RU2134129C1 - Device for treatment of biological objects with magnetic field - Google Patents

Abstract

FIELD: magnetotherapy. SUBSTANCE: device has connected current source, modulation unit, phase splitter and power amplifier. Device is connected with chamber accommodating magnetic field sources. The latter are made in the form of solenoids installed without clearances parallel to one another to form cylindrical chamber. Length-diameter ratio of each solenoid is within 70 to 100. Chamber accommodates two hollow cylinders coaxial to chamber and provided with common bottom. Space between cylinder walls is filled with liquid helium. Installed in small cylinder coaxial to it and without clearance is ceramic superconductor insulator in the form of tube. Device ensures suppression of viral infection and growth of malignant tumors in living organisms without damage to biological tissues. EFFECT: higher efficiency of treatment. 1 dwg

Description

 The invention relates to magnetotherapy using magnetic fields, and more specifically relates to a device for exposing a magnetic field to biological objects.

 This invention can be used to treat viral infections and malignant tumors in living organisms, to achieve a catalytic effect in a number of chemical processes in biological tissues of the body, to achieve a general therapeutic effect to enhance the health of the body, and also to conduct scientific research on the effect of large magnetic fields and its derivatives.

A device is known for applying a magnetic field to biological objects (RU 2039578 C1), comprising series-connected electrically connected current sources, a magnetic field modulation unit, a phase splitter and a power amplifier, a chamber with magnetic field sources connected to a power amplifier. Sources of the magnetic field are made in the form of transformers, the primary windings of which are connected to the phase splitter, and the secondary ones are short-circuited emitter frames installed with the formation of the chamber walls. Moreover, each frame is energized with a phase shift of 360 ^o C / n, where n is the number of frames. The device operates as follows. The biological object is placed on the carriage and it is installed in the cavity of the chamber. Then, a magnetic field modulation mode is set using the magnetic field modulation unit. Current is supplied to the primary winding of the transformer. The magnetic fields generated by the secondary windings of the transformers form rotating magnetic fields. Using n single-turn emitter frames does not allow shielding strong magnetic fields of 1 kT or higher and isolating the active component of the magnetic field to suppress the viability of viruses and the growth of malignant tumors - the rotor of the vector potential of the magnetic field, hereinafter referred to as the accompanying field S. This device cannot be protection of tissues from destruction when exposed to a strong magnetic field of a magnitude of 1 kT. Also in this case, when a magnetic field is applied directly to biological objects, the DNA and RNA molecules interfere with the genetic copying processes.

 The basis of the invention is the creation of a device for exposure to biological objects by a magnetic field, in which due to the shielding of the magnetic field it is possible to use strong magnetic fields of a magnitude of 1 kT or higher, as well as to isolate its active component from the electromagnetic field, thereby suppressing viral infections and suppression of the growth of malignant tumors in living organisms without destroying biological tissues and, in particular, blood tissues.

 The problem is solved in that in a device for applying a magnetic field to biological objects, containing a serially connected current source, a magnetic field modulation unit, a phase splitter and a power amplifier connected to a power amplifier, a camera having magnetic field sources mounted to form the chamber walls, according to the invention, the magnetic field sources are made in the form of solenoids mounted parallel to each other without a gap, forming a cylindrical chamber, and the ratio for the ines of each solenoid to its diameter is in the range from 70 to 100, while inside the chamber there are two hollow cylinders with a bottom coaxially with it, between which there is liquid helium, and a ceramic superconducting insulator made coaxially with it inside the smaller cylinder without gap in the form of a pipe.

 This device for exposure to biological objects with a magnetic field allows to achieve the elimination of death from the carrier of a viral disease without destroying the blood tissue. Also, this invention allows you to not interfere with the processes of genetic copying of DNA and RNA molecules when exposed to a magnetic field directly on living organisms.

 The invention is further illustrated by a specific embodiment and the accompanying drawing, which shows a block diagram of a device for applying a magnetic field to biological objects with a partial longitudinal section of a chamber according to the invention.

A device for applying a magnetic field to biological objects contains a well-known series-connected current source 1, a magnetic field modulation unit 2, a phase splitter 3, and power amplifiers 4 ₁ ... 4 _n . The device also contains a chamber 5 connected to amplifiers 4 ₁ ... 4 _{n of} power, where n is equal to the number of magnetic field sources 6. The chamber 5 has sources 6 of magnetic field, made in the form of solenoids, mounted without a gap parallel to each other with the formation of the walls of the chamber 5 of a cylindrical shape. In this example, 24 magnetic field sources 6 are shown. Accordingly, n in this example is equal to twenty-four. The solenoids can be fastened together using a hoop made of dielectric material (the hoop is not shown in the drawing). The ratio of the length of each solenoid to its diameter ranges from 70 to 100. In this example, the length of each is 1.5 m, the diameter is 2 cm. Two hollow cylinders 7, 8 made of glass with a common bottom, between the walls of which there is liquid helium 9. Inside the smaller cylinder 8, a ceramic superconducting insulator 10 made in the form of a pipe is installed coaxially with it without a gap.

 The cylinders 7, 8 can be attached to the sources 6 of the magnetic field using brackets of dielectric material (not shown in the drawing).

This device works for exposure to biological objects by a magnetic field as follows. From an alternating current source 1, current is supplied. Block 2 modulation of the magnetic field allows you to change the current strength in the solenoids, the amplitude of the oscillations of an alternating magnetic field, that is, set the exposure mode of the magnetic field. Phase splitter 3 changes the phase of the oscillations of the magnetic field. Amplifiers 4 ₁ ... 4 _n power amplify the signal and feed it to sources 6. During rotation of the vector potential of the magnetic field A in the device from solenoids parallel to each other along the cylinder component, the length of which significantly exceeds their diameter, a directional beam of rotor lines is formed vector potential of the magnetic field, hereinafter referred to as S = const rot A. Moreover, the magnetic field B, which destroys biological substances (in particular, red blood cells) at large values, is shielded by the solenoids themselves. For more reliable shielding, the internal volume of the device is separated by an insulator 10 from a superconducting material, cooled to the boiling point of liquid helium 9. When the solenoids are turned on, the superconducting insulator 10 is made in the form of a pipe, eddy mutually compensating electric currents are installed, which makes it possible to shield the penetration of magnetic field B into the internal part of the device. Thus, in the internal part of the device where the processed biological objects are placed, there is a field of the vector potential of the magnetic field A, and also a rotor of this magnitude (function) - field S. The exposure to an alternating magnetic field in the proposed device suppresses the activity of oncogenic viruses, and through the genetic the rotational "code of water and a number of proteins (hemoglobin, catalase) associated with respiration, the formation of peroxide compounds in body fluids is suppressed, and the number of cancer cells formed is sharply reduced. According to the equations of vector analysis for electromagnetic forms in the system of a working solenoid, the magnetic field B interacts in its usual action on a magnetic string, a frame with a current, and so on, the vector potential of the magnetic field A, manifested in the Aaronov-Bohm effect, the current density of free particles in the conductor j and also the rotor of the vector potential of the magnetic field S is a field that is not considered in modern electrodynamics. The main properties of the field S generated in the device for soft exposure of large quantities of magnetic fields to biological objects include the mechanical, physicochemical effects of storing effects by a substance, which are manifested in changes in the rates of chemical reactions and the properties of solvents, as well as the effect of suppressing the activity of viral particles. The action of S on a substance is based on the effects of molecular rotation, which are at the same time a physico-chemical basis for the storage and transmission of information, including genetic information. Spiral complexes of DNA, RNA molecules and quasi-polymer helical structures of water are substances that carry genetic information in living organisms. For example, the physicochemical properties of water change when it is treated with a magnetic field, as well as when water is frozen and subsequently thawed due to the formation of spiral molecular cores. The rotor of the vector potential of the magnetic field S = const rot A is also called the accompanying field. A variable accompanying field suppresses the activity of the AIDS virus, which allows you to remove the threat of death from the carrier. A 10 ml portion of blood taken from a patient infected with HIV is treated in the S field generator for 30 minutes and then injected back into the vein. The procedure is repeated once every 2 to 3 days for 2 to 3 months until remission. The current frequencies in the solenoids of the device are in the range from 2.4 to 3.4 • 10 ¹⁵ Hz, the amplitude is in the range of several kilohertz. Before the course of treatment, the optimal characteristics of the frequency and amplitude of the current (respectively, of the accompanying field) are selected individually in each clinical case.

 Thus, this device for exposure to biological objects by a magnetic field allows, due to the shielding of the magnetic field, the possibility of applying strong magnetic fields of a magnitude of 1 kT or higher, as well as the isolation of the active component of the magnetic field from the electromagnetic field, thereby suppressing viral infections and suppression of the growth of malignant tumors in living organisms without destroying biological tissues, in particular blood tissues.

Claims (1)

 A device for applying a magnetic field to biological objects, comprising a series-connected current source, a magnetic field modulation unit, a phase splitter and power amplifiers, a camera connected to a power amplifier, having magnetic field sources mounted to form chamber walls, characterized in that the magnetic field sources are made in the form of solenoids mounted parallel to each other without a gap, forming a cylindrical chamber, the ratio of the length of each solenoid to its diameter being ranges from 70 to 100, with two hollow cylinders with a common bottom coaxially located inside the chamber with liquid helium between the walls, and a ceramic superconducting insulator made in the form of a pipe installed coaxially with it inside the smaller cylinder without a gap.