JPS61259183A - Magnetic field intensity meter - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Technical field of invention] The present invention relates to a magnetic field strength meter applied in the medical field.

[Prior art and its problems] Magnetic field strength meters are known that include an inductive transducer connected to a recording block via a block for converting an alternating current voltage to a direct current.

However, magnetic field strength meters such as those described above do not allow for interlocking of the magnetic therapy device in case of deviation from the preset mode of treatment, as well as the possibility that the magnetic field intensity may vary depending on the patient's area or different points on the patient's body. It has the disadvantage that it is not possible to obtain the full pattern of the distribution.

OBJECTS OF THE INVENTION The objects of the present invention include the interlocking of a magnetic therapy device in the event of a deviation from a preset mode of treatment, as well as the interlocking of a magnetic therapy device at different points on the patient's An object of the present invention is to provide a magnetic field strength meter capable of obtaining a full pattern of magnetic field distribution for a given area.

SUMMARY OF THE INVENTION The above problem is solved by a magnetic field strength meter that includes an inductive transducer, a block for converting an alternating voltage to a direct current, and a recording block connected to the input of an interlock block.

The output of the interlock block is connected to the blocking input of the magnetic therapy device.

The inductive transducer is composed of N local inductive transducers, each of which has two windings having the same number of turns wound conically on an inductive coil of square cross section. including. The joint ends of the two windings of each local induction transducer are connected to a neutral point, and the other two ends of the two windings have a control program block connected to their control input ends. are connected correspondingly to N inputs of a controllable electronic exchanger. The two outputs of the controllable electronic exchanger are connected to the inputs of two low frequency filters whose respective outputs are correspondingly connected to the non-inverting and inverting inputs of a differential amplifier. The output end of the differential amplifier is connected to a block for converting the alternating current voltage to direct current.

[Embodiment of the Invention] An embodiment of the present invention will be described below with reference to the drawings. 1st
The figure shows its configuration, and the AC magnetic field strength meter consists of NW local induction transducers 11, 12, . . . , 11, each having two windings with the same number of turns. ...
, 1N. Each differential transducer 11
The joint ends of the two windings of each transducer are connected to the neutral point, and the other two ends of the two windings of each transducer are connected to the corresponding N of the controllable electronic exchangers 2. connected to the input end of the The output of the control program block 3 is connected to the control input of the distribution exchanger 2 above. The two outputs of the electronic exchanger 2 are connected to the same low frequency filters 4 and 5. The output terminals of each of these filters are connected correspondingly to the non-inverting and inverting input terminals of the differential amplifier 6. The above differential amplifier 6
The output of is connected to the input of a block 7 for converting alternating voltage into direct current. The output of the block 7 is connected to the input of a recording block 8 which is connected to an interlock block 9. The output end of the interlock block 9 is connected to the blocking input end of the magnetic therapy device 10.

FIG. 2 shows the winding 11 of the local induction transducer, the winding [111] being wound conically on an inductive coil having a square cross section.

The operation of the AC magnetic field strength meter according to the present invention in magnetic therapy is as follows. That is, the local induction transducers 11.12. ....

1N is to be placed at specific points in the patient's area and according to medical requirements. Therefore, winding 1
The larger base of 1 should be in contact with the patient. This means that while measuring weak magnetic fields, the transducers 11 , 12 , .
Guarantees higher sensitivity of 1N. When stronger magnetic signals are measured, the transducers 11.12.・
..., the INs are changed so that their smaller base is used for the patient. In this case, it is applied to magnetic signal control of some organs of the human body during magnetic therapy.

The effective magnetic signal is the inductive transducer 11°12
,..., induce equal-phase and anti-phase voltages in the two 1N windings. The negative sequence voltage is proportional to the extent of the measured magnetic strength and to the frequency of the magnetic signal. The frequency of cut of the low frequency filters 4 and 5 is set by the selection of the filter elements, if it is lower than the lowest frequency of the effective magnetic signal applied in magnetic therapy.

Therefore, after passing through the filters 4 and 5, the information signals sent to both inputs of the differential amplifier 6 having frequencies higher than the lowest frequency fo have independent frequencies. In accordance with medical requirements, scanning 10 grams is carried out using the electronic exchanger 2 and the local induction transducer 11.12.・・・・・・
, 1N is started in the control program block 3 above. The program instructs the inductive transducers 11, 12 .・・・・・・
....

Supply an output of 1N. The strength of the magnetic signal at all N points in the patient's area is measured during a fixed period of time determined for the treatment. The amplified voltage from the output of the amplifier 6 is supplied to a block 7 for converting the alternating voltage into direct current. Its voltage value is proportional to the average value of the alternating magnetic field strength at the point where the corresponding transducer 1 is located. The output signal from the block 7 is fed to the recording block 8 which sequentially energizes the interlock block 9. If a predetermined value for the alternating magnetic field is exceeded at any of the points of the patient's area Nu, a blocking signal is activated by the magnetic therapy device 10, i.e. affecting the completion of the program during the treatment time. is supplied from block 9 above. The magnetic therapy bag R10, which creates a magnetic field in the patient's area, is thus switched off.

[Effects of the Invention] As detailed above, according to the present invention, the magnetic therapy 11! in the case of deviation from the preset mode of treatment! It is possible to provide a magnetic field strength meter with the possibility of obtaining the full pattern of magnetic field distribution for various points of the patient's area, ie, the patient's body, as well as including device interlocks.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the configuration of a magnetic field strength meter according to an embodiment of the present invention, and FIG. 2 is a sectional view showing the structure of a local induction transducer. 1... Inductive transducer, 11.12. ...
. 1N...Local induction transducer, 2...Electronic exchanger, 3...Control program block, 4゜5...Low frequency filter, 6...Differential amplifier,
7... Block for converting AC voltage to DC,
8... Recording block, 9... Interlock block, 10... Magnetic therapy device, 11... Winding wire.

Claims (1)

[Claims] A magnetic field strength meter comprising an inductive transducer, a block for converting an alternating current voltage into a direct current, and a recording block, the recording block being connected to an interlock block connected to a blocking input of a magnetic therapy device. N local inductive transducers connected in sequence to the input end, each consisting of two windings having the same number of turns wound conically on an inductive coil having a square cross section; The joint ends of the two windings of each local induction transducer are connected to the neutral point, and the other two ends of the two windings have their control inputs connected to the outputs of the control program block. connected correspondingly to the N input terminals of the connected controllable electronic exchangers, the output terminals of the two controllable electronic exchangers being connected to a block for converting alternating current voltage into direct current; A magnetic field strength meter characterized in that the magnetic field strength meter is connected to an input end of a low frequency filter whose output ends are respectively connected to non-inverting and inverting input ends of a differential amplifier connected thereto.