RU69406U1 - DEVICE FOR IONOTHERAPY - Google Patents

Abstract

The utility model relates to medical equipment, namely, devices for generating negative oxygen ions, and is intended for the treatment of various diseases with an electric field of high tension, negative aerons, as well as electric charges. A device for ion therapy, comprising a control unit and an air ion generator, comprising a voltage multiplier connected to a high voltage unit, a modulator configured to set pulses, an ionizing electrode connected through a resistor to the output of the voltage multiplier. According to a patented utility model, the control unit comprises a programmable processor, the device further comprising a switch, the output of which is connected to at least two passive electrodes. In this case, it is the passive electrodes that are applied to the affected area of the patient. The solution allows you to expand the arsenal of devices used for ion therapy, and also ensures the safety of using the device, 1 il.

Description

The utility model relates to medical equipment, namely, devices for the generation of negative oxygen ions (aero ions), and is intended for the treatment of various diseases with an electric field of high tension, negative aerons, as well as electric charges.

Currently, various types of devices for aeroionotherapy, based on the effect of franklinization and used in medical practice, are known.

So, for example, from the description of the patent for utility model RU 35231 (published on January 10, 2004, IPC 7: A61N 1/44), a device is known for pinpoint exposure through the skin of a patient, containing an ionizing electrode in a housing made of insulating material, inside the electrode the ionizer is a metal rod, one end of which is connected to the corona electrode, and the opposite end is connected through a high-voltage cable to a high-voltage power source. The device also contains a low-voltage cable, a contact napkin made of metal mesh on a flexible carrier, a hub made in the form of a spacer made of porous dielectric fabric.

The device operates as follows.

When you turn on the high-voltage power source, voltage is supplied to the rod and the corona electrode. A voltage of 10-30 V is applied to the contact wipe through the low-voltage cable of the high-voltage power supply. In this case, an electrostatic field with high intensity arises in the area of influence on the skin between the end of the rod and the surface of the concentrator. With a decrease in the distance between the end of the rod and the surface of the concentrator, a corona discharge arises, in which an ordered growth of the ordered motion of ions directed along the electrostatic field vector occurs.

The disadvantage of this device is the complexity of both its manufacture and application. In addition, the possibility of electric shock using people using it is not ruled out.

From the description of patent RU 2085222 (published on July 27, 1997, IPC 6: A61N 1/10), a franklinization device is known to be used in medical technology. The device contains an active electrode placed at some distance from the patient’s head, connected to the output of a high constant source

voltage and made in the form of a hub that rotates freely relative to its own axis with radially reinforced metal rods.

The patient is seated on a chair installed under the active electrode so that when the electrode rotates, the pointed ends of the rods pass along a path that intersects the projection of the patient’s head.

However, after the end of the procedure, it is necessary to touch the patient’s body with a special discharger for painless removal of accumulated electric charges from the body, which creates some inconvenience of using the device. In addition, air ions affect the entire body of the patient and there is no possibility of selective contact.

The closest analogue to the claimed solution is the ion therapy device disclosed in the description of the utility model certificate RU 20842 (published December 10, 2001, IPC 7: A61N 1/44), which contains a control unit and an air ion generator containing a voltage multiplier connected to high voltage unit, a modulator configured to set pulses, an ionizing electrode connected through a resistor to the output of the voltage multiplier. The device also contains a receiving electrode, mounted on the patient’s body and used to control the dose of air ions. The receiving electrode is connected to a comparator and an indication unit.

The receiving electrode is fixed on the patient's body. When a constant voltage is applied to the modulator, voltage pulses of negative polarity are generated, the duration of which is set by the value of the signal supplied to the modulator input from the control unit. The value of this signal is set before switching on, depending on the required concentration of aero ions. The pulses from the modulator are fed to the input of the high-voltage unit, where they are converted to a high voltage of a given frequency and fed to the ionizing electrode in the form of high-voltage pulses of negative polarity. A quiet corona charge lights up on the electrode and a stream of negative aeroins arriving at the patient is formed. In this case, the patient’s body acquires a charge, which is perceived by the receiving electrode and enters through the integrator to the signal input of the comparator. The signal input of the comparator is connected to the output of the unit for setting the dose of aeroins. When the concentration of aeroins is equal to the specified signal at the inputs of the comparator become equal, and the generator is turned off.

A disadvantage of the known device as well as in the above devices is the impossibility of exposure to parts of the patient’s body, which leads

to increase the exposure time and the impossibility of local exposure to the flow of ions on the internal organs.

In addition, the therapeutic effect is limited to a certain list of diseases and the use of the device is aimed mainly at the prevention of these diseases.

Also, the dose of aeroions is proportional to the exposure time, which does not allow one to set these parameters independently.

A disadvantage characteristic of all known devices is that during exposure to the flow of air ions, while reducing the distance between the patient and the electrode, the patient experiences unpleasant sensations.

The objective of the patented utility model is to create a device that can be used to treat diseases of both the skin and internal organs by short-term and local exposure through the skin of the patient’s body with a stream of aero ions emitted by an ionizing electrode and electric charges passing through the patient’s body and leaving from the passive electrode.

The technical result achieved by using the patented utility model is to expand the arsenal of devices used for ion therapy, as well as to ensure safety when using the ion therapy device.

Also, the technical result consists in the possibility of automating the process, reducing the exposure time and increasing the effectiveness of the treatment.

This technical result is achieved through the use of an ion therapy device, including a control unit and an aeroion generator, comprising a voltage multiplier connected to a high voltage unit, a modulator configured to set pulses, an ionizing electrode connected through a resistor to the output of the voltage multiplier. According to the patented solution, the control unit contains a programmable processor, while the device further comprises a switch, the output of which is connected to at least two passive electrodes.

Exclusion of the patient’s current shock is ensured by the use of passive electrodes for contact with the skin, the current flow through which is controlled by an ammeter, as well as the synchronous operation of all units of the device.

It should be emphasized that, unlike analogues, it is the passive electrode that is applied to the affected area of the patient, and the active electrode is located in

an arbitrary place at a distance of 10-50 cm from the patient (for example, above the head). This will allow to concentrate the dose of electric charges flowing through the local area of the patient’s body and will lead to a reduction in exposure time to several minutes.

The series connection of the resistor between the voltage multiplier and the ionizing electrode prevents the formation of ozone and nitrogen oxides, and is also an additional protection against electric shock to users.

The ability to set the dose of aeroions and the exposure time for each passive electrode separately will allow you to concentrate the flow of electric charges in certain places of the skin, as well as direct them to the internal organs of the patient.

The ionizing electrode can be of various shapes, for example, in the form of a dielectric hoop with a diameter of 250 mm with fixed needle emitters.

Preferably, the ion therapy device may comprise eight passive electrodes, which may also have a different shape.

The greatest effect was observed when passive electrodes were made in the form of rectangular metal plates fixed to the patient’s body with the help of fixation means, which can be made in the form of suction cups.

Next, the utility model is illustrated by an example implementation with reference to the explanatory diagram (figure 1).

An ionizing (active) electrode is placed at a distance of 10-50 cm from the patient’s closest point.

The device includes: an aeroion generator, a control unit and a switch, the output of which is connected to eight passive electrodes. The aero-ion generator contains a multiplier connected to a high-voltage unit, a modulator and an ionizing electrode connected through a resistor to the output of the multiplier. The current value is controlled by an ammeter.

The control unit contains a timer. Using a processor, a sequence or combination of switching on passive electrodes is set, as well as the duration of exposure and the amount of power of the aeroion generator. Control over the specified parameters is carried out using a timer and ammeter.

The proposed device operates as follows.

The required number of passive electrodes are located on the skin exposure zones. Separately, for each passive electrode, the signal duration value and the required dose of aero ions are set on the control unit. Per switch from

the control unit sends a signal to connect one or more passive electrodes. At the same time, current is measured through a passive electrode. The value of the flowing current is transmitted to the control device. In this case, independently of each other, you can set the exposure time and dose of aeroions for each part of the body by changing the power of the aeroion generator. The power level is set by the modulator, to which a control voltage is supplied from the control unit. Depending on the control voltage, the modulator generates voltage pulses of various durations and duty cycle, which affects the power of the aeroion generator. The pulses from the modulator are fed to the input of the high-voltage unit, converted to a high voltage of a given frequency and fed to a multiplier, where they are converted to a constant voltage of negative polarity of a given (defined) power and fed to an ionizing electrode through a limiting resistor. A quiet corona charge lights up on the electrode and a stream of negative ions forms. At the same time, in accordance with the values set on the control unit, a certain dose of electric charges passes through each passive electrode mounted on the patient’s body.

After the exposure time, which is controlled by a timer, the generator automatically shuts down.

Example No. 1: Patient D., 55 years old. Complaints of severe pain in the gums and periosteum.

Spent 2 sessions of aeroinerpia using a patented device. Each session lasted 5-6 minutes. As a result, complaints of pain disappeared. In addition, overall well-being improved, the feeling of fatigue disappeared. After six months, complaints of ill health were not observed.

Example No. 2: Patient L., 53 years old. Angiomyomyoma of the left kidney. Spent 3 sessions lasting 4 minutes each. After passing the tests, a decrease in the size of the seal was observed. The results of the repeated tests six months after the sessions showed a further decrease in the size of the seal.

Example No. 3: Patient A., 42 years old. After lifting weights began sharp pains in the back. Spent 4 sessions of 7 minutes. It does not hurt anymore. After 2 years, no complaints were observed.

The safety of the device is ensured by the fact that the ionizing electrode is in a stationary position at a sufficient distance from the patient, and passive electrodes in contact with the human body have zero potential, since they are grounded. In addition, due to the synchronous effect of passive electrodes on certain parts of the body, a maximum effect is achieved with a minimum exposure time. The maximum therapeutic effect is also achieved.

by focusing the electric current on the affected areas, which allows for the effect of the flow of aeroions through the skin and on the internal organs.

Claims (5)

1. The device for ion therapy, comprising a control unit and an aeroion generator containing a voltage multiplier connected to a high voltage unit, a modulator configured to set pulses, an ionizing electrode connected through a resistor to the output of the voltage multiplier, characterized in that the control unit contains a programmable processor wherein the device further comprises a switch, the output of which is connected to at least two passive electrodes. 2. The device according to claim 1, characterized in that the ionizing electrode is made in the form of a dielectric hoop with a diameter of 250 mm with fixed needle emitters. 3. The device according to claim 1, characterized in that it contains eight passive electrodes. 4. The device according to claim 1, characterized in that the passive electrodes are made in the form of metal plates and means for their fixation on the patient's body. 5. The device according to claim 3, characterized in that the means for fixing the passive electrodes is made in the form of suction cups.