WO2012030248A1 - Electromagnetic contact-free therapy system - Google Patents

Abstract

The device relates to combined devices combining the functions of a mobile telephone or pocket PC, or a communicator, or an i-phone, or a Smartphone and the functions of devices from the medical technology field, specifically electromagnetic therapy devices which are used for stimulating a human organism with a weak low-frequency modulated electromagnetic field for physiotherapy. The technical result is a reduction in the influence of the radiation of the mobile connection on the user while maintaining all of the properties of the physiotherapeutic effect and improving the qualities thereof. The claimed technical result is achieved by incorporating a unit, which carries out all of the functions of an electromagnetic contact-free therapy device, which functions in frequency ranges of 0.01 - 900 000 Hz, in increments of 0.1 Hz, into the external body of a radiating device, and which functions separately by wireless Bluetooth connection from a device of the mobile phone or pocket PC, or communicator, or i-phone, or Smartphone type.

Description

 SYSTEM OF ELECTROMAGNETIC NON-CONTACT THERAPY

DESCRIPTION

The device relates to combined devices combining the functions of a mobile phone or PDA, or communicator, or i-Phone, or smartphone and the functions of devices from the field of medical technology, namely devices

electromagnetic therapy, which are used to stimulate the human body with a weak low-frequency modulated electromagnetic field for

physiotherapy.

 A device is known for generating a magnetic field with a duplicated system and an anti-interference device (patent DE 4238745). The device is intended for magnetic therapy with a strong local magnetic field, and then distributed over the surface with a weak magnetic field. In the description there is the property of the mattress to create a strong concentrated magnetic field for a short time and a weak uniform field for a long time. Coils are controlled by current generators. A strong concentrated magnetic field creates disturbances in energy-information homeostasis, which is dangerous for cancer. The disadvantage of this solution is also the need to wear this device, the inconvenience of its use in everyday life. This is expressed in the fact that the device can be turned on and used only for physiotherapy in strictly specific places of the body, since its effect is limited to 0.5 meters. Therefore, in order to influence the device on the legs, arms, head or body, it is necessary to specifically spend time on physiotherapy and apply the device to the desired part of the body. In addition, it is quite inconvenient, due to the bulkiness of the device.

 A device for electromagnetic non-contact therapy (patent RU 2132707), containing a current generator and a control device, bedspread, in the upper

the fabric layer of which has a shielding mesh, a second antenna is made of copper wire, characterized in that an electric pulse generator in the frequency range 0.2 - 10.0 Hz, a modulator, a matching device and a modulation frequency indicator are inserted into it, while the current generator is made in the form of a sound generator frequency, the output of which is connected through a matching device with an antenna made in the form of a spiral, the control device is connected to the indicator and to the electric pulse generator in the frequency range 0.2 - 10.0 Hz, the last of which is connected through the modulator to the sound frequency generator.

The disadvantage of this solution is the need to wear this device, the inconvenience of its use in everyday life. This is expressed in the fact that the device is

the ability to include and use only for physiotherapy in strictly specific places of the body, since its effect is limited to 0.5 meters. Therefore, in order to act on the legs, arms, head or body with the device, it is necessary

specifically spend time on physiotherapy and apply the device to the desired part of the body. In addition, it is rather not convenient, due to the bulkiness of the device. Therefore, use the device without interruption from the main human activity

impossible.

 The closest analogue is "LOW FREQUENCY METHOD

ELECTROMAGNETIC THERAPY AND DEVICE FOR ITS IMPLEMENTATION "(patent RU 2164424). The solution is selected for the prototype. The method of electromagnetic therapy,

including exposure to a pulsed electromagnetic field with a strength of 0.1 V / m ² , characterized in that it affects biological active points and biologically active zones of the human body, with a repetition rate of radio pulse packets of 0.1 - 100 Hz and a discrete of 0.01 Hz, and carrier frequency

the electromagnetic field is in the range from 10 to 15 kHz. A device for electromagnetic therapy, comprising an antenna device and a power source, characterized in that a control keyboard, a liquid crystal display, an antenna matching device, a stabilizer, the input of which is connected to a power source, a microprocessor controller, outputs connected to a control keyboard, and a liquid crystal display are inserted into it to display

parameters of the treatment program to be performed and to the matching device with the antenna device, the output of which is connected to the antenna, while the microprocessor controller is capable of storing up to 1000 treatment programs in memory, in each program up to 20 frequencies with a working time of 1-4000 s, and

generate pulses with a repetition rate of 0.1 - 100 Hz, modulated by the frequency 10 - 15 kHz. A computer and a unit for interfacing with a computer connected to the controller may be introduced into the device.

 This type of electromagnetic field used in the prototype in radio engineering is known as a particular method of amplitude modulation and is defined as amplitude manipulation. The amplitude-manipulated signal is a packet of radio pulses.

 The spectrum of the radio pulse has a linear structure and has a wide range. When using this modulation method, the body experiences an additional electromagnetic load at the carrier frequency, which in itself does not carry any information for the body and at additional frequencies that differ from the target modulation frequency. The likelihood of resonance phenomena in organs and systems, on which the essence of this method of electromagnetic therapy is based, is sharply reduced, and in some cases generally equal to zero.

The disadvantage of this solution is the need to wear this device, the inconvenience of its use in everyday life. This is expressed in the fact that the device can be turned on and used only for physiotherapy in strictly specific places of the body, since its effect is limited to 0.5 meters. Therefore, in order to act on the legs, arms, head or body with the device, it is necessary

specifically spend time on physiotherapy and apply the device to the desired part of the body. In addition, it is quite inconvenient, due to the bulkiness of the device. Therefore, use the device without interruption from the main human activity

impossible.

 Also the closest analogue is patent RU90991U for a device

electromagnetic non-contact therapy, made with the possibility of displaying on the display the parameters of the ongoing treatment program and comprising: an electric pulse generator in the frequency range from 0.1 to 100 Hz and / or from 0.1 to 10 kHz, an antenna device for transmitting pulses to data frequencies and a matching device with this antenna, a stabilizer, the input of which is connected to a power source, a microprocessor controller, outputs connected to a matching device with an antenna device, the output of which is connected to the antenna for For the transmission of pulses at the above frequencies, while microprocessor the controller is configured to store treatment programs containing a set of frequencies in memory and generate pulses with a repetition rate of OD - 100 Hz and / or 0.1 - 10 kHz, characterized in that the device is located inside the housing of a mobile phone or PDA, or communicator, or an i-Phone containing a board (microcircuit), a battery and a liquid crystal display, a control keyboard, and a microprocessor controller, with outputs connected to a control keyboard and a liquid crystal display of a mobile phone or PDA, or communicator, or i-Phone, and as a power source

stabilizer, use the battery of a mobile phone or PDA, or a communicator, or i-Phone.

 The device allows for physiotherapeutic effects without interruption from the main human activity.

 The disadvantage of this solution is that the frequency of the radiation of mobile communication affects the emitting pulses and reduces the quality of physiotherapy

exposure. In addition, the radiation of mobile communications is harmful to health when the device is in direct contact with the human body, and it is necessary for therapeutic effect.

 In addition, this solution also uses the principle of physiotherapy, based on the prototype of the patent RU 2164424 and, accordingly, this device has the same disadvantages in that the spectrum of the radio pulse has a linear structure and has a wide range. When using this modulation method, the body experiences an additional electromagnetic load at the carrier frequency, which in itself does not carry any information for the body and at additional frequencies that differ from the target modulation frequency. Probability of occurrence

resonance phenomena in organs and systems, on which the essence of this method of electromagnetic therapy is based, is sharply reduced, and in some cases generally equal to zero.

 EFFECT: reduction of the effect of mobile communication radiation on the user while maintaining all the properties of the physiotherapeutic effect and improving its qualities.

The claimed technical result is achieved by embedding the unit, performing all the functions of the electromagnetic contactless therapy device, operating in the frequency ranges OD - 900000 Hz with a resolution of 0.01 Hz, into the outer casing of the radiating device, which operates separately according to

Bluetooth wireless connection from a device such as a mobile phone or PDA, or communicator, or i-Phone, or smartphone.

 A non-contact electromagnetic therapy system comprising a mobile communication device and a device for electromagnetic exposure, having: an antenna

a device, a device for matching with an antenna, a step-up voltage converter, the input of which is connected to a power source, a microprocessor controller, outputs connected to a liquid crystal display; A mobile communication device having: a battery, a display, a Bluetooth emitter, a board (microcircuit), configured to display on the display the parameters of an ongoing treatment program, characterized in that the device for

electromagnetic exposure contains a synthesizer (DDS) made with

the possibility of issuing sinusoidal (harmonic) signals with an OD frequency of 900,000 Hz with a resolution of 0.01 Hz, a single-band signal shaper (SSB) with amplitude modulation with one side lower or upper band (SSB) with a voltage of V V / m ² and a carrier harmonic frequency from 20 to 30 MHz, modulated by sinusoidal (harmonic) signals, and

a single-band signal generator (SSB) is connected by its input to the output of the frequency synthesizer, and the microprocessor controller outputs are connected to the frequency synthesizer to control the parameters of the modulating signals generated by the synthesizer, the device for electromagnetic exposure also contains a Bluetooth receiver connected to the microprocessor controller and configured to pick up signals from a Bluetooth emitter in a mobile communication device whose function is to transmit to the device for electromagnetic Impact of signals for the formation and emission of pulses of a given repetition rate within the above range.

In addition, in the housing of the device for electromagnetic exposure, a socket for connecting an external antenna is made, connected through a matching device with a microprocessor controller. Reducing the impact of mobile communication on the user is achieved by removing the mobile communication device from the user at a further distance. In the prototype RU90991U, it is essentially required to apply the mobile device to the affected area of the body.

 Improving the quality of the physiotherapeutic effect is also ensured by removing the mobile communication device from the unit performing the physiotherapeutic effect at a farther distance, as well as by excluding the carrier frequency from the signal during the radiation process.

 An electromagnetic therapy device can be implemented by analogy with how the device in the prototype RU90991U works, with the exception that instead of

amplitude modulation distributing a spectrum of signals in the form of a packet

radio pulses, the claimed device uses digital modules

frequency synthesizer and SSB signal shaper, with the help of which it is possible to obtain a signal with a suppressed carrier and one side band from an amplitude-modulated signal using known methods (phase or filter method) and devices such as SSB shaper.

 The amplitude and phase spectrum of the signal with amplitude modulation of a harmonic carrier ω, a harmonic signal Ω generated by a digital frequency synthesizer (DDS) is shown in FIG. 1.

 This can be done due to the fact that the carrier and modulating frequency signals are supplied to the balanced mixers of the SSB signal shaper each with a phase shift of 45 degrees. At the same time, at the output of the mixers, a single-band signal with suppressed carrier and an undesirable side band is obtained. The choice of the necessary band (upper or lower) is carried out by switching the branches of the phase shifters. In this case, the signal spectrum has the form shown in Fig.2.

 The absence of a carrier frequency signal in the SSB signal, as well as one of the sidebands, makes it possible to use all the power of the transmitting equipment to transmit only the useful signal. The energy gain given by the transition from AM (as in the prototype RU 2164424) to SSB (as in the claimed solution) is 4 times in power or 2 times in voltage. This is explained as follows.

The amplitude of the modulating signal with AM modulation imod = Urn cos 2nFt, where Um— signal amplitude value; F is the oscillation frequency; t is time. Oscillations of the carrier (modulated) frequency change according to the law U = Urn (t) cos2nfH t, (1)

where Um is the amplitude value; tn is the value of the carrier frequency.

In the process AM, the amplitude of the carrier frequency changes according to the law

Um (t) = UmO + AUmcos2nFt, (2)

where UmO is the amplitude of the unmodulated oscillation; AUm = Ka.m itmod (here Ka.m is the transmission coefficient of the modulation device).

 Substituting Um (t) from expression (2) into formula (1), we obtain

 U = UmO [cos2nrHt + m / 2cos2n (fH - F) t + m / 2cos2n (fH + F) t], (3)

where m = AUm / UmO is the amplitude modulation coefficient.

 If the amplitude of UmO is unknown, then the modulation coefficient

m = (Umax - Umin) / (Umax + Umin).

 It can be seen from (3) that only two sidebands carry information: UmO * m / 2cos2n (fH - F) t and UmO * m / 2cos2Ti (fH + F) t. With a modulation coefficient of m = 1, the total

the amplitude of the two sidebands is equal to the amplitude of the carrier, i.e. amplitude

the modulated signal is 2 times more than the informational components of its spectrum.

 With single-band modulation with one sideband, useful information is not lost, since the lower and upper sidebands are absolutely identical, and the carrier frequency does not carry information. In this case, the amplitude of one sideband differs from the amplitude of the modulated signal by 4 times.

 Thus, the advantage of the signal according to the claimed invention is higher than in the prototype 4 times in power and 2 times in voltage, because power versus amplitude is quadratic.

 The impact of the device is based on resonance phenomena, and not on forcing organs to perform functions not inherent to them. That is why it is impossible to overdose or cause an exacerbation of the disease with devices of electromagnetic therapy. If the introduced frequency causes resonance, then the body needs it and there is a therapeutic effect. If there is no resonance, then there is no curative effect. And as a consequence of this, it is impossible to harm this device.

However, due to the narrowing of the spectrum band of the emitted EMF (in comparison with prototype) manages to increase the signal-to-noise ratio. An additional electromagnetic load on the body is removed and, most importantly, the probability of resonance phenomena in the organs and systems of the body increases sharply, i.e. the rendered physiotherapeutic effect increases.

In FIG. 3 shows a block diagram of a system in terms of a device for electromagnetic exposure, where 1 is a non-contact electromagnetic therapy device, 2 is a power source, 3 is a step-up voltage converter, 4 is a microprocessor controller, 5 is a Bluetooth receiver, b is a matching device, 7 is an antenna for transmitting pulses at frequencies of 0.1 - 100 Hz or OD - 10 kHz, 8 - socket for an external antenna, 9 - plug for inclusion in the antenna socket, 10 - external antenna, 11 - mobile communications device, 12 - frequency generator with direct digital synthesis (DDS) the output of sinusoidal (harmonic) signals with a frequency of 0.1 - 900000 Hz with a resolution of 0.01 Hz, 13 - a single-band signal shaper (SSB) with amplitude modulation with one side lower or upper band (SSB) of 0.1 V / m ² and a carrier harmonic frequency from 20 to 30 MHz.

 In FIG. 4 shows a block diagram of a system in terms of a mobile communication device, where 14 is a display, 15 is a battery, 16 is a Bluetooth emitter, 17 is a board (microcircuit).

In FIG. 5 shows the principle of the possible use of the system, where 18 is the user, 19 is the heart stimulator, 20 is the heart.

 In the housing (11) of a mobile device (see Fig. 3, Fig. 4) (for example, a cell phone or PDA, or communicator, or i-Phone, or smartphone) through a board (microcircuit) (17) using control commands from a mobile devices (11), through the Bluetooth emitter (16), signals (commands) are sent to the Bluetooth receiver (5) to start certain frequencies of a given set of frequencies.

 Control from a mobile device (11) can be carried out by the user via a keyboard (not shown in the drawings) and a display (14) or a touch screen.

 In the mobile device (11), the user selects certain programs

physiotherapeutic effects, each of which is characterized by a given set of frequencies in the range of 0.1 - 100 Hz and / or 0.1 - 10 kHz. After the receipt of signals for the choice of a program through the receiver (5) Bluetooth in the electromagnetic device of non-contact therapy (1), the signals are sent to the microprocessor controller (4).

 The program can consist of one or several frequencies in the range of OD - 900000 Hz with a resolution of 0.01 Hz. For each frequency, a time is set, for example, in the range from 1 to 4000 s. The microprocessor controller (4) remembers the entered program. The number of programs that the microprocessor controller (4) remembers and stores depends on the memory on the memory size of the microprocessor device or additional memory that may contain the device (1) for electromagnetic exposure. After that, the user takes the device (1) for electromagnetic exposure and directs it with an antenna (7) to the biologically active zone.

The treatment program is carried out automatically at the command of the main mobile device (11) control.

 The microprocessor controller (4), executing a given program, activates the digital frequency synthesizer modules (12) and the SSB signal shaper (13), with the help of which it is possible to obtain a signal with a suppressed carrier and one sideband from an amplitude-modulated signal using known methods ( phase or filter method) and devices such as an SSB driver in the frequency ranges made with the possibility of generating sinusoidal (harmonic) signals with a frequency of 0.1 - 900000 Hz with a resolution of 0.01 Hz with filling the sound frequency. These signals are supplied to the matching device (6) and through it to the antenna device (7).

 At the end of the specified program, the device for electromagnetic exposure (1) will automatically stop supplying signals as soon as the Bluetooth signals stop coming to it from the main mobile device (11).

Physiotherapeutic effects are not based on forcing organs to perform non-characteristic functions. That is why instruments

electromagnetic therapy cannot overdose or cause an exacerbation of the disease. And as a consequence of this, it is impossible to harm this device.

As a device, the details of which can be used as an electromagnetic therapy device, you can use, for example, a portable device "DETA" [http://www.deta7.ru/pract_deta], developed on the basis of a combination of modern world experience of achievements in the field of human exposure to specific frequencies according to the methods of Dr. Clauss (Hanau), Dr. Neske (Frankfurt) and Dr. Voll (Plochingen ), C. Silling, O. Collmer, Paul - Schmidt and the method of exposure to weak electromagnetic fields.

Clinical trials of this device proving it

effectiveness in the treatment of various diseases are presented on the site [1].

From the device are removed: display, keyboard, synthesizer. Due to this, the dimensions of the device (1) for electromagnetic exposure will become more compact.

An addition to the case is only a Bluetooth receiver (5), a digital frequency synthesizer (12) and an SSB signal shaper (13).

 Also, a socket (8) for an external antenna can be integrated in the device (1), into which a plug (9) can be inserted and an external antenna (10) can be connected.

An external antenna (10) allows you to conduct a physiotherapeutic effect more efficiently and purposefully, for which it is enough to attach it or fix it near the part of the human body that needs to be affected. If the external antenna (10) is still equipped with Velcro, fixing straps or other fastening device, then holding the antenna (10) on the desired part of the body will become even simpler.

 The display on the display screen (14) of the mobile device (11) of information from the electromagnetic non-contact therapy device can be implemented, for example, alternately with displaying the status information of a mobile phone or PDA, or communicator, or i-Phone.

 The function of the mobile device (11) in addition to its main function is also to select a program at the user's command and, depending on the program choice, send one or another signal to the device (1) for electromagnetic exposure, which produces

formation and emission of certain frequencies of the range.

In other words, the mobile device (11) does not generate and does not emit frequencies of 0.1 - 900000 Hz with a resolution of 0.01 Hz, this is done only in the device for electromagnetic exposure (1), which eliminates the reduction in quality physiotherapeutic effects and the negative effects of radiation from a mobile device on a person.

 Since almost any mobile device (11) that has the functions of transmitting signals via Bluetooth, whether it is a cell phone or a PDA, or a communicator, or an i-Phone, or a smartphone, allows any information to be transmitted via Bluetooth, then it can be transmitted to the device for electromagnetic exposure (1) information in the form of a text file can be transmitted.

 The simplest example of execution is the transmission via Bluetooth of a text file with a code. The command to launch a particular program is activated upon receipt of a given cipher corresponding to a particular program embedded in the microprocessor controller (4). The code can be sent manually by the user. For example, on the user's mobile device (11), the latter saved, formed, or received several text files with the code through the telecom operator or via the Internet. By sending via Bluetooth to a device for electromagnetic exposure (1) a certain file with a certain name corresponding to some physiotherapy program, the user runs this program in it.

 The advantage of the system is the advantage that the user (18) (see Fig. 5), without limiting his life, can simultaneously use a mobile device (11) and carry out physiotherapeutic effects on any part of his body by applying an electromagnetic exposure device ( 1) or its external antenna (10). The use of an external antenna (10) is advisable, for example, in cases where the effect is desirable with a greater intensity or with a lesser effect on other devices, for example, stimulators (19) of the heart (20), the location of emitters and other

electromagnetic devices are contraindicated. The radiating antenna (10)

no negative effect on the stimulator (19).

Information sources:

 1.http: //www.detaplus.ru/ru/documents/clinical_acts.php

Claims

FORMULA

1. The electromagnetic non-contact therapy system containing the device

 a mobile communication device for electromagnetic exposure, having: an antenna device, a device for matching with an antenna, a step-up voltage converter, the input of which is connected to a power source, a microprocessor controller, outputs connected to

 liquid crystal display; A mobile communication device having: a battery, a display, a Bluetooth emitter, a board (microcircuit) configured to display the parameters of an ongoing treatment program, characterized in that the electromagnetic exposure device comprises a synthesizer (DDS) configured to issue

sinusoidal (harmonic) signals with a frequency of 0.1 - 900000 Hz with a resolution of 0.01 Hz, a single-band signal shaper (SSB) with amplitude modulation with one side lower or upper band (SSB) of 0.1 V / m ² and the carrier harmonic frequency from 20 to 30 MHz, modulated by sinusoidal (harmonic) signals, and the single-band signal shaper (SSB) is connected by its input to the output of the frequency synthesizer, and the microprocessor controller outputs are connected to the frequency synthesizer to control the parameters of the generated s tezatorom baseband signals, and for electromagnetic exposure device comprises a Bluetooth receiver coupled to the microprocessor

 a controller and configured to pick up signals from a Bluetooth emitter in a mobile communication device, the function of which is to transmit signals to a device for electromagnetic influence to generate and emit pulses of a given repetition rate within the above range.

 2. The electromagnetic non-contact therapy system according to claim 1, characterized in that a socket for connecting an external antenna is made in the housing of the device for electromagnetic exposure, connected via a matching device to a microprocessor controller.