CS252197B1 - Impulse magnetotherapeutical apparatus connection - Google Patents

Abstract

The present invention relates to a pulsed magnetotherapeutic circuit medical devices screamed in healthcare. The essence of the solution lies in that the first capacitor is connected via a limiting circuit to a rectified source the AC current is discharged into the coil adjustable timing cycles circuit which is connected with the first diode to the thyristors with which it creates a functional unit allowing creation the desired impulse shape, regulating its frequency and using the intensity adjustment switches pulsed magnetic field generated coil. Pulse Magnetotherapeutic devices can be used for medical purposes in health service.

Description

The solution relates to the involvement of a pulsed magnetotherapeutic device for medical spikes in the healthcare sector.

The closest known solution of the magnetotherapeutic device is the description of the invention for the CS certificate 214 326 - connection of the pulse magnetotherapy device. The essence of this device is that single periods or groups of AC periods of 50 Hz mains frequency are sent directly to the coil of the iron-core electromagnet by means of a switching and timing element which controls the power switching element. The disadvantage of this solution is that the shape of the pulse on the solenoid coil is given by the used part of the sinusoid of the 50 Hz mains frequency, that in the case of control pulse wider than 20 ms 50 Hz, in addition to the frequency change, there is no possibility of regulating the intensity of the formation of ¹ ého magnetic field. Other disadvantages of this device are the limited frequency control given by the frequency division of 50 Hz only, a very heavy and difficult to handle coil of the iron core electromagnet, and finally the disproportionate technical and material resources spent on realizing the device of these properties.

The above-mentioned drawbacks are eliminated by a magnetotherapeutic device according to a solution consisting of a rectifier circuit, to which a positive output terminal is connected a first terminal of a limiting circuit, to a second terminal of which a first terminal of a first capacitor is connected together with a first terminal of a coil. The second coil terminal is connected to the anode of the thyristors, the control electrode of which is connected to the first diac terminal and the cathode to the second terminal of the second capacitor. A second terminal of the first capacitor and a negative rectifier circuit terminal are simultaneously connected to this terminal. The second terminal of the diac is connected to the first terminal of the second capacitor. A second fixed resistor terminal is connected to the second coil terminal simultaneously with the cathode of the second diode. The second terminal of the fixed resistor is connected to the first and middle terminals of the variable resistor, the second terminal of which, together with the anode of the second diode, is connected to the first terminal of the second capacitor. The first diode in the reverse direction is connected in parallel to the thyristors.

The solution achieves a higher effect in particular by discharging the charge of the first capacitor into the coil produces a steep magnetic pulse given by the opening speed of the switching element and the inductance of the coil, the rule being that the steeper the steeper the smaller the inductance. Values of several units up to tens of mH have proven to be sufficient for practical use, and therefore the coil can be air-shaped, can be shaped according to medical needs and can be loosely applied to a lying patient or slipped onto his / her limbs. A large magnetic field gradient is an important factor in the effectiveness of magnetotherapy. The first diode connected with preferably reversed polarization in parallel to the switching element contributes to the balanced magnetic balance of one pulse. A further advantage of the solution is the use of a timing circuit which allows continuous regulation of the pulse frequency within the recommended range, and in particular by connecting a second diode which discharges the second capacitor during switching of the switching element, a considerable range and stability of the set frequency is achieved. The advantage of controlling the pulse width and thus the magnetic field strength is provided by the choice of the size of the first capacitor.

The accompanying drawings show the possibilities of individual embodiments of a pulsed magnetic therapy device. The embodiment of Fig. 1 illustrates the wiring of a pulsed magnetic therapy device for general, general medical use. Fig. 2 is a single-purpose type of apparatus;

The rectifier circuit 2 is connected by a positive terminal to the first terminal of the limiting circuit 3, to the second terminal of which the first terminal 4 of the first capacitor 1 is connected together with the first terminal of the coil 5, the second terminal of which is connected to the anode of thyristors 6. to the first terminal of the diac 14 and the cathode of the thyristors 6 to the second terminal of the second capacitor 11, to which the second terminal of the first capacitor 1 and the negative output terminal of the rectifier circuit 2 are simultaneously connected. coil 5 is connected to the first terminal of the fixed resistors 10 simultaneously with the cathode of the second diode 13. The second terminal of the fixed resistors 10 is simultaneously connected to the first and middle terminals of the variable resistors 10 '. 11. K thyristors B is parallel at the first diode 9 is connected in the reverse direction.

The circuit works by applying the AC voltage rectified by the rectifier circuit 2 to the first capacitor 1 via the limiting circuit 3. At the same time, this voltage is applied to the coil 5 and the fixed and variable resistor 10, 10 * and to the second capacitor 11 the switching voltage of diac 14, which at this point opens the thyristor

6. The first capacitor 1 discharges into the coil 5, the voltage on the first capacitor 11 is dissipated by the second diode 13, the first diode 9 causes a flicker on the coil and the whole cycle is repeated with the frequency given by the setting of the variable resistors 10 *. The limiting circuit 3 is designed according to the embodiment of the device so that the currents passing at the moment of switching on the ristor 6 in the positive half-period of the AC supply voltage do not generate an additional pulse on the coil 5.

The solution can be used to apply magnetotherapy in healthcare. Among the advantages not mentioned yet, it is possible to mention among others good handling possibilities of the device. The advantage of low weight, size and portability is particularly useful in medical facilities with limited space. Another advantage of the device is the low cost of its production and thus also the low purchase price of non-investment character allowing its considerable expansion in medical facilities. The use of magnetotherapeutic devices in health care brings considerable savings in medicaments, but especially in costs associated with treating a patient, incapacity for work and loss of productivity in production.

Claims (1)

Subject Connection of a pulsed magnetic therapy device for pulsed magnetic field treatment consisting of a rectifier circuit to which a positive output terminal is connected to a first terminal of a limiting circuit, to the second terminal of which a first capacitor terminal is connected with a first coil terminal the control electrode of which is connected to the first diac and the cathode of the second capacitor, to which the second capacitor is connected and the negative rectifier output terminal is connected, the second diac is connected to the first capacitor, wherein the second terminal of the coil (5) is connected to the first terminal of the fixed resistor (10) simultaneously with the cathode of the second diode (13), the second terminal of the fixed resistor (10) is connected to the first and middle terminals of the variable resistor (10 *) the second terminal, together with the anode of the second diode (13), is connected to the first terminal (12) of the second capacitor (11), the thyristor (6) being connected in parallel to the first diode (9) in the reverse direction.