DE2061031A1 - Method for generating vibrations - Google Patents

Description

Method for generating vibrations The invention relates to a Method for generating vibrations, method for generating electrical or electromagnetic vibrations are known, they are used for example Triggering of magnetic fields generated, continuously pulsating magnetic fields are used for this with adjustable field strength or itiythmically intermittent magnetic fields with Pulse follow a fixed or variable frequency, That's how you know an electrical device for generating continuously pulsating magnetic fields that serve to act on living beings, the magnetic fields having a field strength between 30 - 60 Oersteds and the pulse trains have a frequency of either 50 or 100 Hz It has been shown that, for example, plants that have such If exposed to treatment, they will thrive much faster and more vigorously than untreated ones Plants, too, have been observed to have low-frequency magnetic fields generated by electrical Vibrations are triggered, have an irritating effect on people and animals, which stimulates cell activity and, if necessary, can be used for therapeutic treatment can, The invention is based on the object of vibrations with arbythmic pulse trains to produce, This object is achieved according to the invention in that several periodic determination pulses follow different period lengths and pulse widths are generated and from these a resulting pulse train is derived, whose Pulse edges, zeB, the front ones, are determined by the transition from one at the same time the present impulse-free state of all determination impulse sequences in a state, in which there is at least one pulse of the determination pulse trains, and the other Pulse edges, z, B, the backward, are determined by the transition from one State of the determination pulse trains in which there is at least one pulse, in a state in which all pulse trains are pulseless, the determination pulse trains are made in such a way that a resulting ariuthmic pulse sequence arises, Such Arrhythmic impulse follow have the advantage that -in contrast to rhythmic ones Follow - the living beings get used to the impulse follow does not take place, so that the treatment can be made more effective, in order to generate this impulse follow pulse generators are provided according to the invention, the outputs of a logic circuit are pressed, which is designed so that one at the same time If one or more pulses are present, the determination pulse sequences of an output signal generated at the same time. According to an advantageous embodiment, the logical The circuit can be designed as an AND circuit or as an OR circuit, At least three should be used to generate the resulting arrhythmic pulse train Determination pulse trains may be provided, Further advantages and features of the invention result from the following description in connection with the attached The drawing shows: FIG. 1 a schematic representation of three rectangular ones Determination pulse trains a, b, c, leading to a resulting arrhythmic pulse sequence d are superimposed, Fig. 2 is a block diagram of a device for generating followed by arrhythmic impulses, Fig. 3 is a schematic diagram of the Current source, Fig. 4 is a basic circuit diagram of the stabilized voltage source, Fig. 5 shows a basic circuit diagram of the monostable multivibrator with isolating stage, FIG Basic circuit diagram of the AND circuit, FIG. 7 is a basic circuit diagram of the OR circuit.

In Fig, 1, the superposition of the pulse trains is shown schematically, With a, b, c are rectangular determination pulse sequences of the same amplitude, however different period or pulse duration reproduced by means of generators MV 1, MV 2 and MV 3 generated determination pulse trains have, for example, the following Period and pulse or pause duration: generator period pulse duration pause duration MV 1 a) 1.25 s 0.45 s 0.8 s MV 2 b) 5 s 1.5 s 3.5 s MV 3 c) 9.5 s 3 s 6.5 s The resulting Pulse sequence d shows no rhythmic repetition. Such is the earliest expected after several minutes, registrations of the square-wave voltage pulse train d over periods of 3 min each did not reveal a repetition, Man recognizes that the gaps in the resulting pulse train are determined by the simultaneous Occurrence of gaps in all determination pulse trains 0 As can be seen from the block diagram according to FIG. 2, the device is used for generation the vibrations essentially from the following main units A of the power source, which contains a controllable full-wave rectifier, B the control unit, the one stabilized DC voltage as well as various square-wave voltages for control generated by the power source, C the selector switch unit for selecting the operating mode and the current load of the impulse follow, D the treatment circle, which consists of different Solenoid coils and in which the electrical pulse trains in corresponding magnetic pulse trains are converted The basic circuit diagram of the power source can be seen from Fig. 3, The network transformer Tr, l possesses a split secondary winding and is provided with a grounded shield 4 to protect the treatment circuit against Mains contact provided, the secondary voltage is 60 Veff and is therefore - also negligent contact - harmless, a second secondary winding 5 (6 V 4 A) supplies the power for the signal lamps, Be used as a rectifier controllable silicon diodes (thyristors) Th 1 and Th 2 of type T3N3COO are used, only when a positive voltage is applied to the ignition electrode in the forward direction become conductive, this is a simple and efficient way of controlling the Given treatment streams.

The thyristors used have limit values (peak reverse voltage = 300 V; Continuous limit current = 3 A>, which is far above the operating conditions prevailing in the device lie, whereby a sufficient safety factor is ensured, while Si 1 (0.6 A, slow) represents the usual mains fuse, the fuse protects Si 2 (315 mAs medium time lag> the two thyristors in the event of a gross operating error (e.g. short-circuiting the consumer connection). Both backups are from the Front side of the device accessible and thus easily exchangeable, the in the blocking direction Diode D 1 (type BU 127) connected to the output sockets eliminates the voltage peaks, which arise when the magnetic field is reduced in the coils of the treatment circuit, If one of the two thyristors Th 1, Th 2 is connected to the ignition electrode, a suitable If positive voltage is applied, the mains frequency is half-wave rectified; the consumer (treatment circuit) is a pulsating current with a pulse train of 50 Hz, the same voltage is applied to the ignition electrodes of both thyristors supplied, there is a full-wave rectification of the mains frequency and the consumer a pulsating direct current with a pulse train of 100 Hz is available posed. When this control voltage is switched off, the thyristors immediately switch to the Blocked position back, since the holding current of the same as each positive half-wave subsides is not reached, in view of the highly inductive load of the treatment circuit this is not easily achievable. For this purpose, the following are described Circuits (in an advantageous manner) ~ provided, The generation of the arrtthmischen Square wave control voltage using purely electronic means is connected to a Control device B allows, which consists of the following units shown in Fig. 2: 2.1 an electronically stabilized voltage source (SSQ) in conventional design (Fig, 4) with series regulation, 2.2 three square wave voltage generators MVI, MV2 and MV3 (Multivibrators with subsequent separation stages) those shown in FIG Correspond to the circuit diagram.

2.3 of a wOder "circuit (Fig, 7 ', 2.4 of a flip-flop" circuit FF with dynamic control and 2.5 a WUnd circuit (Fig. 6), the stabilized The voltage source supplies a constant DC voltage of 10 V, which is used for the control of the thyristors during the generation of the pulse follow either 50 or 100 Hz and continuously pulsing magnetic fields with adjustable field strength (approx 30 to 60 oersteds).

The three multivibrators MV1, MV2 and MV3 generate square-wave voltages same amplitude but different period or pulse and pause duration, The ratio of pulse duration / pause duration can be set within wide limits with R 7 (FIG. 5) set, in order to avoid mutual entrainment, each of the three multivibrators fed from its own power supply unit. The terminal voltage of these units is 4.7 V and is kept constant at - 1% with the help of a Zener diode, The subsequent separation stages are derived from the voltage source mentioned under item 2.1 fed.

The flip-flop circuit FF works together with the wUnd "circuit the control criteria for the automatically alternating assignment with 50 Hz and 100 Hz of the arrhythmic intermittent magnetic fields.

At the input of the flip-flop is the one supplied by the "or" circuit Square-wave voltage fed in (see also Fig. 2), by differentiating the step function At the RC element, the positive edges of the rectangular voltage train become needle pulses When each needle pulse occurs, the flip-flop is out of his current situation ge]> i.ppt, Since in the present circuit only one If the output of the classic flip-flop is used, this arrangement works like a binary counter, i.e. only every second input pulse is output evaluated, the subsequent "And" switch 2.5 receives on the one hand that of the NOder "circuit supplied square wave voltage and on the other hand that at the output of the "flip» flop "generated slower alternating square wave voltage, A positive voltage can only be taken from the output of the wUnd "circuit, if both input signals are present at the same time, the "OR" circuit is used emitted square wave voltage of the ignition electrode of a thyristor and that of the square wave voltage resulting from the "and" circuit to the other thyristor is generated in this way the power source rhythmic or arrhythmic power surges with alternating occupancy of 50 Hz and 100 Hz, the device described is very robust and practically wear-free. It therefore has a long service life. Should repairs be necessary, a quick and easy replacement of the damaged components is possible, since the individual units are expediently designed as plug-in units, since none mechanically or electromechanically operated contacts, such as relays, contact rollers and the like. Are present, the operation is noiseless, which is a therapeutic Application is advantageous

Claims (1)

Claims 1. A method for generating vibrations, thereby characterized in that several periodic determination pulse trains are different Period length and pulse width are generated and a resulting one from these Pulse sequence is derived, whose pulse edges, z, B, the front, determined are due to the transition from a simultaneous impulse-free state all determination pulse trains in a state in which at least one pulse of the determination pulse trains and their other pulse edges, e.g. the backward, are determined by the transition from a state of the determination pulse trains, in which at least one pulse is present, in a state in which all pulse trains impulse are loose, the determination impulse sequences are made so that a resulting arrhythmic pulse sequence arises, 2, method for generating the Pulse trains according to Claim 1, characterized in that pulse generators are provided are, the outputs of which are impressed on a logic circuit which is designed in this way is that when one or more impulses are present at the same time, the Determination pulse sequences generate an output signal at the same time, 3rd method according to claim 1 or 2, characterized in that at least three determination pulse trains are provided. 4. The method according to claim 2, characterized in that the logical Circuit is designed as an AND "or wOR" circuit. 5, method according to any one of the preceding claims, characterized in, that the determination pulse trains for generating arrhythmis ch intermittent Magnetic fields with assignments of either 50 or 100 Hz are provided. 6, the method according to claim 1, characterized in that the of the pulse sequence supplied to the OR circuit is pressed onto a flip-flop circuit on the one hand and on the other hand together with the voltage generated at the output of the flip-flop circuit is fed directly to the AND circuit.