DE2613894B2 - Inter-frequency current therapy device - Google Patents

Description

The invention relates to an interference current therapy device according to the preamble of claim 1.

Such an interference current therapy device is known from DE-OS 21 59 437.

In the publication "Electrodiagnostic Electrotherapy" (VEB Verlag Volk und Gesundheit, Berlin 1974), pages 11 to 12, stimulus currents for electrotherapy are classified in terms of frequency. In this context, stimulation currents with frequencies between 1000 and 300,000 Hz are understood specifically for so-called medium-frequency therapy, with frequencies below 000 Hz in particular being used in practice. These frequencies can be used particularly advantageously for effective interference current therapy. From DE-OS 562 and DE-AS 2159 437 devices of the type mentioned above are already known specifically for interference current therapy, which use phase shifters for rhythmic phase changes with monostable flip-flops or threshold switches. For example, the phase shifter according to DE-OS 2143 562 comprises a first monostable multivibrator which pulse width modulates the output square-wave pulses of the medium-frequency oscillator as a function of the low frequency of the low-frequency oscillator. In the case of the phase shifter according to DE-AS 21 59 437, on the other hand, the pulse width modulation takes place by rhythmically changing the switching threshold of a threshold switch in time with the low-frequency signal. A sawtooth oscillator is already used here as the medium-frequency oscillator. Two devices have in common that an additional monostable multivibrator is triggered by the one edge of each of the obtained impuisbreitenmodulierten signal whose flip time is to say to half the period of the fundamental wave of the medium frequency oscillator corresponds ^r i. A disadvantage of the devices mentioned is that an exact pulse duty factor of 1: 1 of the additional monostable multivibrator of the respective phase shifter is indispensable for generating the phase-changed square wave. Such an exact pulse duty factor of 1: 1 of the square-wave signals is hardly given, even with a great temporal constancy of the breakover time of monostable timing elements.

The object of the present invention is to train a device of the type mentioned at the beginning.

2> the one that is monostable regardless of the breakdown time Flip-flops can still be obtained exact duty cycles.

The object is achieved according to the invention by the features specified in claim ϊ.

in Further advantages and details of the invention result from the following description of an exemplary embodiment with reference to the drawing with the subclaims. It shows

F i g. 1 shows an embodiment of the invention in

J5 block diagram,

F i g. 2 shows a diagram of the time course of the most important in the basic circuit diagram according to FIG. 1 occurring Tensions.

In FIG. 1 is with 1 a triangular mean frequency oscilloscope

■ tn lator, which generates a triangular voltage U \ at its output with twice the frequency of the mean frequency to be applied to the electrode circuits. This triangular generator 1 is followed by a comparator 2 which compares the output voltage U \ of the triangular generator with the low-frequency voltage of a low-frequency oscillator 3. In FIG. 2, the points of intersection of the two voltages U \ and Lh to be compared with one another are denoted by S. The result of such a comparison is one

thus square wave Lk at the output of the comparator 2, the pulse width of which carries the information of the low-frequency oscillation of the low-frequency oscillator 3 (pulse width modulation). The square wave U _{2 obtained in this way} is now fed separately to a bistable multivibrator 5 or 6, the bistable multivibrator 5 being preceded by an inverter element 4 for generating the inverted voltage Ui . By switching the bistable multivibrators 5 or 6 in time with the pulse sequences Lk or £ / j, the output

bo square-wave signals t / <or U5 with half the fundamental frequency, which are only phase-shifted from one another by a rhythmically changing phase amount φ. In the diagram according to FIG. 2, the cases φι> 0 ° and ψ2 < 180 ° are selected for the phase angle. The steady curve shape desired for interference is obtained by connecting downstream low-pass filters 7 or 8, which only provide the fundamental sine wave of the voltages to the electrode circuits 9 and 10, respectively

Ua or Lh lead. The low pass filters can preferably be active filters, e.g. B. ÄC circuits in connection with operational amplifiers. The low-frequency oscillator 3 can generate a low-frequency voltage with any desired waveform, so z. B. a ί sinusoidal or triangular curve shape. The envelope curve resulting from interference of the output signals at the electrode pairs 9 and 10 then corresponds to this arbitrary curve shape.

1 sheet of drawings

Claims (2)

Patent claims: 1. Interference tronotherapy device with medium frequency currents, with - A sawtooth or triangular oscillator (1) for generating useful currents in the medium frequency range for at least two electrode circuits (9, 10), wherein - At least one of the useful currents in its phase position as a function of the voltage of a Low frequency oscillator (3) is rhythmically changeable, for which purpose - in the connection between the sawtooth or triangle oscillator (1) and one of the electrode circuits (8,9) a flip-flop (5,6) is switched on,
characterized in that - The sawtooth or triangle oscillator (1) has an output frequency that is twice as large as those on the electrode pairs of the electrode circles (9,10) frequency to be applied, - the sawtooth or triangle oscillator with the interposition of a single! Comparator (2) with the electrode pairs of each electrode circuit (9, 10) via a bistable trigger stage (5, 6) connected, where - The single comparator (2) by comparing the output voltage of the sawtooth or triangle oscillator (1) with the voltage of the low-frequency oscillator (3 ) effects a width modulation of the output pulses (U ₂ ), and - The one flip-flop (5) compared to the other flip-flop (6) is switched with a delay in each case by the pulse width of the width-modulated pulses (Lh). 2. Interference current therapy device according to claim 1, characterized in that for the switchover delay one (6) of the two bistable flip-flops directly in time with the pulse-width-modulated output pulses (U ₂ ) of the comparator (2), the other (5), however, in time with inversion of these pulses (Lh) is switched by means of an inverting stage (4) resulting in width-modulated pulses (Ui) .