DE562423C - Electromedical apparatus - Google Patents

Description

Electromedical apparatus It is known in electrotherapy to feed two primary coils from a direct current via a commutator in such a way that $ an interrupted direct current flows through the secondary coil. as well is the conversion of alternating current into pulsating direct current with a transformer in a circuit where the one coil of the transformer is split in half and this with a rotating, motor-driven breaker have been proposed in the electrotherapeutic field.

The present invention differs from the known in that $ a commutator feeds the primary coils in opposite directions from a direct current source, the current reversing being driven by a motor and through dead fields of the commutation drum that the secondary winding of the induction apparatus penetrating field alternately receives opposite direction. Through this an alternating current is generated by the direct current source, which is constantly changing Direction through the body or the connected parts of the same., So that $ different and better healing effects with such a simple and portable device possible are.

With this apparatus it is also easy to increase the effect to achieve that, as is known per se, a displaceable iron core in the Induction apparatus provides for connecting or disconnecting elements, increasing the number the brushes, the commutator segments or the revolutions. Can do the same by switching the direct current to be superimposed on the current pulses in order to be in the same Apparatus to apply galvanization and faradization.

Some embodiments according to the invention are in the drawing shown schematically, namely show: Fig. i the general circuit diagram, Fig. Z shows a particular embodiment of the arrangement of the iron core on the induction apparatus, 3 shows an element switch for switching the elements on and off, FIG. Q. and 5 a commutator with three brushes in development and in a schematic axial Opinion, 6 and 7 a commutator with five brushes in development and in view, FIG. 8, a partial diagram of the superposition circuit.

With i and 2, the terminals of the apparatus are designated to which the alternating current is drawn, and with 3 and 4 the windings of an induction apparatus, where 3 is the secondary and 4 is the primary coils. Stand with the secondary coil 3 the terminals i and 2 in connection, the ends of the primary winding 4 lead to the brushes 9 and i o of a commutator 12, and the junction 7 from the primary coil 4 goes to terminal 26 of a battery 28: the third brush i i of the commutator 12 leads to the pivot point 2o of an element switch with the sliding contact 21 and the Terminals 22, 23, 24 and 25 to the elements 28. With a motor 15, which driven by brushes 16 and 17 from a power source 18, Will the commutator 12 is set in rotation.

The mode of operation of the apparatus is as follows: The motor 15 is on its power source is connected and starts rotating, which is carried out by the axis transfers to the commutator iz. In the position of the commutator shown in FIG and the element switch, all of the flow of elements 28 goes through the brush i1 via the contact segment 13 through the brush io into the left part of the primary coil 4 and from here to the other pole of the elements 28 -.back. There is therefore a current surge of a certain direction in this primary winding. By the rotation of the commutator 12 this circuit is interrupted for the time being. and again after about 180 ° of rotation closed by the segment 13 comes into contact with the brush 9, whereby the Battery power to the right half of the primary coil 4 is closed. Through the Continuous pole change in the primary coil 4 is a periodic alternating current generated in the secondary coil or at terminals i- and- 2. The tension of the last can .be changed in the present embodiment by the fact that the Primary voltage changed by switching the elements 28 on or off.

Fig. 2 shows another means of changing the voltage, by placing an iron core 27 more or less deep in the windings in a known manner 3 and 4 is pushed in. In addition, the voltage in this case can be simultaneous can also be regulated by the element switch 2o.

Fig. 3 shows the scheme according to which used elements simply can be switched off from the circuit. If you put the contact brush 29 on contact 31, the first element on the left is switched off from the circuit, If the brush 29 is on the contact 32, the two left-hand elements are inactive etc.

4 and 5 show an embodiment of the commutator i2 with three brushes. 4 shows the contact strip in the development, cut open through the contact segment 13 and the brush io. Fig. 5 is a schematic view this commutator seen from one point on its axis.

Correspondingly, FIGS. 6 and 7 show a commutator with five brushes, with which double the number of current surges is achieved at the same motor speed. For this purpose the brushes io and 35 as well as 9 and 36 are connected to one another, and the connections lead to terminals io and 9.

The current used can still be generated by superimposing a Direct current can be changed by, for example, the secondary coil 3 in parallel switches to a DC power source. The scheme in question is shown in FIG. 8. Left is the induction apparatus whose secondary coil leads to terminals i and 2. Of the DC power from the battery 40 is switched by the element switch 41 in various Strength connected in parallel with the alternating current; by using the reverser can change this direct current at will, can be used in the incoming current, the positive or negative current direction prevail. Instead of of elements can also be another direct current source, e.g. B. an accumulator is used will.

Claims (5)

PATENT CLAIMS: i. Electromedical apparatus using of two primary coils and a secondary coil, characterized in that one Motor-operated commutator opposite the two primary coils Direction supplies electricity from a DC power source. 2. Embodiment according to claim i, characterized in that a change in the current pulses by a known, movable iron core in the induction coil or by switching of the elements or by both means. 3. embodiment according to claim i, characterized in that by increasing the number of brushes of the commutator Number of current pulses is amplified, . 4. Embodiment according to claim i, characterized in that by increasing the number of commutator segments the number of current pulses is increased. 5. Embodiment according to claim i, characterized characterized in that the direct current is given to the secondary current pulses by special switches is superimposed in front of the acceptance terminals.