HU198250B - Device for measuring voltage in magnetic field - Google Patents

Abstract

A magnetic field intensity meter comprises a plurality of local induction transducers (11.....1N) which can be arranged over a patient, a multiplexer (2) having its inputs coupled to the local induction transducers for coupling their outputs in turn to a recording and/or detecting device (8), and a safety device (9) operable to provide an alarm signal if any of the local induction transducers provides an indication of a deviation from a preset mode of therapy. Each transducer may comprise two windings of equal number, their common ends coupled to neutral and the other ends coupled to the inputs of multiplexor (2). <IMAGE>

Description

FIELD OF THE INVENTION The present invention relates to apparatus for measuring voltage in a magnetic field which can be used in medicine.

It is known to measure the voltage of magnetic fields by means of an inductive sensor, which is connected to a data recording unit via an AC-to-DC converter.

The disadvantages of the known device are that it is not possible to get an accurate picture of the distribution of the field at different locations of the patient's body or the patient's area, and that in the case of deviations from a predetermined mode of treatment the magnetic operating device is not stopped or disabled.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a device for measuring a voltage in a magnetic field, which allows accurate representation of the field area and the distribution of the field at different locations in the patient's body, and deviation from a predetermined mode of treatment. in the case of a magnetic shutdown device, immediately.

SUMMARY OF THE INVENTION The object of the present invention is to provide an apparatus for measuring a magnetic field comprising an inductive sensor, a unit for converting AC voltage to a direct current, and a data recording unit connected to the input of the blocking or blocking unit. The output of the blocking unit is connected to the blocking input of the magnetic control unit. The inductive sensor comprises (n) a number of local inductive sensors, each of which is formed by two coils of the same number of turns, which are conically mounted on a dielectric coil body of rectangular cross-section. The common terminals of the coils of each local inductive sensor are grounded, and the other terminals of the coils are properly connected to the number (n) of a controllable electrical switch with a control input connected to a control unit output. The two outputs of the controllable electronic switch are connected to the inputs of two low-frequency pins, the outputs of which are suitably connected to the non-inverting and inverting inputs of a differential amplifier. The output of the differential amplifier is connected to the rectifier.

The advantage of the magnetic field voltage measuring device according to the invention is that it is possible to obtain an accurate picture of the distribution of the field in the patient area and at different points of the patient's body and to ensure that the magnetic treatment device is disabled in case of deviation .

The apparatus according to the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:

Figure 1 is a block diagram of an apparatus according to the invention; the

Figure 2 is a schematic diagram of a local inductive sensor.

Thus, according to Fig. 1, the apparatus for measuring the voltage in the alternating magnetic field according to the invention comprises (n) a number of local inductive sensors li, 12, ... li, ... Is. These local, inductive sensors li, 12, ... In consist of two coils of the same number of turns. The common ends of the coils of the local inductive sensors li are grounded, while the other ends of the coils of each local inductive sensors li are connected to the respective inputs of a controllable electronic switch 2, whose control input is connected to the output of a control unit. The two outputs of the electronic switch 2 are connected to the inputs of two identical low-pass filters 4 and 5, the outputs of which are connected to a non-inverting input of a differential amplifier 6 whose output is connected to the rectifier inputs 7. The output of the rectifier 7 is connected to the input of a storage unit 8, which in turn is connected to a blocking block 9, to the output of which the input blocking unit of the operation of the magnetic control device 10 is connected. Figure 2 shows the coils 11 of the local inductive sensors li, which are conically mounted on a dielectric coil body of rectangular cross-section.

The apparatus for measuring voltage in a magnetic field according to the invention operates as follows:

The local, inductive sensors li, I2, ... 1 »are located at defined points in the medical field at the patient, at specific points in each patient area, so that they contact the larger body surface of the roll theater with the patient's body. In this way, the sensitivity of the local, inductive sensors li, I2, ... In is provided to the magnetic signals that come from the patient range compared to the external interfering magnetic signals present in the measurement of weak magnetic fields. Otherwise, when strong magnetic signals are measured, the local inductive sensors li, I2, ... In are rotated to the patient with a smaller base surface of the coils. The second case is used when we want to check the magnetic signals of an organ in the human body during treatment with magnetic therapy. The useful magnetic signal is induced by the local, inductive sensors li, I2, ... In, inductors of the same magnitude and opposite phase in both coils, which correspond to the magnitude of the applied magnetic voltage and 3

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are proportional to the frequency of the magnetic signal. The frequency of the low frequency filters 4 and 5, which is determined by selecting the filter elements to be lower than the lowest frequency of the useful magnetic signal used in the magnetic therapy. After the information signals have passed through the low frequency filters 4 and 5, they are routed to the two inputs of the differential amplifier 6, depending on the frequency greater than the lowest frequency. In the control unit 3, according to medical requirements, a program is selected which, by means of the electronic switch 2, scans the outputs of the local inductive sensors li, Taste, ... 1 »in a specific sequence and transmits them to the low frequency filters 4 and 5 . In this way, during a specific treatment period, the magnetic treatment intensity of the magnetic treatment 20 can be monitored at all n points in the patient area. From the output of the differential amplifier 6, the amplified voltage is transferred to the input of the rectifier 7, which produces a direct current from the ac voltage 25, the value of which is proportional to the mean value of the voltage of the AC magnetic field. which operates at the time of 30 in question. The output of the rectifier 7 is transferred to the storage unit 8, which activates the blocking unit 9. If, at one of the N points in the patient range, the allowable voltage in the magnetic field 35 increases or there is some malfunctioning of the program, the output of the blocking unit 9 is provided with a blocking signal to the magnetic field device.

Claims (1)

Patent Claim Point Apparatus for measuring a voltage in a magnetic field comprising an inductive sensor (1), a rectifier (7) and a storage unit (8) connected thereto, characterized in that the output of the storage unit (8) is connected to an input of a blocking unit (9). ), the inductive sensor (1) consists of N local inductive sensors (li, I2, ... 1m) consisting of two coils (11) of the same number of turns and a conical shape with a rectangular cross-section mounted on a coil body and the common terminals of the coils (11) of each local inductive sensor (II, I2, ... In) are grounded, the other terminals of the coils (11) are connected to an electronic switch (2) input, the electronic switch (2) a programmable control unit (3) is connected to the control input, two outputs of the electronic switch (2) to two low connected via a quench filter (4, 5) to the input of a differential amplifier (6), the output of which is connected to the input of the rectifier (7).