cooperates with The oscillating element 45 assists in synergistically combating the ultra-hydrogen bubble water B1 to present the visual effect of emulsification. At the same time, the hybrid pump 41 delivers the ultra-hydrogen bubble water B1 to the pressure barrel C for storage. The ultrafine hydrogen bubble water B1 is sprayed on the plant D2, and the hydrogen A1 released when the ultrafine hydrogen bubble A4 bursts is used to instantly explode at 5500 ° C micro-points to clean up chemical pollutants, bacteria, and filtration on the surface of the plant D2. Sexual viruses, dust and heavy metals. Or, the external pump element C1 can directly infuse ultra-hydrogen bubble water B1 into the hydroponic tank D1 through the external pipe C2 to perform a full micro-ignition explosion to sterilize and sterilize, thereby making the plant D2 including the root D21 more stable. Improved protection to improve the survival environment of plant D2 tends to be non-toxic and sterile. Therefore, the plant D2 grows rapidly under the condition of no pollution disease bacteria, so that the ultra-hydrogen bubble water manufacturing device 1 can improve the plant's plant life. Excellent characteristics of D2 yield and production rate.

According to the present invention, the ultra-hydrogen hydrogen bubble water manufacturing device 1 is provided with an ice water exchanger E for reducing the temperature of water B through the filtering element B0 and the pressure barrel C. The ice water exchanger E controls the temperature of the water B to be most suitable for pre-processing. Storage air A3 blows and fuses into another excellent feature of the superb hydrogen bubble water B1.

The ultra-micro hydrogen bubble water B1 of the present invention is reduced to general water B after the hydrogen A1 is slightly ignited and detonated. The reduced water B is collected into the recovery tank 53 in accordance with the recovery guide channel 54 and returned. The recovered water B is sent back to the original filtering element B0 by the recovery pump 55 to be filtered and reused. Therefore, the ultra-fine hydrogen bubble water manufacturing device 1 has another excellent feature of saving water B resources. According to this, it can be known that the present invention does have invention patent requirements that are consistent with novelty, progress, and industrial applicability.

The technical content and technical features of the present invention have been disclosed as above. However, those skilled in the art may still make various substitutions and modifications based on the disclosure of the present invention without departing from the creative spirit of the present case. Therefore, the protection scope of the present invention should not be limited to those disclosed in the embodiments, but should include various substitutions and modifications that do not depart from the present invention, and should be covered by the scope of patent application for the present invention.

Claims (7)

A method for implementing ultra-micro hydrogen bubble water, the method is: storing and mixing hydrogen and carbon oxide into a pre-storage air, the pre-storage air is mixed into water in a stable and equal amount and blown into a carbon oxide-wrapped hydrogen with a diameter of less than 1 μm Ultrafine bubbles, and until the ultrafine bubbles are fully emulsified and integrated into the water to become an ultrafine hydrogen bubble water, the ultrafine hydrogen bubble water is input into a pressure bucket, and then the pressure bucket outputs at least the ultrafine hydrogen bubble water Wash a predetermined object. The method for implementing ultra-hydrogen bubble water according to claim 1, wherein when the ultra-hydrogen bubble is separately output for cleaning the predetermined object, the ultra-hydrogen bubble will burst to release the hydrogen gas, and at this time, the hydrogen gas will be released again. Instantaneous explosion, cleaning the predetermined object with the instantaneous explosion of the hydrogen gas. An ultra-micro hydrogen bubble water manufacturing device includes: a pre-storage element for containing pre-stored air mixed with hydrogen gas and carbon oxide gas; an external water source for providing water; an ultra-micro hydrogen bubble machine including a mixing pump Pump for providing ultra-hydrogen bubble water; a pressure bucket for containing the ultra-hydrogen bubble water; and then, the mixing pump is provided with an air delivery pipe connected to the pre-storage element to extract the pre-storage air, and the The mixing pump is provided with a 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 mixes the extracted pre-stored air with the water and blows into water. At the same time, the ultra-micro hydrogen bubble water is input into the pressure tank through the outlet pipe. The ultra-hydrogen bubble water manufacturing device according to claim 3, wherein the hybrid pump is further connected with an oscillating element for assisting the ultra-hydrogen bubble water, and the oscillating element is further connected with the outlet tube. The ultra-hydrogen bubble water manufacturing device according to claim 3, wherein the pressure tank is provided with at least one extra pump element outputting the ultra-hydrogen bubble water, and the outer pump element is further connected with at least one output of the ultra-hydrogen bubble water A connecting external tube, a spray head for spraying the ultra-micro hydrogen bubble water is added at the end of the connecting external tube. The ultra-hydrogen bubble water production device according to claim 3, wherein the ultra-hydrogen bubble water production device is additionally provided with a filtering element for filtering water, and the filtering element connects the filtered water to the external water source, An ice water exchanger for reducing the water temperature is attached to the external water source and the outside of the pressure bucket. The ultra-hydrogen bubble water manufacturing device according to claim 3, wherein the ultra-hydrogen bubble water manufacturing device is additionally provided with a filtering element for filtering the water, and the filtering element connects the filtered water to the external water source. The external water source and the inside of the pressure bucket are additionally provided with an ice water exchanger for reducing the water temperature.