CN111250016A - Liquid plasma device for treating tumor and skin disease - Google Patents

Abstract

The invention provides a liquid plasma device for treating tumor and skin disease, which uses common water and magnetic field to act under specific conditions, and uses the magnetic field with vortex magnetic lines to transmit electron beam generated by one plasma electrode to the other plasma electrode to form a loop; therefore, substances dissolved in the ordinary water are impacted by electrons to generate various plasmas, so that the surface and deep treatment of the treated object can be carried out.

Description

Liquid plasma device for treating tumor and skin disease

Technical Field

The invention relates to a device and a method for generating liquid plasma, in particular to a liquid and magnetic vortex type plasma device and a method for generating liquid plasma for treating tumors and skin diseases by using common water and a magnetic field to act under specific conditions.

Background

At present, in the field of tumor treatment, the main technical means are surgical resection, chemotherapy and radiotherapy. These measures all cause secondary injuries to the human body to varying degrees. In the aspect of skin diseases, the most treatment methods are medicine smearing or medicine taking treatment. For some intractable skin diseases, there are few treatments.

The tumor treatment device in the prior art is mainly radiotherapy equipment. The main working mode is as follows: the tumor site or the associated site is irradiated with a radiation emitted from a radioactive element. Other various bacterial and aseptic diseases are treated mainly by means of medicine or operation.

Therefore, there is a need to develop a treatment method and device which can eliminate tumor and is harmless to human body, or can cure tumor or skin diseases (including various bacterial and aseptic diseases) by simple bath treatment. The method brings good news to the life of people and can also generate great social benefits.

Disclosure of Invention

The invention aims to provide a device and a method capable of generating plasma in liquid. The device and water can perform surface and deep treatment on the treated object under the action of specific conditions.

The technical scheme of the invention is as follows.

A first aspect of the present invention provides a liquid plasma apparatus comprising:

a water storage container having an opening at an upper portion for containing water containing a dissolved substance and a subject to be treated;

a coil wound around the periphery of the reservoir for generating a uniform linear magnetic field inside the reservoir;

an inductive power supply connected to the coil for supplying power to the coil;

a capacitive plasma discharge device comprising a plasma power supply, and first and second plasma electrodes; the first plasma electrode and the second plasma electrode are respectively positioned at the upper part and the bottom part of the water storage container;

a permanent magnet rotatably positioned at a lower portion of the water reservoir for generating a magnetic field inside the water reservoir.

Preferably, the reservoir is fabricated from glass, ceramic or organic materials.

Preferably, the first plasma electrode is a magnetic plasma electrode located at an upper portion of the opening of the water reservoir and including a hole for allowing the object to pass therethrough, the magnetism being located primarily at an outer edge.

Preferably, the second plasma electrode is an insulating magnetic mesh electrode, is positioned at the bottom of the water storage container, and can emit an electron beam under the action of the plasma power supply.

Preferably, the permanent magnet is a permanent magnetic turntable and is arranged outside the second plasma electrode.

Preferably, the magnetic field of the permanent magnetic turntable in a rotating state can be superposed with the uniform linear magnetic field to generate a magnetic field with vortex magnetic lines, the magnetic field can convey the electron beam to the magnetic plasma electrode to form a loop, and substances dissolved in the water are impacted by electrons to generate various plasmas.

In a second aspect, the present invention provides a method of generating a liquid-based plasma, comprising the steps of:

step 1, providing a container capable of accommodating a treated object, wherein the container is provided with an opening positioned at the upper part;

step 2, filling water into the container to enable the water in the container to reach a required height; the water contains dissolved substances;

step 3, winding a coil on the periphery of the container;

step 4, providing an inductive power supply to supply power to the coil;

step 5, mounting a mesh plasma electrode at the bottom of the container;

step 6, installing a magnetic plasma electrode on the upper part of the opening of the container;

step 7, providing a plasma power supply, connecting the plasma power supply with the mesh plasma electrode and the magnetic plasma electrode, and generating an electron beam on the mesh plasma electrode;

step 8, providing a permanent magnet which is rotatably arranged outside the container and the mesh-shaped plasma electrode;

and 9, driving the permanent magnet to rotate by using a driving device, forming a vortex magnetic line to convey the electron beam to the magnetic plasma electrode, forming a loop, and generating various plasmas by impacting substances dissolved in water by electrons.

Preferably, the coils in the step 3 are in a single group or multiple groups.

Preferably, the magnetic plasma has a hole for allowing the object to pass through, the magnetism of which is mainly located at the outer edge.

Preferably, the dissolved substance in the water is a gas and/or a chemical solvent.

Through the technical scheme, the invention can obtain the following beneficial effects.

1. The invention utilizes various gases (or chemical solvents or gases needed by people) which can be dissolved in common water, and the substances are impacted by electrons in an electric field to generate various plasmas. One important property of the plasma is: it will change its own trajectory and speed of motion due to the change of external force.

2. Water molecules act only on the surface of the patient (mainly on skin diseases) in the present invention. However, other various plasmas generated in water can obtain huge movement speed in the electric field rotating at high speed. They directly impact the interior of the patient, thus forming the mainstay of treatment of tumors and other diverse and sterile conditions.

3. In the present invention, the object to be treated is directly immersed in normal water in the container, and therefore, any tumor that is diffused or not diffused, and any or several of the tumors that have a bacterial or aseptic lesion, can be treated at the same time. One for finding and treating is not needed.

4. The invention can directly carry out physiotherapy treatment on various tumors in vivo and in vitro, and does not need to carry out treatment by using an operation, radiotherapy or chemotherapy, thereby avoiding secondary damage in the treatment process.

Drawings

FIG. 1 is a schematic structural diagram of a liquid plasma apparatus according to the present invention.

Fig. 2 is a schematic view of the operation of the liquid type plasma device of fig. 1.

The meaning of the individual reference symbols in the figures is as follows: 01. a plurality of combined magnetic plasma electrodes having access holes; 02. ordinary water; 03. a water storage container; 04. an inductor coil; 05. an inductive power supply; 06. an electric motor; 07. a permanent magnetic disk; 08. a mesh-shaped planar magnetically insulated plasma electrode; 09. a plasma power supply.

Detailed Description

Example 1

As shown in fig. 1, a liquid plasma apparatus according to the present embodiment includes: the device comprises a plurality of combined magnetic plasma electrodes 01 with access holes, common water 02, a water storage container 03, an induction coil 04, an induction power supply 05, a motor 06, a permanent magnetic disc 07, a reticular planar nonmagnetic plasma electrode 08 and a plasma power supply 09.

The water storage container 03 has an opening at an upper portion for receiving general water 02 containing dissolved substances and a subject to be treated.

The induction coil 04 is wound on the periphery of the water storage container 03 and used for generating a uniform linear magnetic field inside the water storage container 03. Those skilled in the art will appreciate that the inductor 04 may be a single set or multiple sets, as desired.

The inductance power source 05 is connected with the inductance coil 04 and used for supplying power to the inductance coil. The inductive power supply 05 may have different sizes according to the required power.

The plasma power supply 09 is provided with a plurality of combined magnetic plasma electrodes 01 with access holes and a reticular plane magnetic insulation plasma electrode 08 to form a capacitive plasma discharge device. The combined magnetic plasma electrodes 01 with the access holes and the reticular planar magnetic-insulating plasma electrodes 08 are respectively positioned at the upper part and the bottom part of the water storage container 03.

The permanent magnetic disc 07 is rotatably positioned at the lower portion of the reservoir 03 for generating a magnetic field inside the reservoir 03.

In a preferred embodiment, the water reservoir 03 is made of glass, ceramic or organic material. It can be of any shape and any size, as desired. For example, it may fit only the next hand, or in any position, accommodate the entire person.

In a preferred embodiment, the combined magnetic plasma electrode 01 having an access hole for allowing the object to pass therethrough is located at an upper portion of the opening of the water storage container 03. The plurality of combined magnetic plasma electrodes 01 having the access holes have magnetism mainly at the outer edge due to the access holes.

In a preferred embodiment, the mesh-shaped planar magnetically insulating plasma electrode 08 is located at the bottom of the water reservoir 03 and is capable of emitting an electron beam under the action of the plasma power supply.

In a preferred embodiment, the permanent magnetic disk 07 is mounted outside the second plasma electrode. It may be made of any permanent magnetic material suitable in the art, such as neodymium iron boron.

In a preferred embodiment, the permanent magnetic disk 07 is rotated by a motor 06. The magnetic field of the permanent magnetic disk 07 can be superposed with the uniform linear magnetic field of the inductance coil 04 to generate a magnetic field with vortex magnetic lines, the magnetic field can convey the electron beams to the combined magnetic plasma electrodes 01 with the access holes to form a loop, and substances dissolved in water are impacted by electrons to generate various plasmas.

The operation of the liquid type plasma apparatus of the present invention will be described in detail.

As shown in fig. 2, according to the right-hand ampere rule, after the induction coil 04 at the periphery of the water storage container 03 is energized, magnetic lines of force from the S pole to the N pole are generated in the water storage container 03.

The ordinary water 02 in the water reservoir 03 is itself a polar molecule, which is both magnetically conductive and electrically conductive. Ordinary water 02 is used as a conductor, and can discharge two electrodes of the capacitive plasma under the action of high voltage to generate plasma while preventing the capacitive plasma device from short circuit. Thus, the normal water 02 becomes a medium between the two plasma poles.

The combined magnetic plasma electrode 01 with the access hole, the common water 02, the water storage container 03, the net-shaped magnetic plasma electrode 08 and the plasma power supply 09 form a capacitive plasma discharge device, and the basic requirements of plasma discharge are met.

The maximum distance requirement of the capacitive plasma discharge device for ensuring discharge of the two electrodes is very strict, and the plasma system does not work due to the large distance. In the device of the invention, magnetic lines of force and ordinary water 02 in the water storage container 03 can convey electron beams generated by the net-shaped magnetic plasma electrode 08 to the position required by the combined magnetic plasma electrodes 01 with the access holes, so that the whole system forms a loop to meet the discharge requirement. So that when the system is discharged, the normal water 02 really becomes a so-called "plasma solution".

Because the magnetic plasma electrode 01 is provided with the access hole, a large part of electron beams emitted by the magnetic insulation mesh-shaped plasma electrode 08 have no corresponding point on the magnetic plasma electrode 01 and do not discharge, so that the plasma energy in water is greatly reduced. Therefore, the present invention employs a permanent magnet turntable 07 that rotates at high speed. The magnetic field acting force on electrons is different from that of each part between the permanent magnetic turntable 07 and the combined magnetic plasma electrodes 01 with the access holes. And the magnetic lines of force generated by the induction coil 04 are uniform and linear. When the permanent magnet turntable 07 rotates at a high speed, its magnetic lines of force form a twist shape, as shown in fig. 2. The high-speed rotating twist-shaped magnetic force line can drive the linear magnetic force line to rotate together, when a certain speed is reached, a vortex magnetic force line can be formed, and the electric field is a vortex electric field. Most of the particle beams of the plasma will be on this vortex, and there will be few particle beams in the part without the corresponding point in the middle.

The plasma power supply of the present invention has a plurality of combined magnetic plasma electrodes 01 having an access hole at one pole, and the magnetism of the combined magnetic plasma electrodes is on the outer edge. Since it can absorb most of the electron beam on the vortex line, the energy loss of the whole system is reduced, and the requirement of plasma solution concentration is ensured.

Various gases are dissolved in the ordinary water 02, or chemical solvents or gases are dissolved according to needs, and the substances are impacted by electrons in an electric field to generate various plasmas. These various plasmas, all have an important property: they change their trajectory and speed of motion due to changes in external forces.

In the device according to the invention, the water molecules are not allowed to move at high speed, and only act on the surface of the object. But the various other plasmas generated will achieve significant motion velocities in the high-speed rotating electric field. They can directly impact the inside of the treated object and can be used as a mastery force for treating tumors or other various bacterial and sterile diseases.

Example 2

The embodiment provides a method for generating liquid type plasma, which comprises the following steps:

step 1, providing a water storage container 03 capable of accommodating a treated object, wherein the water storage container 03 is provided with an opening positioned at the upper part;

step 2, filling ordinary water 02 into the water storage container 03 to enable the ordinary water 02 in the container to reach a required height; the ordinary water 02 contains dissolved substances;

step 3, winding an inductance coil 04 at the periphery of the water storage container 03;

step 4, providing an inductance power supply 05 to supply power to the inductance coil 04;

step 5, installing a magnetic insulating mesh plasma electrode 08 at the bottom of the water storage container 03;

step 6, installing a plurality of combined magnetic plasma electrodes 01 of access holes on the upper part of the opening of the container;

step 7, providing a plasma power supply 09, and connecting the plasma power supply 09 with the magnetism-isolated meshed plasma electrode 08 and the combined magnetic plasma electrodes 01 with the access holes, so as to generate electron beams on the magnetism-isolated meshed plasma electrode 08;

step 8, providing a permanent magnetic rotary disc 07 which is rotatably arranged outside the water storage container 03 and the magnetism-insulating reticular plasma electrode 8;

and 9, driving the permanent magnetic turntable 07 to rotate by using a motor 06, forming a vortex magnetic line to convey the electron beam to the combined magnetic plasma electrodes 01 with the access holes, forming a loop, and generating various plasmas by impacting substances dissolved in the common water 02 with electrons.

The same technical features as those in embodiment 1, which appear in the respective steps, have been described heretofore and will not be repeated here.

Claims (10)

1. A liquid plasma apparatus comprising:

a water storage container having an opening at an upper portion for containing water containing a dissolved substance and a subject to be treated;

a coil wound around the periphery of the reservoir for generating a uniform linear magnetic field inside the reservoir;

an inductive power supply connected to the coil for supplying power to the coil;

a capacitive plasma discharge device comprising a plasma power supply, and first and second plasma electrodes; the first plasma electrode and the second plasma electrode are respectively positioned at the upper part and the bottom part of the water storage container;

a permanent magnet rotatably positioned at a lower portion of the water reservoir for generating a magnetic field inside the water reservoir.

2. The liquid plasma device of claim 1, wherein the water reservoir is machined from glass, ceramic or organic material.

3. The liquid plasma device as claimed in claim 1, wherein the first plasma electrode is a magnetic plasma electrode, which is located at an upper portion of the opening of the water reservoir and includes a hole for allowing the object to pass therethrough, and the magnetism is mainly located at an outer edge.

4. The liquid plasma device as claimed in claim 3, wherein the second plasma electrode is a magnetic insulating mesh electrode, which is located at the bottom of the water reservoir and is capable of emitting an electron beam under the action of the plasma power source.

5. The liquid plasma device according to claim 4, wherein the permanent magnet is a permanent magnet rotating disk, and is installed outside the second plasma electrode.

6. The liquid plasma device according to claim 5, wherein the magnetic field of the permanent magnet turntable in a rotating state can be superposed with the uniform linear magnetic field to generate a magnetic field with vortex magnetic lines, the magnetic field can convey the electron beam to the magnetic plasma electrode to form a loop, and substances dissolved in the water are impacted by electrons to generate various plasmas.

7. A method of generating a liquid-based plasma, comprising the steps of:

step 1, providing a container capable of accommodating a treated object, wherein the container is provided with an opening positioned at the upper part;

step 2, filling water into the container to enable the water in the container to reach a required height; the water contains dissolved substances;

step 3, winding a coil on the periphery of the container;

step 4, providing an inductive power supply to supply power to the coil;

step 5, mounting a mesh plasma electrode at the bottom of the container;

step 6, installing a magnetic plasma electrode on the upper part of the opening of the container;

step 7, providing a plasma power supply, connecting the plasma power supply with the mesh plasma electrode and the magnetic plasma electrode, and generating an electron beam on the mesh plasma electrode;

step 8, providing a permanent magnet which is rotatably arranged outside the container and the mesh-shaped plasma electrode;

and 9, driving the permanent magnet to rotate by using a driving device, forming a vortex magnetic line to convey the electron beam to the magnetic plasma electrode, forming a loop, and generating various plasmas by impacting substances dissolved in water by electrons.

8. The method of claim 7, wherein the coils in step 3 are in a single set or multiple sets.

9. A method of generating a liquid-based plasma according to claim 7 wherein the magnetic plasma has a hole for allowing the object to pass through, the magnetism of which is predominantly at the outer edge.

10. A method of generating liquid plasma according to claim 7 wherein the dissolved species in the water is a gas and/or a chemical solvent.

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