Water mist nano gasification conversion device

Abstract

The present invention discloses a water mist nano gasification conversion device, including a main body (1), an electronic high-voltage generator (5), a water inlet (3), a water supply tank (4), an electronic water mist spraying device (6) arranged in the water supply tank (4), and an atomization tube (2) arranged above the water supply tank (4). Water droplets and water mist sprayed by the electronic water mist spraying device (6) by using a negative electric field are blown into an electric field region which is arranged in the atomization tube (2) for ionization and decomposition. The nanoscale water mist generated by the device has the advantages of sterilizing and humidifying the air, improving air cleanliness and achieving skin moisturization.

Claims

1. A water mist nano gasification conversion device, wherein a main body of the water mist nano gasification conversion device comprises a shell and an atomization tube; the shell is provided with a supporting element for accommodating a conductive wire and supporting a conductive rod to isolate the conductive wire and water mist; the shell is of a hollow structure; an electronic high-voltage generator, a water supply tank, and an electronic water mist spraying device arranged in the water supply tank are arranged in the shell; the atomization tube is accommodated in the main body and is located above the water supply tank; an electric field region which uses a negative electric field to ionize and decompose water droplets and water mist sprayed by the electronic water mist spraying device is arranged in the atomization tube; the electric field region comprises at least one electric field generating component; the electric field generating component comprises a conductive ring and a conductive rod; one end of the conductive rod is fixed on the supporting element, and the other end is suspended and inserted into the conductive ring; a voltage output terminal of the electronic high-voltage generator is electrically connected with the conductive rod; and the electronic high-voltage generator is electrically connected with the conductive ring.

2. The water mist nano gasification conversion device according to claim 1, wherein the interior of the supporting element is of a hollow structure; the conductive rod is electrically connected with the output terminal of the electronic high-voltage generator through a first conductive wire; one end of the first conductive wire is accommodated in the hollow structure of the supporting element, and is connected with the conductive rod inside the supporting element; and the other end of the first conductive wire extends out of the shell through the hollow structure in the supporting element, and then is electrically connected with the voltage output terminal of the electronic high-voltage generator.

3. The water mist nano gasification conversion device according to claim 2, wherein a groove for accommodating the first conductive wire is arranged on an outer wall of the shell.

4. The water mist nano gasification conversion device according to claim 2, wherein the conductive ring is electrically connected with the electronic high-voltage generator through a second conductive wire; and a waterproof insulation element is arranged on the second conductive wire.

5. The water mist nano gasification conversion device according to claim 1, wherein the atomization tube is an atomization tube made of insulation material.

6. The water mist nano gasification conversion device according to claim 1, further comprising a water inlet which is communicated with the water supply tank.

7. The water mist nano gasification conversion device according to claim 1, further comprising a fan for blowing the water droplets and the water mist sprayed by the electronic water mist spraying device into the atomization tube.

8. The water mist nano gasification conversion device according to claim 1, wherein the negative high voltage outputted by the electronic high-voltage generator is above 2 KV.

9. The water mist nano gasification conversion device according to claim 1, wherein the electronic water mist spraying device comprises an ultrasonic water mist spraying device or a pressure nozzle water mist spraying device.

10. The water mist nano gasification conversion device according to claim 1, wherein the conductive ring is made of a conductive sheet, a conductive fiber cloth, a metal sheet, or a plastic sheet coated with a conductive layer on an outer surface.

11. The water mist nano gasification conversion device according to claim 1, wherein the conductive rod is a metal rod, a conductive fiber rod, or a plastic rod coated with a conductive layer on an outer surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) To more clearly describe the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be simply presented below. Apparently, the drawings in the following description are merely some embodiments of the present invention, and for those skilled in the art, other drawings can also be obtained according to these drawings without contributing creative labor.

(2) FIG. 1 is a structural schematic diagram of a water mist nano gasification conversion device in a first embodiment of the present invention; and

(3) FIG. 2 is a structural enlarged schematic diagram of an atomization tube and an electric field region in a first embodiment of the present invention.

DESCRIPTION OF MAIN ELEMENTS

(4) 1 main body; 2 atomization tube; 3 water inlet; 4 water supply tank; 5 electronic high-voltage generator; 6 electronic water mist spraying device; 7 fan; 8 conductive rod; 9 conductive ring; 10 spraying port; 11 supporting element; 12 first conductive wire; and 13 second conductive wire.

DETAILED DESCRIPTION OF THE PRESENT INVENTION

Embodiment 1

(5) A water mist nano gasification conversion device is provided. A main body of the water mist nano gasification conversion device comprises a shell and an atomization tube; the shell is provided with a supporting element for accommodating a conductive wire and supporting a conductive rod to isolate the conductive wire and water mist; the shell is of a hollow structure; an electronic high-voltage generator, a water supply tank, and an electronic water mist spraying device arranged in the water supply tank are arranged in the shell; the atomization tube is accommodated in the main body and is located above the water supply tank; an electric field region which uses a negative electric field to ionize and decompose water droplets and water mist sprayed by the electronic water mist spraying device is arranged in the atomization tube; the electric field region comprises at least one electric field generating component; the electric field generating component comprises a conductive ring and a conductive rod; one end of the conductive rod is fixed on the supporting element, and the other end is suspended and inserted into the conductive ring; a voltage output terminal of the electronic high-voltage generator is electrically connected with the conductive rod; and a grounding terminal of the electronic high-voltage generator is electrically connected with the conductive ring. During work with electricity, a negative electric field is formed between the conductive ring and the conductive rod.

(6) As a preferred implementation mode of the present embodiment, the interior of the supporting element is of a hollow structure; the conductive rod is electrically connected with the output terminal of the electronic high-voltage generator through a first conductive wire; one end of the first conductive wire is connected with the conductive rod through a connection position between the conductive rod and the supporting element, and the other end passes through the hollow structure in the supporting element, extends out of the shell, and then is electrically connected with the voltage output terminal of the electronic high-voltage generator.

(7) As a preferred implementation mode of the present embodiment, the atomization tube is an atomization tube made of insulation material

(8) As a preferred implementation mode of the present embodiment, the conductive ring is electrically connected with the grounding terminal of the electronic high-voltage generator through a second conductive wire; and a waterproof insulation element is arranged on the second conductive wire.

(9) In the present embodiment, one end of the conductive rod 8 is connected with the supporting element 11, and is connected with the first conductive wire 12 inside the closed supporting element 11. The other end of the conductive rod 8 is suspended and inserted into the conductive ring 9. The structure is simple and easy to realize. The water mist can also be fully and uniformly ionized and decomposed to increase the efficiency.

(10) Specifically, the interior of the supporting element 11 is of a hollow structure; the conductive rod 8 is electrically connected with the output terminal of the electronic high-voltage generator 5 through a first conductive wire 12; one end of the first conductive wire 12 is connected with the conductive rod 8 through a connection position between the conductive rod 8 and the supporting element 11, and the other end passes through the hollow structure in the supporting element 11, extends out of the shell, and then is electrically connected with the voltage output terminal of the electronic high-voltage generator 5. In the present embodiment, the atomization tube 2, the shell and an external environment form three spaces. The interior of the atomization tube 2 is a first space, the shell and the outer wall of the atomization tube 2 form a second space, and the exterior of the shell is a third space. After the first conductive wire 12 is connected with the conductive rod 8 and extends along the hollow structure of the supporting element 11, the first conductive wire 12 leads to the third space to isolate from the device in the shell, and then enters the shell in the position of the electronic high-voltage generator 5 in a way of a through hole to connect with the electronic high-voltage generator 5. The conductive ring 9 is electrically connected with the grounding terminal of the electronic high-voltage generator 5 through a second conductive wire 13. Since the second conductive wire 13 passes through the water supply tank 4, a waterproof insulation element is arranged on the second conductive wire 13 for waterproof isolation. In an embodiment, a groove for accommodating the first conductive wire is arranged on the outer wall of the shell to make the entire shell more beautiful. In the present embodiment, the conductive rod 8 is connected by the conductive wire, and the conductive wire is not in direct contact with the water mist, so as to avoid condensation of water vapor on the conductive wire, avoid forming a high-voltage discharge circuit by copper wires in the conductive rod and the conductive wire and avoid reducing the high voltage, so that the generation efficiency of nano water ions is not affected.

(11) As a preferred implementation mode of the present embodiment, the water mist nano gasification conversion device further comprises a water inlet 3, and the water inlet 3 is communicated with the water supply tank 4.

(12) As a preferred implementation mode of the present embodiment, the water mist nano gasification conversion device further comprises a fan 7 for blowing the water droplets and the water mist sprayed by the electronic water mist spraying device 6 into the atomization tube 2, so as to increase the conversion efficiency.

(13) As a preferred implementation mode of the present embodiment, the negative high voltage outputted by the electronic high-voltage generator 5 is above 2 KV.

(14) As a preferred implementation mode of the present embodiment, the electronic water mist spraying device 5 comprises an ultrasonic water mist spraying device or a pressure nozzle water mist spraying device.

(15) As a preferred implementation mode of the present embodiment, the conductive ring 9 is made of a conductive sheet, a conductive fiber cloth, a metal sheet, or a plastic sheet coated with a conductive layer on an outer surface.

(16) As a preferred implementation mode of the present embodiment, the conductive rod 8 is a metal rod, a conductive fiber rod, or a plastic rod coated with a conductive layer on an outer surface.

(17) For the above device, the specific working process is as follows: the water supply tank 4 in the main body 1 is filled with water through the water inlet 3; a working power supply is turned on; at this time, the electronic high-voltage generator and the electronic water mist spraying device 6 work simultaneously; the water droplets and the water mist sprayed from the water in the water supply tank 4 by the electronic water mist spraying device 6 are blown into the atomization tube 2 by the fan 7, then enter the electric field region, and are ionized and decomposed through a high-voltage negative electric field formed between the conductive rod 8 and the conductive ring 9; After the water droplets and the water mist entering the atomization tube 2 are ionized and decomposed, nanoscale charged water mist can be obtained by ionization and decomposition, and sprayed out from the spraying port 10. That is, the device of the present invention is used to decompose water molecules sprayed by the electronic water mist spraying device 6 into ultra-fine nanoscale water molecules through micron-level ionization. For example: the diameter of the water molecules after original ultrasonic atomization is 5 micrometers, and the diameter of the water molecules with a diameter of 5 micrometers can be changed to 5 nanometers under the action of nano-ionization and decomposition, which is equivalent to changing one water molecule into 1000 smaller water molecules.

(18) As a preferred implementation mode of the present embodiment, the negative high voltage outputted by the electronic high-voltage generator is above 2 KV, and a discharge electrode and a grounding electrode are provided.

(19) As a preferred implementation mode of the present embodiment, the electronic water mist spraying device 6 comprises an ultrasonic water mist spraying device or a pressure nozzle water mist spraying device.

(20) As a preferred implementation mode of the present embodiment, the atomization tube 2 is a water mist diversion device, and is a spraying tube having a square or circular cross section.

(21) As a preferred implementation mode of the present embodiment, the spraying direction of the atomization tube 2 includes but not limited to four directions of up, down, left and right.

(22) It is known from the above that the device of the present invention has the following advantages:

(23) 1. The device of the present invention can generate water mist with a nanoscale particle size, and solves the problem caused by the large particle size of the water mist. The water mist with the nanoscale particle size can freely diffuse into the air to keep clear indoor visibility. No water strain is generated on the surface of the object. Thus, the device does not cause moisture damage to wires, electrical appliances, instruments and equipment, books and furniture, and is suitable for aircrafts, submarines, museums, instrument and equipment rooms and other important places.

(24) 2. When the indoor air becomes dry, the moisture in the air will decrease, and the skin on the human surface will carries a large amount of static electricity (positive electrons), which will make people feel dry and itchy, and cause skin diseases. Since the device of the present invention can generate the nanoscale negatively charged water mist, the dirt with the positive electrons on the surface of the skin can be absorbed and removed. Meanwhile, the nanoscale water mist is easily absorbed by the skin to keep the skin hydrated and elastic. It can be seen that the device of the present invention can be widely used in humidifiers on the market to replace the humidifiers, and can also be widely used in various industries which need refined water mist, such as environmental protection, energy saving, automobiles, medical products, beauty products and other fields.

(25) 3. In the device of the present invention, the water mist with large diameter penetrates through the electric field region to generate the water mist with nanoscale particle size. The device has the functions of sterilization and disinfection. The water mist contains a large amount of negative ions. The negative ions achieve the effect of cleaning the air.

(26) 4. The conductive rod is connected by the conductive wire, and the conductive wire is not in direct contact with the water mist, so as to avoid condensation of water vapor on the conductive wire, avoid forming a high-voltage discharge circuit by copper wires in the conductive rod and the conductive wire and avoid reducing the high voltage, so that the generation efficiency of nano water ions is not affected.

(27) The above specifically describes preferred embodiments of the present invention, but the present invention is not limited to the described embodiments. Those skilled in the art familiar with the art can make various equivalent variations or replacements without departing from the spirit of the present invention. These equivalent variations or replacements are included within the scope defined by the claims of the present application.