DE2025713A1 - Electric therapeutic device - Google Patents

Description

202S713

JUNGBHJTH CORPORATION, M e d i a / Pa., V. St. A.

Electrical therapeutic device

The invention relates to an electrical therapeutic Device and in particular to a device in which an electrical current is supplied directly to a selected one Part of the patient's body is applied by a contact electrode. In particular, such a device is used Induction of sleep or relaxation

Electrical sleep-promoting devices have been therapeutic in various European countries for years has been used and is particularly widespread in the USSR. Such an existing device is equipped with tubes and in U.S. Patent No.

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3 160 159 described. Battery operated devices with transistors are disclosed in U.S. Patent Nos. 3,255,753 and 3,388,699. U.S. Patents No. 3,050,695, 3 241 557 and 3 295 528 refer to battery-operated, transistorized pulse generators for human treatment · one The object of the invention is to provide a simple, economical and compact device for human therapeutic To deliver treatment that generates low frequency pulses, is safe, self-regulating and easily controllable and on top of that it clearly indicates the type of impulse applied to the patient. Another The object of the invention is to provide a device that is particularly useful for inducing sleep and the relaxation can be used effectively.

An electrical therapeutic device according to the invention includes the following components, which are mutually connected in electrical Are connected: An energy source, a buffer stage regulating the current, a pulse generator and Devices at the output for applying the electrical pulses generated by the device to a patient} a the current regulating buffer stage containing a transistor and circuit means connecting the transistor to the at the output connects circuit means, wherein the Output current transmitted through the transistor, a Function of the impedance represented by the patient to limit the current and to keep it largely constant regardless of the biological changes in the resistance value of the patient's body *

In addition, a transistorized, electrical, sleep-promoting device sees a buffer stage that regulates the current before protecting the patient from excessively high currents

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protects when the device is connected to one of the conventional alternating current sources and that keeps the current largely constant, regardless of the changes in the Resistance value of the patient's body. The patent is also protected by sensitive fuses, a! Transformer,, careful grounding, a floating circuit, and a fixed resistance value that is in series with the circuit. A voltmeter showing a peak value precisely reproduces the pulse amplitude that is applied to the Patient by using a peak rectifying circuit connected to a high input impedance, such as a balanced, differential amplifier equipped with bipolar transistors or a unipolar field effect transistor (FET) * A Frequency band selector switch and scanner connected to the pulse generator - changes the applied frequency adapt them to the patient's reaction. The Auegang of the device is bit connected to different parts of the patient's body according to the particular symptoms and the treatment required for this.

Using an exemplary embodiment, the subject of the invention is described below in conjunction with the accompanying drawings, with corresponding reference symbols for the corresponding parts are used. Show it:

J ¹ Ig. 1 shows a block diagram of an embodiment according to the invention and the waveforms used;

FIG. 2 shows a circuit diagram of the exemplary embodiment according to FIG Invention according to Figure 1;

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Fig · 3 is a circuit diagram of another, generally improved AusftihrungEbeispiels the invention according to Figure _# 1 and 2; and .

Pig. 4 is a circuit diagram of a modified part of the embodiment of the invention according to FIG. 1 _e

1 shows an exemplary embodiment of a sleep-promoting device 10 according to the invention in the form of a block diagram. The device 10 contains the following main components, which are represented by corresponding designations of the individual parts of the block diagram: an energy source 12, a current regulator and a buffer stage 14, a pulse generator 16, a measuring circuit 18 and an output control circuit 20 * The characteristic waveforms 22 and 24 (which will be described later) are generated in the pulse generator 16 and are at its output Alternating current source 26, a direct current source 28 and a voltage regulator 30 * The Btfpulsgenerator 16 contains a monostable multivibrator .32, a Kippgeneratpr 34 and a frequency band selection switch as well as a scanning device 36 »The measuring circuit arrangement 18 contains a part 58 high impedance (for example a Bifferentialveretärker 28 high impedance), a peak voltage rectifier 40 and a - _: measuring device M, the output control device 20 contains a tent switch 42, a line zvae legeluag the input. equal voltage from the sliding tetroJKpelle 28 in. Her. energy source 12, a Srennwiderötanä 13S ₉ eisi ^ n Ati8gaaga © tecker 44 and other, later beeeteLetoome .3Soaapoß © aten »Ser amplitude regulator H8 is a Stromi-egelvö» ieliti2ag u & ä sla fuffevstufe 14 _f the factual aWfia feil überb AuBgejigsregelkreises.V represents ».... ,. . .-... ..- .. ^:

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FIG. 2 shows an overall block diagram of a sleep-promoting device 10 which shows various details of the block diagram of FIG or operated by a 45-50 volt DC voltage source * The circuit arrangement can be operated at 117 volts alternating voltage or by a 4-5-50 volt rechargeable battery that is tapped using an S8 slide switch. If the device is operated with 117 volts mains voltage, eliminate a ©; Number of safety precautionary measures all coincidences · These precautionary measures consist in the following: Have both! »Lines; Quickly blowing fuses P ^ and f ^ i ^Q ^ m 3? renntrahsformator 26 »a chassis which is earthed by the earth line of the mains line, a floating circuit, a buffer stage T4 and finally, to a certain extent, a resistor R42. The supply sources are regulated * The power supply unit can also be operated with 220 volts and 50 Hz for use in Europe or Japan

The pulse generator 16 contains a ripple generator 34. The operating mode of the ripple generator 34, fig, 2, and its trigger output pulse 22, Pig · 1 _f is explained below: A continuity resistor R1 charges the capacitors 0 ^ _f Q " or Oq (depending on the position of the frequency selector switch) to a voltage level sufficient to bias the emitter "E" of the single layer transistor V8, and allows the current to flow through the emitter to the base 1, "B 1". The single-layer transistor then shows a negative resistance value and the sharp pulse 22

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the fig · 1 appears at base 1. This pulse is used to trigger the monostable multivibrator into the metastable (unstable) state in order to generate the required pulse. The frequency of the trigger pulse 22 is related to the product R14 05 * In Pig-2, the ripple generator 54 consists of the single-layer transistor VB} the switches 85 and S7; the capacitors Cg, C " and Cgi to the resistors R17» R18, R23, R24 and R25; variable resistors R2O, BSI and R22} variable resistors R19, R19A and R41 and the direct current motor Hot

A Sehalter S5 is an equenabandwahleeholder »with which one of three band frequencies can be selected (2 to 10 ₉ 10 to 50 and 50 to 150 Hz). For example, the frequency band 2 to 10 Rz consists of a capacitor C ₆ and resistors, R23, R2O and RI9 * If the variable resistor R19 is set to a maximum, a frequency of 2 Hz is generated in the 2 to 10 Hz branch * By reducing the rheostat a Rig the pulse frequency increases until a frequency of 10 Hz is reached at the minimum frequency «Resistors R20, R21 and R22 are used to compensate for other component tolerances ·

The slide switch S7 can be switched to the "0? Ast" position, in which case the resistor RI9 is replaced by the resistor R19A, and the direct current motor Mot. is operated. The DC motor Hot. then turns the variable resistor R19A and thus automatically changes the frequency within a frequency band to a very low speed. The speed ^ e ⁸ engine is regulated by the resistor R41.

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■ ORIGINAL '

The monostable multivibrator 32 consists of transistors V6 and V7, resistors R12, »15» R14 and R1 $ and a capacitor C ₅ . The resistor B14- is chosen so that the transistor V6 «remains in a saturated, stable state. The coupling resistor RI2 holds the transistor V? When a trigger pulse 22 (Fig. 1) brings the circuit into a state in which both transistors are in the active state, a regenerative switching function occurs and the circuit quickly switches to the metastable state, where the state of each transistor is reversed. The transistor V? is saturated and the transistor V6 is switched off. The collector of transistor V6 then has an output pulse 24 of a predetermined duration T * R14 * Cc Xn2 seconds. During this time, the base voltage of the transistor V6 increases exponentially (the capacitor C ^ is charged to Β + via the resistor R14-) to a point where its value brings the transistor V6 from the switched-off state into the active range, the Circuit (which is based on the regenerative transistor effect) switches quickly from the metastable to the stable state · The attastable time is T * 0.5 msec, during this time the collector of transistor V6 supplies the pulse, which is all part of the input voltage for the patient is used.

The circuit arrangement for regulating the constant current and the buffer stage 1A- consist of a PNP transit gate (V ^), a diode (Z3) for the tensioning tension, a control wood (R8) and resistors R9 and RIO. The patient is an impedance load on the collector of the transit gate switched on via Ewisohensohaltungen. The circuit is

only active when there is a pulse. Since the current is over the collector is kept at a constant value, the output voltage corrects itself even with a biological one Change in the patient, what is because of a change of its body resistance value occurs. Is the patient for example quiet, it has a reduced resistance value. The same current that is impressed via the reduced resistance then generates a lower voltage and that is just what the patient needs at this stage. The circuit thus serves as a buffer stage, such as is already described earlier.

The measuring circuit arrangement includes a high impedance input section 38 (e.g. a balanced differential amplifier 38), a peak voltage rectifier 40 and a measuring instrument M including switches S2 and S3. The high impedance input section includes a Darlington differential amplifier 38. At low frequency it is very difficult to measure the amplitude of the pulse through the transistor circuits because of their inherent low input impedance. Your differential amplifier 38 is therefore designed to present a high input impedance of approximately 10 megohms in the pulse waveform. The circuit consists of transistors V9, V10 and V1.1; Resistors R26, R2? » R28, R29, H30, RJ1, R4 ° ^and a variable resistor R32; a capacitor C14 ·; Diodes D10 and D11; as well as switches S2 and S3.

The normally closed switch S3, which is shown open in the circuit, is used to interrupt the input of the impulses to the measuring circuit arrangement in order to be able to carry out a zero setting in the measuring circuit by means of an adjustment by means of the Begel resistor R32. The switch S2

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can be switched to the DO position to set the value measure the DC component on the patient.

The transistors V10 and VM together with the Network resistances R3O, R31, R32 and R40 have a high Input impedance, which is necessary for reading the voltmeter at low frequencies »The special features of the voltmeter are: A high input impedance, a high sensitivity and a cheaper and more practical Construction.

The output rule arrow 20 contains a timer 42, which contains a switch S6 and a timer T, which enables the device 10 to be set to a suitable · sending time from 1 to 60 minutes is allowed. The starting part also contains an output connector 44 to which the patient can connect, for example by means of a headband or a contact electrode. For example the negative pole 48 is connected to the eye area and the positive pole 49 to the back of the head below the brain. The line 21 is a regulated one DC voltage is applied from the DC voltage power source 28. The resistor 38 provides a pulse and for biasing the insulators. A polarity switch 34 facilitates quick polarity switching. Possibly resistor R8 is in the current regulation arrangement and buffer stage 16 functionally part of the output circuit, causing a change in the pulse amplitude results.

The pulse generator 16 includes a frequency selection and sampling circuit 36. This circuit is used because

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some patients are more favorable to gradual changes respond to the frequency. For example, this has Device has three frequency ranges, namely 2 to 10, 10 to 50 and 50 to 150 Hz. In the 2 to 10 Hz range with automatic Frequency change, then frequencies of 2, 3, ... 10 Hz available and to be repeated continuously

The doctors who use this device bring a lot Time to adjust the controls until they turn on come a spot where the individual patient relaxes and feels good. Psychiatrists tend to get by the same more often Patients can be visited and clinical data can then be obtained by observing the patient's reaction during the Collect treatment. To save time, and the doctor in that Should be able to collect requests for analysis the apparatus must have a measuring circuit arrangement to show the relative amplitudes applied and the changes, which occur in the patient from time to time. It is therefore a measuring arrangement 18 for recording the peak values intended.

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The pulse amplitude applied to each patient will be displayed automatically. At a certain point in time, the patient and the doctor will notice during the treatment also notes that adjusting the amplitude control is just right for relaxation · After a certain time, the chemical processes in the patient's body react on the impulses and the impulses become less and less effective in what the patient can feel. This diminution effectiveness is based on the patient losing the exhaustion he initially felt, in particular when his thoughts are unclear and disordered.

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A compensation process in conjunction with the physical response is used · This is based on the current control and the buffer eastufe 14. The frequency control device 36 and the amplitude control device R8 of the device are housed in a separate part that is normally part of the device but is replaceable and is connected to the device by a 1.2 m long wire or a correspondingly long cable. this makes possible some patients may use the device from a distance.

Referring to Figure 3, there is another and generally improved one Embodiment 10A according to the invention, which is generally similar to the embodiment of FIG corresponds to »but it is only possible with an alternating voltage source and includes a dedicated frequency band selection and sampling circuit 36A. The circuit 36A has three band frequencies: 2 to 10 Hz; 10 to 50 Hz and to 250 Hz. A switch S-5 selects one of these three Bands off «The operator can select a single frequency in each frequency band through a resistor RI9, where he turns one, switch S-7 by hand, or he can set switch S-7 to automatic, then the switch will select all frequencies within dee The tape is scanned »If switch S-7 is set to automatic scanning, the scanning speed can be selected between 6 and 60 revolutions per minute · This special feature can be used in psychiatric examinations to help the doctor actually determine the behavior of a patient in different situations Support frequencies.

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In Pig. 4 is another high impedance input part 38B for the measuring circuit arrangement 18 shown * In it are the bipolar transistors V9, V1O and V11 by unipolar Field effect transistors (FET) replaced. In this case replaced a field effect transistor the transistor V9 and another the. two transistors V10 and V11. Because a field effect transistor has a very high input impedance, which is essential for the measuring circuit arrangement of the present type the Darlington Bridge made up of transistors V1O and V9, which are solely responsible for the high input impedance, can be replaced by a field effect transistor. the generally high input impedance characteristics of the differential amplifier will not be changed.

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Claims (12)

-13- Patent Claims Electrical therapeutic device, characterized by the combination of components known per se and which are electrically connected to one another: an energy supply (12), a buffer stage (1 ² O) that regulates the current, a pulse generator (16) and an output arrangement (20) to generate electrical To apply pulses generated by the device to a patient, the current regulating buffer stage (14) including a transistor (24x) and circuit means connecting the transistor to the output device and the current flowing through the transistor is a function of the impedance presented by the patient to limit the current and keep it substantially constant regardless of the biological changes in the resistance values of the patient's body 2. Apparatus according to claim 1, characterized by circuit means, which the output arrangement to the collector of the transistor associate. 3. Apparatus according to claim 2, characterized by a PNP transistor « 4. Apparatus according to claim 2, characterized in that one predetermined reference voltage is applied to the collector, 5. Apparatus according to claim 4, characterized by a variable Resistance connected to the emitter of the transistor. 009886/1391 6. Apparatus according to claim 1, characterized by a measuring circuit arrangement (13) for reading the peak voltage, which has a high input impedance, and with the circuitry connected to indicate the amplitude of the pulses. 7. Apparatus according to claim 6, characterized by the Heß) circle arrangement: for reading the peak voltage with a Peak DC voltage circuit and associated high input impedance circuitry 8. Apparatus according to claim 7, characterized by the high Input impedance circuitry »which has a differential amplifier with high input impedance. 9. Apparatus according to claim 8, characterized in that the Differential amplifier with high input impedance is equipped with field effect transistors. 10. Apparatus according to claim 8, characterized by a dif- " differential amplifier with a Darlington follower stage. 11. Device according to claim 8, characterized in that the Differential amplifier with high input impedance a balanced one Differential amplifier mi | bipolar transistors contains. 1 12. Apparatus according to claim 8, characterized in that the differential amplifier with high binary impedance contains a differential amplifier with unipolar field effect transistors. ^r 009886/1391 INSPECTED 13 · Device according to claim 1, characterized in that the Pulse generator contains a frequency band selection device (85), wherein a band of the predetermined frequency can be selected and used for a treatment Apparatus according to claim 13, characterized _$ that the pulse generator contains a Jrequenzabtastvorriehtung (Mot, 19a), the device with the Frequenzbandauewahl is connected to the output gradually, the generator in the frequency within the band to change to the optimum frequency for the treatment of the patient to determine 15 · Device according to claim 14 ·, characterized in that the Frequency selection device contains a variable resistor (19a) and a motor (Hot), 4 with the resistor is connected to gradually increase its resistance values see below change, whereby the frequency is changed within the selected frequency band 16 · _v apparatus of claim 1 characterized in that the Auegangsanordnung is connected to the current-regulating buffer Sture, and that the separating arrangement is connected between " 1?. Device according to Claim 16, characterized in that the separating arrangement contains a relatively high Iapedanswideretand. 18 · Device according to claim 16, characterized in that one regulated DC voltage source is connected to the output arrangement with the isolating arrangement, which lies between the DC voltage source and the patient « 009886/1391 Device according to claim 18, characterized * that a the polarity reversing visual means is connected to the output arrangement Device according to Claim 1, characterized in that the buffer stage regulating the current contains a variable resistor, the pulse amplitude applied to the patient being variable BoXX ₀ 00 9886/139 1