KR100314243B1 - Insulation tester with detector circuit - Google Patents

Abstract

The present invention relates to a multi-voltage insulation resistance meter having a detector circuit, and more particularly, to a device for measuring a high resistance by configuring a circuit for generating a high voltage.

The multi-voltage insulation ohmmeter having a detector circuit according to the present invention has a circuit for obtaining a resistance value at a desired voltage by setting a setting switch according to the voltage to be measured, and has a detector circuit for measuring accuracy and safety during measurement. It is characterized by.

Description

INSULATION TESTER WITH DETECTOR CIRCUIT}

The present invention relates to a multi-voltage insulation resistance meter having a detector circuit, and more particularly, to a device for measuring a high resistance by configuring a circuit for generating a high voltage.

As is well known to those skilled in the art, an insulation ohmmeter is generally a device used to measure the insulation of an electrical device or device using a voltage of 220 volts or more as an alternating voltage.

In general, the insulation of an electrical device or device used at 220 to 380 volts is used when the DC output voltage of the insulation meter is 500 volts, and the insulation of an electrical device or device used at 380 volts or more is determined by the DC output voltage of the insulation meter. This should be 1000 volts.

However, the conventional insulation measuring device has a problem that the two devices must be carried together because only the DC output voltage is only 500V or 1000V. In this case, since both devices must be managed, inconveniences existed in terms of management.

Other insulation measuring instruments are convenient in terms of portability and management by using two output voltages at the same time. However, there is a problem that all ICs should be replaced when a circuit breaks down due to an integrated circuit (IC). there was. In addition, ICs are not universal, but each manufacturer has its own IC chip, making it difficult to procure parts.

In addition, when using an insulation resistor, it should be used in the state that electricity does not flow to a measuring object. However, there is a problem that the detector must be carried separately because the detector that checks whether electricity flows is not included in the insulation resistor. As such, there is a problem that the circuit of the insulation ohmmeter is damaged in addition to the risk of electric shock of the measurer when used without checking whether electricity flows to the measurement target.

The present invention has been made to solve the problems of the prior art operating as described above, and the main object of the present invention is to provide an insulation resistor for generating different output voltage according to the measurement situation.

Another object of the present invention is to add a detector function to the insulation resistor to prevent electrical safety accidents and malfunction or damage of the insulation resistor.

1 is a circuit diagram of an insulation resistance meter according to the present invention,

2 is an external view of an insulation resistance meter according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: power supply circuit 110: main oscillation circuit

120: voltage amplification circuit 130: voltage control circuit

132: Zener Diode 134: Switch 2

136: resistance R3 138: resistance R4

140: rectified double voltage circuit 150: ground portion

160: detection circuit 162: switch 1

164: resistance R1 166: resistance R2

170: voltage equalization circuit 172: high band variable resistor

174: mid band variable resistor 176: low band variable resistor

180: meter amplification circuit 182: meter protection resistance

190: meter circuit 200: detector circuit

202: light emitting diode 204: buzzer

250: changeover switch 260: detection terminal connection jack

270: ground terminal connection jack 280: sensor connection jack

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be more apparent from the following detailed description based on the accompanying drawings in order to achieve the above object.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

In the multi-voltage insulation ohmmeter having a detector circuit of the present invention, as shown in FIG. 1, in the insulation ohmmeter for measuring a resistance of an object by generating a high voltage to measure the degree of insulation of an object, the insulation ohmmeter It is preferable to have a power supply circuit 100 which is driven by a battery and supplies a DC voltage.

In addition, it is preferable to include a main oscillation circuit 110 that is connected to the + pole side of the DC voltage supplied from the power supply circuit 100 and converts into an AC voltage using an oscillation element.

In addition, it is preferable to include a voltage amplifying circuit 120 for generating a high-voltage alternating voltage at the secondary side voltage by using a transformer T1 having the alternating voltage generated in the main oscillating circuit 110 as the primary side voltage.

In addition, the switch 134 allows the high voltage AC voltage generated by the voltage amplifying circuit 120 to be connected to one of the resistors 136 and 138 that are set to be used by the user according to a desired range of voltage. It is preferable to include the voltage control circuit 130 controlled by the Zener diode 132 to be.

In addition, it is preferable to include a rectified double voltage circuit 140 for rectifying the amplified AC voltage to a DC voltage using a diode.

In addition, it is preferable to include a ground portion 150 connected to the ground portion of the output value of the rectified double voltage circuit 140 to ground when measuring the insulation resistance of the object.

In addition, the same operation as the switch 134 of the voltage control circuit 130 so as to be used in combination according to the user's desired measurement range, and one of the resistors (164, 166) is set so that the impedance with the voltage equalization circuit 170 is always the same It is preferable to have a detection circuit 160 connected and connected to the object to be measured.

In addition, it is preferable to include a voltage equalization circuit 170 that receives the voltage value input from the detection circuit 160 and precisely measures and outputs voltage values in the high region, the middle region, and the low region.

It is also desirable to have a meter amplification circuit 180 with an operational amplifier that amplifies the signal produced by the voltage equalization circuit 170 into a signal such that the meter 190 can operate.

In addition, it is preferable to include a meter circuit 190 for displaying the insulation resistance value in accordance with the signal output from the meter amplification circuit 180.

Moreover, it is preferable that a multivoltage insulation resistance meter is provided with the detector connected to the said circuit to detect.

In addition, it is preferable to further include an alarm that emits a buzzer sound 204 and emitted light 202 when current flows due to a signal sensed by the detector.

The invention can be variously modified and can take various forms and only the specific examples thereof are described in the following detailed description of the invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the following description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the embodiment of Figures 1 and 2 attached to the operation of the multi-voltage insulation resistance meter with a detector circuit of the present invention configured as described above are as follows.

In an insulation ohmmeter for measuring a resistance of an object by generating a high voltage to measure the degree of insulation of an object, the power supply circuit 100 is driven by a battery and supplies a DC voltage to the insulation ohmmeter.

Thereafter, the main oscillation circuit 110 is connected to the + pole side of the DC voltage supplied from the power supply circuit 100 and converts into an AC voltage using an oscillation element. At this time, the main oscillation circuit 110 generates an alternating voltage that oscillates the DC voltage of the power supply circuit 100 by the oscillation property of the RL circuit composed of a resistor and a capacitor.

Thereafter, the voltage amplifying circuit 120 generates a high-voltage alternating voltage at the secondary voltage using a transformer T1 having the alternating voltage generated by the main oscillation circuit 110 as the primary voltage.

The voltage control circuit 130 then controls the high voltage AC voltage generated by the voltage amplifying circuit 120 by the resistors 136 and 138 connected by the switch 134 and the zener diode 132 operating at the set voltage. . In this case, the resistor R3 136 controls the output voltage of 500 volts, and R4 138 controls the output voltage of 1000 volts. The selection of this resistance is made by the user with the switch 134. In other words, if the resistance value of R3 136 is set to be larger than R4 138 so that the amount of current flowing is the same, the zener diode 132 operating at a constant voltage always operates when the same current flows to maintain a constant voltage. will be.

After that, the rectified double voltage circuit 140 rectifies the amplified AC voltage into a DC voltage using a diode. The reason for the rectification is that, as is well known to those skilled in the art, the insulation resistance of an electric device or device operating in alternating current is measured by adding a DC voltage.

The ground unit 150 is then connected to the ground portion of the output value of the rectified double voltage circuit 140 to ground when measuring the insulation resistance of the object. To connect the ground lead wire, a lead wire terminal may be inserted into the ground terminal connection jack 270.

Thereafter, the detection circuit 160 is operated simultaneously with the switch 134 of the voltage control circuit 130 to be connected to the resistors 164 and 166 which are set to always have the same impedance as the voltage equalization circuit 170 and connected to an object to be measured. At this time, the switch is equipped with a switch 250 to the outside so that the user operates at the same time as the switch of the voltage control circuit. The resistor R1 164 present in the detection circuit 160 is used when inspecting at 500 volts, and R2 166 is used when inspecting at 1000 volts. In this case, the resistance is selected by the user as the switch 162, and the switch 162 is operated like the switch 134 of the voltage control circuit 130. In addition, the detection terminal is connected by inserting a detection terminal with a lead wire to the detection terminal connecting jack 260. At this time, the resistance value of the resistor R1 164 is set to be larger than the R2 166. The reason for doing this is to make the value input from the detection circuit 160 equal to the total impedance value of the voltage equalization circuit 170 and the resistor R1 164 or R2 166. If the sum of the impedances is the same, the value inputted to the voltage equalization circuit 170 is located in a similar area, thereby reducing the resource waste required to make two according to the voltage to use the voltage equalization circuit 170.

Thereafter, the voltage equalization circuit 170 receives the voltage value input from the detection circuit 160, divides the voltage into the high region voltage, the middle region voltage, and the low region voltage, calculates and outputs the value. The variable resistors 172, 174, 176 at this time are for setting and controlling the respective area values.

Thereafter, the meter amplification circuit 180 amplifies the signal generated by the voltage equalization circuit 170 into a signal enough for the meter 190 to operate. In this case, the variable resistor 182 is used to set a limit value of the meter 190 to prevent the meter 190 from malfunctioning or breaking due to an overvoltage applied to the meter 190.

Thereafter, the meter circuit 190 displays an insulation resistance value according to the signal output from the meter amplifier circuit 180.

In addition, the multi-voltage insulation ohmmeter with a detector according to the present invention, the detector connected to the circuit to be detected and an alarm that emits a buzzer sound 204 and emitted light 202 when current flows due to the signal detected by the detector. It further comprises a detector circuit 200, characterized in that provided.

The detector at this time is a terminal for checking whether a voltage is applied to the electric device or the device to be inspected. The detector connects the sensing terminal attached to the lead wire by inserting it into the detector connecting jack 280.

The signal sensed by the detector is input to the detector circuit 200. When a voltage is applied, the light emitting diode 202 and the buzzer 204 operate simultaneously. As such, when the light emitting diode 202 and the buzzer 204 operate at the same time, it is recognized that the voltage is applied by the operation of the light emitting diode 202 in the place where the noise is severe, and the voltage is applied by the sound of the buzzer 204 in the bright place. You know if it is.

According to the present invention, it is obvious that it is a very advantageous invention that can perform desired work with only one insulation ohmmeter without having to carry all kinds of insulation ohmmeters suitable for the detector and the measurement situation, and can be easily repaired even if a failure occurs. .

In addition, in the embodiment of the present invention has been specified with respect to the insulation resistance measurement of 500 volts and 1000 volts, this can be used by changing the resistance to a different measurement voltage according to the user's needs, by increasing the number of resistors connected to the switch Measurements at voltage can also be enabled.

Claims (2)

In an insulation ohmmeter for measuring the resistance of an object by generating a high voltage to measure the degree of insulation of an object, The insulation ohmmeter is a battery-powered power supply circuit for supplying a DC voltage; A main oscillation circuit connected to the + pole side of the DC voltage supplied from the power supply circuit and converting into an AC voltage using an oscillation element; A voltage amplifying circuit for generating a high-voltage alternating voltage at the secondary side voltage by using a transformer having the alternating voltage generated in the main oscillation circuit as a primary side voltage; A voltage control circuit controlled by a zener diode operating at a set voltage and a switch for connecting the high voltage alternating voltage generated by the voltage amplifying circuit to one of the resistors set to be used by the user according to a desired range of voltages. ; A rectified double voltage circuit for rectifying the amplified AC voltage into a DC voltage using a diode; A ground part connected to the ground part of the output value of the rectified double voltage circuit to ground when measuring an insulation resistance of an object; A detection circuit operating simultaneously with a switch of a voltage control circuit so as to be used in combination according to a measurement range desired by the user, and connected to one of the resistors set such that the impedance with the voltage equalization circuit is always the same, and connected to an object to be measured; A voltage equalization circuit which receives the voltage value input from the detection circuit and separates the voltage high region voltage, the middle region voltage and the low region voltage to form a precise voltage value and then outputs the voltage; A meter amplifying circuit having an operational amplifier for amplifying the signal produced by the voltage equalization circuit into a signal enough for the meter to operate; and And a meter circuit for displaying an insulation resistance value according to the signal output from the meter amplification circuit. The method according to claim 1, The multi-voltage insulation ohmmeter includes: a detector connected to the circuit to be detected; And a detector for emitting a buzzer sound and emitting light when current flows due to the signal detected by the detector.