HU198131B - Device for magnetotherapy - Google Patents

Abstract

A generator produces a sinusoidal modulating voltage which is fed with a voltage-frequency convertor output signal to a multiplexer. The latter also receives a second output signal from the convertor and a signal from a control unit. The multiplexer output signal is fed to the input of a modulator. A linearly variable carrier voltage generator is connected to a second voltage-frequency convertor and a frequency meter. One output of the second convertor goes via a sinusoidal carrier voltage generator and also directly to a second multiplexer. A second output of this convertor also goes to the second multiplexer, which receives an output signal from the control unit. - The output of a buffer amplifier is fed through a tuner to an inductor which is also connected to the control unit. The output of the second multiplexer is fed to the modulator, and the control unit is driven by a programmable timer.

Description

The present invention relates to a device for magnetotherapy which has a significant analgesic, trophic (anti-inflammatory) and anti-inflammatory action and is useful in medicine.

Known apparatus for tendon therapy having a control unit, the first output of which is connected to a first input of a modulator via a linearly variable voltage function generator, a voltage-frequency converter and a modulating sine voltage-generating unit. The second output of the control unit is connected to the first input of an isolation amplifier. The modulator output is connected to a magnetic field strength measurement unit via an amplifier first input and an inductor. The third output of the control unit is connected via a linearly variable carrier voltage generator to a sine carrier voltage forming unit. The output of the linearly variable sine carrier voltage generator is connected to the second input of the modulator. The output of the linearly alternating voltage generator is connected to a frequency meter. The disadvantage of this known device is that due to the shape of the magnetic field and its limited capabilities due to its operation with a particular type of inductor, its therapeutic (therapeutic) effect is poor.

SUMMARY OF THE INVENTION An object of the present invention is to provide a device with enhanced therapeutic effect for tendon magnetotherapy.

To solve this problem, an apparatus for sinusoidal therapy has been provided which has a sinusoidal carrier voltage forming unit and a control unit, the first output of which control unit is connected to a sine modulating voltage generator via a linearly variable voltage generator and a voltage frequency converter. The linearly alternating voltage generator is connected to a frequency meter. The second output of the control unit is connected to the first input of the isolation amplifier, which is connected to the second input of the isolation amplifier and the modulator output. The third output of the control unit is connected to a linearly variable carrier voltage generator. The device is further provided with an inductor whose output is connected to a magnetic field strength measuring unit. The sinusoidal modulating voltage forming unit is connected to the first input of a multiplexer, the second input of the multiplexer being connected to the output of the voltage to frequency converter. The third input of the multiplexer is connected to the second output of the voltage frequency converter, while the fourth input of the multiplexer is connected to the fourth output of the control unit. The output of the multiplexer is connected to the first input of the modulator. The linearly variable carrier voltage generator is coupled to a second voltage frequency converter and a second frequency meter. The first output of the second voltage frequency converter is led, firstly, to the first input of the second multiplexer through the sinusoidal carrier voltage spooling unit, and directly to the second input of the second multiplexer. Second Voltage Frequency Converter Second 2 '

its output is connected to the third input of the second multiplexer, while the fourth input of the second multiplexer is connected to the fifth output of the control unit. The output of the isolation amplifier is connected via an interface to the inductor input, the second input of which is connected to the sixth output of the control unit. The output of the second multiplexer is led to the second input of the modulator. The control unit A is associated with a programmable time switch.

The device according to the invention has the advantage that it has a greater therapeutic effect than the known device.

The invention will now be described in more detail with reference to the accompanying drawings, in which:

Figure 1 is a block diagram of an apparatus according to the invention.

The first output of the control unit 1 shown in the figure is connected to the first input of a function generator 2 providing carrier signals. The function generator 2 is provided with a linearly variable voltage generator 2.1, the output of which is connected to a frequency meter input 2.2 and a voltage frequency converter input 1. The first output of the voltage frequency converter 2.3 produces a sinusoidal voltage

It is connected to the input of 2.4 units, the output of 2-4 units is connected to the first input of 2.5 multiplexers. The second output of the voltage frequency converter 2.3 is connected to the third input of the multiplexer 2.5. The first output of the voltage to frequency converter 2.3 is also connected to the second input of the multiplexer 2.5. The fourth input of the multiplexer 2.5 is the second input of the function generator 2 providing the carrier signals, which is connected to the second output of the control unit 1. The output of the multiplexer 2.5 is the output of the function generator 2 which supplies the carrier signals and is connected to the first input of the modulator 3. The third output of the control unit 1 is connected to a second function generator 4 providing modulating signals, which is provided with a linearly variable carrier voltage generator 4.1, the output of which is connected to a frequency meter input 4.2 and a second voltage frequency converter input. The first output of the second voltage converter 4.3 generates sinusoidal carrier voltage signals

It is connected to the input of unit 4.4. The output of unit 4.4 is led to the first input of a second multiplexer 4.5. The first output of the second voltage frequency converter is connected to the second input of the second multiplexer 4.5, while the second output of the second voltage frequency converter is connected to the third input of the second multiplexer 4.5. The second multiplexer 4.5 is also provided with a fourth input, which forms the second input of the function generator 4 providing the modulating signals and is connected to the fourth output of the control unit 1. The output of the second multiplexer 4.5 forms the output of a function generator 4 providing modulating signals, which is connected to the second input of modulator 3, which output of modulator 3 is at the second input of isolator amplifier 5,

198 is connected to a second input of 131 units and 8 units measuring magnetic field strength through 7 inductors. The fifth output of the control unit 1 is connected to the first input of the isolation amplifier 5 and the sixth output is connected to the first input of the interface unit 6. The input of the control unit 1 is connected to the output of a programmable time switch 9.

The device according to the invention operates as follows:

The control unit 1 predetermines the mode of operation and the duration of therapy by connecting the programmable timing output 9 to the input of the control unit I.

Through the connections of the third and fifth outputs of the control unit 1 with the first and second inputs of the function generator 2 providing the carrier signals, the frequency and the shape of the carrier wave are changed. By modifying the frequency and shape of the modulating wave through a connection between the first and second outputs of the control unit 1 and the first and second inputs of the second function generator 4 providing the modulating signals. The signals displayed at the outputs of the two function generators 2, 4 may be triangular, rectangular or sinusoidal depending on a predetermined mode of operation in the control unit 1.

The frequency of the function generator 4 providing the modulating signals is in the range 0-100 Hz, whereby the frequency is varied linearly from 0 Hz to 100 Hz and back, from 0 Hz to a frequency value fx and vice versa, over a specified time period T.

The function generator 2 providing the carrier signals is varied gradually and linearly in the range of 500 Hz to 2000 Hz. Depending on the signals connected to the inputs of the modulator 3, amplitude modulating vibration is generated by frequency modulation of the carrier and modulating wave. The amplitude modulation depth is 98%. This oscillation is coupled via the isolation amplifier 5, the amplification of which is controlled by connecting the first input of the isolation amplifier 5 to the fifth output of the control unit 1 to the input of the inductor 7, which produces the magnetic field required for therapy.

By switching the sixth output of the control unit 1 to the first input of the interface unit 6, the control unit 6 is controlled depending on the type of inductor 7 used. Using the frequency meters 2.2 and 4.2, we check the change in carrier and modulating frequency in function generators 2 and 4. The magnetic field voltage is checked with the 8 units.

Claims (2)

Patent Claim Point An apparatus for magnetotherapy having a sinusoidal carrier voltage forming unit and a control unit ve5, wherein the first output of the control unit is connected via a linear variable voltage generator and a voltage / frequency converter to a sine modulating voltage generating unit, wherein: connected to a frequency meter, the second output of the control unit is connected to the first input of an isolation amplifier, the second input of the isolation amplifier is connected to a modulator output, the third output of the control unit is connected to a linearly variable carrier voltage generator and the inductor output is sinusoidal modulator The 2Q voltage generating unit (4.4) is connected to the first input of the multiplexer (4.5), the second input of the multiplexer (4.5) is connected to the output of the voltage frequency converter (4.3), and the third input of the multiplexer (4.5) is connected to the voltage frequency converter (4.3). ) is connected to the second output and the fourth input of the multiplexer (4.5) is connected to the fourth output of the control unit (1), the output of the multiplexer (4.5) is connected to the first input of the modulator (3) and a linear variable voltage generator (2.1). ) connected to a second voltage frequency converter (2.3) and a second frequency meter (2.2), the first output of the second voltage frequency converter (2.3) being, on the one hand, via a sinusoidal fencing unit (2.4) and a first input of a second multiplexer (2.5) second, the second input of the second multiplexer (2.5) the second output of the second voltage frequency converter (2.3) is connected to the third input of the second multiplexer (2.5), wherein the fourth input of the second multiplexer (2.5) is connected to the fifth output of the control unit (1), the isolation amplifier (5). output via interface unit (6) to input of inductor (7) 45, wherein the other input of the adapter (6) is connected to the sixth output of the control unit (1), while the output of the second multiplexer (2.5) is connected to the second input of the modulator (3) and ).