KR100470423B1 - Overcurrent Protection Device for Potential Therapy - Google Patents

Abstract

Safety is secured by preventing the electric shock of the victim without impairing the convenience of the electric potential treatment device. When the potentiometer is outputting at the set voltage of 9000 volts (step 101), when the output current detection value I _OUT exceeds the maximum allowable value of 0.5 mA, the output voltage is lowered to 6000 volts (step 104 to step 201). ). When the detection value I _OUT of the output current reaches the reset allowable value of 0.2 mA or less, the output voltage is returned to the original 9000 volts (from step 204 to step 101).

Description

Overcurrent protection device of potential therapy device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric potential therapy device for treating a human body by applying a high potential of thousands of volts to an insulated human body, and more particularly, to an overcurrent protection device thereof.

This type of potential therapy device is equipped with a removable current sheet, and a voltage of several thousand volts is applied to the current sheet. The subject is placed on an insulating sheet on the floor, places a non-conductive chair thereon, and is seated on the chair while being seated while being treated. In addition, the insulation mat is laid under the foot, and a lifter is inserted into the cord connecting the main body and the power supply sheet to achieve insulation. The secondary coil of the high-voltage generator that generates the output voltage is provided with a protective resistor having a large resistance value so that the output current is set to zero as possible. However, if the above-mentioned insulation is not complete, there is a risk that the output current rises and an electric shock or the like occurs.

The overcurrent protection device is a safety device for preventing such an excessive rise of the output current. The overcurrent protection device is provided with an output current detection circuit in the high voltage generating section, and the process of stopping the voltage output when the detected value exceeds the maximum allowable value. Do it. However, such a conventional overcurrent protection device stops the voltage output only when the output current exceeds the maximum allowable value. Therefore, if the treatment is to be continued, it is necessary to perform the operation again from the beginning after checking the insulation state. It is often accepted that the convenience of a treatment device is not good.

Therefore, the technical problem to be solved arises in order to ensure the safety of a to-be-treated person, without compromising the convenience of an electric potential treatment device, and an object of this invention is to solve this problem.

The present invention has been proposed to solve the above problems, and detects the output current of the high-voltage generator, and if the detected value exceeds the maximum allowable value, the over-current protection device of the potential therapy device for detecting the output current. If the value exceeds the maximum allowable value, the overcurrent protection device performs a process of lowering the output voltage, and a process of returning the output voltage to the value before the output voltage is lowered when the detected value of the output current after the decrease becomes less than the allowable value. To provide.

EMBODIMENT OF THE INVENTION Next, embodiment of this invention is described in detail according to FIG. As shown in FIG. 1, the microcomputer 13 is arrange | positioned at the center of the control part 12 of the potential therapy device 11. As shown in FIG. In addition, the control unit 12 is provided with a switch unit 14 for turning on / off the voltage output, setting the output voltage, setting the timer, and the like, and the switching signal is input to the microcomputer 13. . Accordingly, a predetermined control signal is output from the microcomputer 13 to the relay 15 and the voltage switching circuit 16.

As shown in FIG. 2, the switching contact of the relay 15 is turned on and any one of the triacs 17 of the plurality of triacs 17, 17... Of the voltage switching circuit 16 is turned on. Through this opening, among the terminals 20, 20, ... of the primary coil 19 of the high-pressure generating unit 18, between the terminal 20 corresponding to the opened triac 17 and the common terminal 20COM. The AC power supply current supplied from the power plug 21 flows. Accordingly, an output voltage of the size (thousands of volts) set by the switch unit 14 is generated in the secondary coil 22 of the high pressure generator 18. This output voltage is output to the electricity supply sheet 23, and the to-be-treated person seated on this electricity supply sheet 23 is made into high potential. Then, the treatment subjects are given a predetermined therapeutic effect.

Both ends of the secondary coil 22 are provided with protective resistors 24 and 25 having a large resistance value, respectively, so that the output current is as zero as possible. However, if the subject's insulation condition is bad, this output current increases and there is a risk of electric shock. Thus, a current detection resistor 26 having a small resistance value is mounted on the wiring between the common terminal 20COM of the primary coil 19 and the protective resistor 25, so that this current detection resistor 26 is provided. The current (output current) flowing is detected by the current detection unit 27. As shown in FIG. 1, the detected value I _OUT is input to the microcomputer 13. Accordingly, the microcomputer 13 performs the following overcurrent protection process.

That is, as shown in FIG. 3, if the treatment was performed by initially setting the output voltage to 9000 volts (step 101), the microcomputer 13 is allowed to operate under the maximum allowable value previously set in the memory (the voltage of the 9000 volts). The detection value (I _OUT ) detected by the current detection unit 27 (step 103) by reading the upper limit of the possible output current, here 0.5 mA, until the set time expires (from step 102 to step 103). ) Is monitored to see if it exceeds 0.5 mA (step 104). When the timer setting time expires without exceeding 0.5 mA (step 102? Step 999), the switching contact of the relay 15 is turned off and the output is stopped (step 999).

On the other hand, when the detection value I _OUT exceeds 0.5 mA and becomes, for example, 0.6 mA (from step 104 to step 201), the overcurrent protection circuit operates. That is, the microcomputer 13 switches the triac 17 of the voltage switching circuit 16 to reduce the output voltage from 9000 volts to 6000 volts (step 201). As a result, the detection value I _OUT becomes 0.4 mA, and it is possible to avoid the possibility of the patient being electrocuted. In addition, since the output is continued while being lower than the original set voltage, the treatment is not interrupted, and it is determined whether the timer continues to count and the set time has ended (step 202). The detection of the output current is also continued (step 203).

In this overcurrent protection circuit operation step, the microcomputer 13 reads from the memory the return allowance value (the upper limit value of the output current which can be restored from 6000 volts to the original 9000 volts, here 0.2 mA). It compares with the detection value I _OUT (step 204). When the insulation state of the subject is improved and the detection value I _OUT decreases to 0.2 mA (from step 204 to step 101), the triac 17 is switched to the original one, and the output voltage returns to 9000 volts. (Step 101). Accordingly, the detection value I _OUT becomes 0.3 mA, but since this value is less than or equal to the maximum allowable value (0.5 mA), the treatment is continued at an output of 9000 volts. In this way, since it returns to the original setting state automatically, even if operation | movement of the electric potential treatment apparatus 11 is not performed again, convenience is not impaired.

1, reference numeral 28 denotes a power supply circuit for supplying power to the controller 12, and reference numeral 29 denotes a display unit for displaying various control information. When the output voltage is lower than the set value because the output current has exceeded the maximum allowable value (when steps 201 to 204 are looped, that is, when the overcurrent protection circuit is operating), the output display of the display section 29 Flashes. This allows the victim to recognize that his or her insulation is bad. When the insulation state is improved by properly refitting the insulation sheet or the insulation mat, the output voltage returns to the original set value as described above.

The present invention can be modified in various ways without departing from the spirit of the present invention, and it is natural that the present invention affects such modifications.

As described above, the overcurrent protection device of the potential treatment device according to the present invention lowers the output voltage when the insulation state of the subject is poor and the output current is increased. In proportion to this, the output current is also reduced, thereby avoiding the risk of electric shock to the victim, thereby ensuring safety. In addition, since the voltage output continues while being lower than the original set voltage, the treatment is not interrupted. When the insulation state of the subject is improved, the output voltage returns to the original value, which makes complicated operation unnecessary, and the convenience of this type of potential treatment device is improved.

1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a partial circuit diagram of FIG. 1.

3 is a flowchart of an overcurrent protection circuit.

<Explanation of symbols for main parts of drawing>

11: positioner, 12: control unit, 13: microcomputer, 15: relay

16: voltage switching circuit, 17: triac, 18: high voltage generator, 27: current detector

Claims (1)

In the overcurrent protection device of a potential treatment device which detects the output current of the high-voltage generating unit and performs a predetermined process when the detected value exceeds the maximum allowable value, the output voltage when the detected value of the output current exceeds the maximum allowable value. And a process of reducing the output voltage to a value before the output voltage is lowered when the detected value of the output current after the decrease becomes less than the allowable return value.