RU52716U1 - MAGNETOTHERAPY DEVICE - Google Patents

Abstract

The utility model relates to medicine, in particular to reflexotherapeutic methods for diagnosing and correcting the state of the human body, restorative medicine and can be used to monitor the condition of people in the complex conduct of mass preventive, professional or other studies. A magnetotherapy device including a solenoid connected through a mode switch to a power source is characterized in that it is equipped with a modulator and a magnetic field regulator that are connected in series and connected to the solenoid power circuit. The mode switch 8 provides a choice of the polarity of the magnetic field determined by the results of the trial exposure. Resistors 11 are designed for the possibility of changing the magnitude of the current in the circuit, which leads to a change in the magnetic field strength using a modulator 12, which is a multivibrator with a tunable frequency with a steep pulse front. The utility model provides the ability to take into account the patient’s homeostasis during the session and adjust exposure parameters.

Description

The utility model relates to medicine, in particular to reflexotherapeutic methods for diagnosing and correcting the state of the human body, restorative medicine and can be used to monitor the condition of people in the complex conduct of mass preventive, professional or other studies.

To assess the novelty of the claimed technical solution, we consider a number of solutions known from the prior art for similar purposes.

There are many methods for treating and maintaining health and devices that include exposure to magnetic fields on the human or animal body, such as magnetic watches, rings, beds, sweatshirts, belts, glasses, shoes, pillows, sofas, etc., which can be purchased in free sale, a common feature of which is the local application of magnetism to the human body for the treatment and maintenance of health.

Known methods for using magnetism to treat diseases and maintain health, as well as their effects, are described in European Patents Nos. 8,820,205.5, 9,140,302,2.9 and US Pat. No. 5,084,003.

These magnetotherapeutic methods for the most part have the following disadvantages:

1. The surface application of a magnetic field, which is not able to ensure the penetration of magnetic flux into the deeper layers of the body. This is because most commercial magnetic devices, including magnetic watches, rings, beds, sweatshirts, glasses, belts, shoes, pillows and sofas, have one magnet for applying a magnetic field to the surface of a part of the human body during treatment. If we assume that the magnetic field can have a therapeutic effect on the human body, then we can see that such a surface and limited application of a magnet with a single magnetic pole in contact with a limited area of the human body actually has a very limited effect (effect). Several cases of local hyperemia caused by such a limited, stationary

and prolonged application of magnetism. For example, patients who wear a magnetic watch for healing purposes may suffer from swelling and turning blue of the wrist, which will confirm the fact that local long-term exposure to magnetism can cause some harm to the human body.

2. Indirect application of magnetism, which significantly reduces the effectiveness of magnetotherapy. A typical example is magnetic field-treated (magnetized) drinking water for humans and animals. Experience shows that the practice of constant use of drinking water treated with a magnetic field provides some effect in the treatment and prevention of cholelithiasis and urolithiasis. However, this effect is very limited, because it is achieved through the process of magnetizing water before drinking and passing this water through the body using the circulatory system, and possibly even replacing the magnetized water with ordinary water inside the human body. The magnetizing effect of drinking water after treatment with a magnetic field after the termination of its action decreases over time; this phenomenon is especially characteristic of the period immediately following the cessation of magnetization treatment.

3. Local and stationary application of magnetism, which limits the possible use of this therapy. The local application is more similar than different from the surface. While surface application means that magnetic flux cannot penetrate the body, local application means that the magnetic field exists only in the application region, even if the magnetic flux can penetrate the body so that the magnetobiological effect can only be achieved through natural circulation fluids in the body, nervous system, etc., which bring substances subjected to the magnetizing effect of the local stationary magnetic field and provide a magnetizing effect in all the rest parts of the body as soon as these substances reach them through blood circulation. In this sense, the local application has much in common with the indirect application of magnetism.

A device for therapeutic exposure to an electromagnetic field on the upper respiratory tract, including an inductor made in the form

windings, fixed and movable cores, while the movable core has the possibility of reciprocating movement and subsequent fixation along the axis of the winding, see.with. No. 1641361. The device is designed to control the geometry of the working ends of the magnetic circuit in accordance with the shape of the irradiated part of the patient’s body. The disadvantages of this device include: the lack of a technical solution to compensate for changes in the magnitude of the magnetic induction (tension) when moving the movable part of the ferrite rods; a uniform magnetic field is not provided on the working surfaces of the device (with increasing distance from the working ends of the magnetic circuit to the ends of the extended parts of the ferrite rods, the ratio between the magnetic induction measured on the working part of the end of the magnetic circuit and the magnetic induction measured on the extended part of the ferrite rods), which will not allow penetrate deep into the irradiated part of the patient’s body with the same magnetic intensity and evaluate the exposure received by the attending physician.

A device for therapeutic exposure to an electromagnetic field is known, in which it is possible to smoothly adjust the magnetic induction of a given value without increasing the unevenness of the magnetic field over the entire working surface of the inductor, while the adaptability of the adjustment is increased. This is achieved by the fact that instead of the movable cores, a core made of a material with high magnetic permeability is installed and a core with a high magnetic permeability with the possibility of reciprocating movement and subsequent fixation in a selected position is introduced, characterized in that the movable core is placed outside the winding gap and installed with non-working side of the winding, see RF patent No. 2053807.

A device for magnetoteralia is known, which contains two identical inductors, including a hollow core and four inductance coils located in layers, see.with. No. 1734776. The device is designed to increase the effectiveness of the impact by creating a uniform magnetic field along the patient’s body with specified parameters of the magnetic field strength. Inductor coils are connected to a constant voltage source through a program switch that provides constant exposure to the patient

homogeneous magnetic field. The disadvantages of this device include: a large spread of magnetic field strength on the working surfaces of the inductors. In the center of the hollow core, the magnetic field strength is minimal, on the surface of its end face it is maximum, and the ratio between the maximum and minimum values of the magnetic field strength is estimated several times depending on the ratio of the internal and external diameters of the hollow core; discreteness of switching the magnetic field, the lack of smooth adjustment.

According to the greatest number of similar features, this technical solution is selected as a prototype of the first claimed utility model.

The utility model is based on solving the problem of creating an effective and maximally safe magnetotherapy method for the patient.

The technical result provided by the utility model consists in the possibility of taking into account the state of the patient’s homeostasis during the session and providing the possibility of adjusting the exposure parameters.

The essence of the utility model as a technical solution is expressed in the following set of essential features, sufficient to achieve the above technical result provided by the invention.

According to a utility model, a magnetotherapy device including a solenoid connected through a mode switch to a power source is characterized in that it is equipped with a modulator and a magnetic field regulator that are connected in series and connected to the solenoid power circuit.

The applicant has not identified sources containing information on technical solutions, the totality of the features of which coincide with the totality of the distinctive I acknowledge ”the claimed utility model, which allows us to conclude that it meets the condition of“ novelty ”.

The essence of the utility model is illustrated in the drawing, which shows a diagram of the claimed device.

The claimed device for magnetotherapy contains a solenoid 1, a mode switch 2, power supplies 3, a magnetic field strength regulator 4, including resistors 5 and a modulator 6.

Magnetotherapy using the claimed device is as follows.

In order to harmoniously influence the patient during the session, it is necessary to use the basic sensory systems of the body. To determine the formulation of the exposure during the magnetic therapy session, an input diagnostic control is performed, which can be carried out by various known methods, for example, according to the method protected by RF patent No. 2120629 "Method for determining the concentration-kinetic state of an organism’s homeostaa" by V. Kozlov. and etc.

The essence of the method for determining the concentration-kinetic homeostasis of the human body is that to measure the characteristics of the state of homeostasis, use the parameter of liquid media - concentration-kinetic potential (CSI potential). It is a consequence of the energy interaction of a liquid with the electromagnetic background of the external environment and is manifested in the formation of a structured organization of the liquid, as a physicochemical system, with the electric field of its internal environment. This field is due to both the concentration (particle component) of the liquid system and the activity of the electrically charged components located therein. The value of the CSI potential in specific conditions is determined by the binding energy of the components of the liquid system, as well as the level of the energy background of the external environment at the time of measurement. Therefore, by measuring the CSI potential of the liquid medium of the human body in certain areas (in biological active points - BAP), we can conclude about its energy state or the energy state of the main functional systems. If the CSI potential has a high positive value, then this indicates that the system is acidified and it is necessary to slow it down, which is carried out by the north pole of the magnet. If the CSI potential is low, then this indicates that the system is alkalized and it is necessary to excite it, which is carried out by the south pole of the magnet.

According to the results of the input diagnostic control using the mode switch 2, to which the power sources 3 are connected in different polarity, they select the direction necessary for a particular patient

magnetic exposure, i.e. polarity of the magnetic field generated in the solenoid 1.

Studies have shown that strong magnetic fields demagnetize the ferromagnetic structures of biological systems, which leads to their disorganization in the natural environment of the Earth’s energy background. At the same time, the magnetic conditions inhibit and can even block any energy-information exchange. The performed studies allow us to conclude that the maximum magnetic field strength during magnetotherapy should not significantly exceed the geomagnetic field strength. The practical range of changes in magnetic field during magnetic therapy is 0.005-1.5 Oersted.

The choice of the optimal level of the magnetic field of the solenoid 1 is carried out using a voltage regulator 4, which includes a set of resistors 5, the choice of which changes the current strength in the electrical circuit of the device.

The selected range of changes in the magnetic field for magnetotherapy (5 × 10 ^-3 -1.5 Oe) determines the parameters of solenoid 1, which is a long coil with a uniform magnetic field (number of turns 1000, wire diameter 0.1 mm, coil diameter 8 cm; I = 1 mA; U = 1V; P = 1 mW). For magnetotherapy of the main vessels, the solenoid 1 is a ring with an inner diameter of 12 cm.

The place of the patient where the magnetotherapy is carried out should be oriented along the geomagnetic field, while the patient’s body is located along the magnetic field line, head to the north.

An important role in the operation of the claimed device is played by modulator 6. The performed studies have shown that a constant magnetic field does not exert the influence on the human body necessary to achieve a therapeutic effect. This requires an alternating magnetic field. The modulator 6 includes an adjustable frequency generator, which modulates the magnitude of the magnetic field specified by the regulator 4 of a certain envelope, changing with a given frequency. The choice of modulation frequency is carried out depending

from the patient’s condition and the need to influence one or another system of his body.

Thus, using the above-described elements of the claimed device, a magnetic field of a certain direction, set by switch 2, is formed in the solenoid 1, changing with a certain frequency touched by the modulator 6 and with the average value of the voltage set by the regulator 4. All this together allows us to provide the technical result declared by us namely, taking into account the patient’s homeostasis during the session and providing the possibility of adjusting exposure parameters over a wide range.

Based on the results of the input diagnostic control, the doctor determines the places of magnetic influence by inductors (functional systems, main vessels, BAT - biologically active points), magnetic field polarity, magnetic field strength and modulation frequency. In the process of magnetotherapy, it is necessary to take into account both the exposure time and the main geographical region of the patient’s residence, on the magnetic properties of which the structure of the magnetic polarity of the human body also depends.

After choosing the type of exposure and the method of conducting magnetic therapy, the doctor determines the BAT for real-time monitoring of the dynamics of the state of concentration-kinetic homeostasis of the patient during the session, which is used as feedback.

In most cases, you can use the “SOURCE” points of the “Triple Heater” (4Tg) and “Heart Ruler” (7Ms) channels located on the wrist. These points can be called "quick response points" in the rapid assessment of the integral state of the body. The feedback system, in contrast to the input diagnostic control, operates in a continuous mode of recording the dynamics of changes in the CSI potentials of the BAT and uses only two BAT to assess the trend in the state of concentration-kinetic homeostasis of the body. The feedback system allows you to timely register the occurrence of resonant processes in the patient’s body and to purposefully control the conduct of a magnetotherapy session.

The operation of the claimed device is tested on a large number of patients with various diagnoses. Confirmed the safety and effectiveness of magnetotherapy carried out using the claimed device. A number of patients showed a significant increase in the adaptive reserves of the body. The possibility of effective treatment of bronchial asthma by the combination of magnetotherapy and inhalation was revealed, which was expressed in a significant increase in the increase in the Lung Capacity (VC) by about 50% compared with the average increase (about 100 cm ³ per session).

The possibility of industrial application of the claimed technical solution is confirmed by the known and described in the application means and methods by which the invention can be implemented in the form described in the utility model formula. The claimed device can be implemented using well-known technologies and technical means, which determines, according to the applicant, its compliance with the condition of "industrial applicability".

Claims (1)

A device for magnetotherapy, comprising a solenoid connected through a mode switch to a power source, characterized in that it is equipped with a modulator and a magnetic field regulator, which are connected in series and included in the power circuit of the solenoid.