JP2017138133A - Voltage detector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a voltage detector capable of discriminating a kind of AC/DC with one detector and also capable of measuring a magnitude of a voltage to be detected without switching a range.SOLUTION: A voltage measuring probe 12 is directly connected to a device body 11 and a current measuring probe 13 is provided connectable to the device body 11. The device body 11 includes: A/D conversion means for sampling data for a predetermined time measured by the voltage measuring probe 12 and the current measuring probe 13 in a predetermined frequency and converting the data into digital data; mean value calculation means for calculating an arithmetic mean value and a mean square value of the digital data; discrimination means for discriminating whether the measured data are DC data or AC data based on the calculated arithmetic mean value; discrimination display means 24 for displaying a case where the data are discriminated as DC data and a case where the data are discriminated as AC data in an identifiable manner; and measurement display means 25 for displaying the calculated mean square value.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a voltage detector.

  In the distribution panel work at the substation, the control cable connection work and disconnection work are performed after detecting the voltage and current of the terminal block. The terminal board for DC voltage, AC voltage, DC current, and AC current is arranged on the switchboard terminal block. When detecting voltage, multiple terminals such as DC voltmeter, AC voltmeter, DC ammeter, AC ammeter, etc. A measuring instrument is carried behind the narrow switchboard.

  As described above, since the voltage detection work is performed in a narrow space on the back side of the switchboard, it takes time and effort to perform the work while switching the measuring instruments using a plurality of measuring instruments, and the working efficiency is reduced. There was a problem. In addition, mistakes in selecting the measurement range of the measuring instrument and work mistakes such as a probe insertion error are likely to occur, and there was actually a problem that the substation was blacked out due to the range error.

  Therefore, in order to solve such problems, conventionally, a constant current circuit has been used for the detection unit, and the voltage range and frequency band that can be detected are sufficiently wide so that the circuit to be measured is not affected and switched without switching. A voltage detector capable of knowing the presence / absence of a needle input voltage, the type of AC / DC, polarity, etc. has been developed (see, for example, Patent Document 1).

JP-A-10-206471

  However, the voltage detector described in Patent Document 1 has a problem that the magnitude of the voltage to be detected cannot be measured.

  The present invention has been made paying attention to such a problem, and it is possible to determine the type of AC / DC and to measure the magnitude of the voltage to be detected without switching the range. The purpose is to provide a voltage detector.

  In order to achieve the above object, a voltage detector according to the present invention has a device main body and a voltage measurement probe directly connected to the device main body, and the device main body was measured by the voltage measurement probe. AD conversion means for sampling data at a predetermined time at a predetermined frequency and converting it into digital data, and average value calculation means for calculating the arithmetic mean value and the square mean value of the digital data obtained by the AD conversion means Determining means for determining whether the measured data is direct current or alternating current based on the arithmetic average value calculated by the average value calculating means; and determining the direct current by the determining means A determination display means for distinguishing between the case of being detected and a case of being determined to be alternating current, and a measurement value display means for displaying the mean square value calculated by the average value calculation means. .

  The voltage detector according to the present invention can sample the analog data of the voltage measured by the voltage measurement probe by the AD conversion means and process it as digital data. By increasing the number of bits for digital conversion, high resolution can be maintained even when the measurement range is widened, and range switching can be made unnecessary. Further, by using the arithmetic average value calculated by the average value calculation means, the type of AC / DC can be easily determined by the determination means. For example, when the arithmetic average value is close to zero, it is determined as alternating current, and in other cases, it is determined as direct current. Thus, the voltage detector according to the present invention can determine the type of AC / DC with one unit without switching the range, reduce mistakes during voltage detection work, prevent accidents, and improve work efficiency. Can be made.

  The voltage detector according to the present invention can know the magnitude of the voltage measured by the voltage measuring probe by displaying the mean square value calculated by the average value calculating means. Thus, the voltage detector according to the present invention can measure the magnitude of the voltage to be detected, and can perform more detailed voltage detection as well as determination of the type of AC / DC.

  The voltage measuring probe according to the present invention may be any voltage measuring probe as long as it can measure a voltage. For example, a measuring probe and a grounding probe are paired. It may be. The determination display means may be anything as long as the direct current and the alternating current can be displayed in a distinguishable manner. For example, the determination display means may display with light or sound. The measured value display means is preferably capable of digitally displaying the mean square value.

  The voltage detector according to the present invention includes a current measurement probe provided so as to be connectable to the device main body, and the AD conversion unit receives data of a predetermined time measured by the current measurement probe as a predetermined value. You may comprise so that it may sample at a frequency and may convert into digital data. In this case, it is possible to determine the type of AC / DC for one current without switching the range. Also, the magnitude of the current to be detected can be measured. In addition, by properly using the voltage measurement probe and the current measurement probe, it is possible to detect DC voltage, AC voltage, DC current, and AC current with one unit.

  In the voltage detector according to the present invention, the predetermined time is preferably 100 milliseconds or an integral multiple thereof. In this case, AC data for 5 waveforms at 50 Hz and 6 waveforms at 60 Hz can be measured at 100 milliseconds, and when it is an integral multiple of 100 milliseconds, AC data corresponding to an integral multiple of the number of waveforms can be measured. For this reason, when the arithmetic average value of AC data is calculated, the value becomes almost zero, and the accuracy of voltage detection can be improved.

  In the voltage detector according to the present invention, the predetermined frequency is preferably 240 Hz or more. In this case, when the frequency is 240 Hz, sampling at four points in one waveform is performed at 60 Hz, which is a general power supply frequency, and therefore AC determination can be performed. By setting the frequency to 240 Hz or higher, alternating current determination can be performed more reliably.

  In the voltage detector according to the present invention, the voltage measurement probe may include a hand display unit that displays the case where the determination unit determines that the current is direct current and the case where the current measurement is determined as alternating current. In this case, since the type of AC / DC can be known at the point where the voltage is being detected, it is possible to concentrate on the task at hand without greatly moving the line of sight, and the electric detection operation can be carried out efficiently. Can do.

  According to the present invention, it is possible to provide a voltage detector that can determine the type of AC / DC with one unit and can also measure the magnitude of the voltage to be detected without switching the range.

It is a front view which shows the voltage detector of embodiment of this invention. It is a block block diagram which shows the voltage detector of embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and 2 show a voltage detector according to an embodiment of the present invention.
As shown in FIGS. 1 and 2, the voltage detector 10 includes a device main body 11, a voltage measurement probe 12, and a current measurement probe 13.

  The device body 11 includes a voltage code protector 21, a current connector 22, a microcomputer 23, a determination display unit 24, a measurement value display unit 25, a power supply unit 26, and a voltage / current changeover switch 27. The voltage code protector 21 is provided on the side of the head of the device main body 11, and the voltage measuring probe 12 is directly connected thereto. The voltage cord protector 21 is configured so that the voltage measurement probe 12 cannot be removed so that the voltage measurement probe 12 is not accidentally connected to the current connector 22. The voltage code protector 21 can input voltage data measured by the voltage measuring probe 12. The current connector 22 is provided on the side of the head of the device main body 11 so that the current measurement probe 13 can be connected, and current data measured by the current measurement probe 13 can be input. The microcomputer 23 is built in the device main body 11, and is connected to the voltage code protector 21 via the fuse 31 and the low-pass filter (LPF) 32, and to the current connector 22 via the low-pass filter (LPF) 33.

  The microcomputer 23 includes an AD conversion unit, an average value calculation unit, and a determination unit. The microcomputer 23 converts the data measured by the voltage measurement probe 12 and the current measurement probe 13 by the AD conversion means for 100 milliseconds or an integral multiple thereof to digital data by sampling at a frequency of 240 Hz or more. It is configured to Measurement time and sampling frequency are set in advance. Further, the sampling frequency is preferably a frequency that becomes an integer when divided by 10 so that no fraction is generated in the sampling time. The microcomputer 23 is configured to calculate the arithmetic average value and the root mean square value of the digital data obtained by the AD conversion means by the average value calculation means. Further, the microcomputer 23 is configured to determine whether the measured data is a direct current or an alternating current based on the arithmetic mean value calculated by the mean value calculating means by the judging means.

  The determination display means 24 is composed of a pair of light emitting diodes (LEDs), and is provided in the center of the front surface of the device body 11. The determination display means 24 is connected to the microcomputer 23. When the determination means determines a direct current (DC), when the arithmetic average value by the average value calculation means is a positive value, one light-emitting diode is turned on and negative. When the value is, the other light emitting diode is turned on. Moreover, when it determines with alternating current (AC) by a determination means, both light emitting diodes will light. As described above, the determination display means 24 displays the case where the determination means determines that the current is direct current and the case where the determination means determines that the current is alternating current.

  The measured value display means 25 has a digital meter 25a and an analog meter 25b, and is provided at the center and upper part of the front surface of the device main body 11, respectively. The digital meter 25a is connected to the microcomputer 23 and digitally displays the mean square value calculated by the average value calculating means. The analog meter 25b is composed of a commercially available center meter so that plus / minus can be confirmed. The analog meter 25b is connected to the voltage code protector 21, and indicates a measured value with a pointer only when measuring DC voltage.

  The power supply unit 26 is provided in the lower part of the front surface of the device main body 11, and includes a power button 26 a for turning on / off the power, a dry battery 26 b as a power supply housed in the device main body 11, and a built-in device main body 11. An auto power off circuit 26c and a constant voltage regulator 26d are provided. The power supply unit 26 can supply power from the dry battery 26b to the determination display means 24, the microcomputer 23, the digital meter 25a, the analog meter 25b, etc. through the auto power-off circuit 26c and the constant voltage regulator 26d. The power supply unit 26 is automatically turned off in 3 minutes by the auto power-off circuit 26c.

  The voltage / current changeover switch 27 is provided in the lower part of the front surface of the device main body 11 and is connected to the microcomputer 23. The voltage / current changeover switch 27 can be switched between input data to the microcomputer 23 by switching between voltage measurement and current measurement.

  The voltage measurement probe 12 includes a pair of a measurement probe 12 a and a ground probe 12 b, and is provided so as to be connectable to the voltage cord protector 21. The voltage measurement probe 12 can measure a potential difference between the measurement probe 12a and the ground probe 12b. Further, the voltage measuring probe 12 has a hand display means 12c composed of a pair of light emitting diodes (LEDs) on the side surface of the measuring probe 12a. The hand display unit 12c is supplied with electric power from the power supply unit 26 of the device main body 11, and performs the same display as the determination display unit 24, thereby discriminating between the case where the determination unit determines DC and the case where AC is determined. Display is possible.

  The current measuring probe 13 is composed of a commercially available clamp-type current sensor and can be connected to the current connector 22. Specifically, the current measuring probe 13 is composed of “KEW8115” manufactured by Kyoritsu Electric Instruments Co., Ltd.

Next, the operation will be described.
When detecting the DC voltage or the AC voltage, the voltage detector 10 can detect the voltage using the voltage measuring probe 12 with the voltage / current changeover switch 27 on the voltage side. Further, when detecting a direct current or an alternating current, the current measurement probe 13 can be connected to the current connector 22 and the voltage / current changeover switch 27 can be set to the current side for detection. The voltage detector 10 can sample the analog data of the voltage and current measured by the voltage measurement probe 12 and the current measurement probe 13 by the AD conversion means of the microcomputer 23 and process it as digital data. By increasing the number of bits for digital conversion, high resolution can be maintained even when the measurement range is widened, and range switching can be made unnecessary.

  By using the arithmetic average value calculated by the average value calculation means of the microcomputer 23, the voltage detector 10 can easily determine the type of AC / DC by the determination means. Specifically, the voltage detector 10 determines that the arithmetic average value is close to zero when the arithmetic average value is close to zero, and determines that the arithmetic average value is direct current otherwise, the determination display means 24 and / or the hand display means 12c Can be displayed. In this way, the voltage detector 10 can determine the type of AC / DC with one unit without switching the range, reduce mistakes during voltage detection work, prevent accidents, and improve work efficiency. it can. In addition, by using the voltage measurement probe 12 and the current measurement probe 13 properly, it is possible to detect DC voltage, AC voltage, DC current, and AC current with one unit.

  The voltage detector 10 displays the mean square value calculated by the average value calculation means of the microcomputer 23 on the digital meter 25a, whereby the magnitudes of the voltage and current measured by the voltage measuring probe 12 and the current measuring probe 13 are displayed. Can know. Further, when the direct current is measured, the analog meter 25b can also know the magnitude of the direct current. Thus, the voltage detector 10 can also measure the magnitude of the voltage and current to be detected, and can perform more detailed voltage detection as well as determination of the type of AC / DC.

  When the voltage detector 10 measures the voltage, the hand display means 12c can know the type of AC / DC by the hand that is performing the voltage detection. For this reason, it is possible to concentrate on the work at hand without greatly moving the line of sight, and the electric detection work can be efficiently advanced.

  The voltage detector 10 was used to detect DC voltage, AC voltage, DC current, and AC current. DC + 100V and DC-100V were measured as DC voltage, AC100V as AC voltage, DC + 5A and DC-5A as DC current, and AC5A as AC current. As a result, it was possible to accurately determine DC / AC for both voltage and current.

  In addition, Table 1 and Table 2 show display values of the digital meter 25a at each voltage detection. In Tables 1 and 2, the display value of the voltage detector 10 is evaluated using the value measured by “Digital Multimeter 7555” manufactured by Yokogawa Electric Corporation as a reference value. As shown in Table 1, in the voltage measurement, the error was ± 0.25% or less. Further, as shown in Table 2, the error was almost zero in the current measurement.

DESCRIPTION OF SYMBOLS 10 Voltage detector 11 Apparatus main body 21 Voltage code protector 22 Current connector 23 Microcomputer 24 Judgment display means 25 Measurement value display means 25a Digital meter 25b Analog meter 26 Power supply part 26a Power button 26b Dry cell 26c Auto power off circuit 26d Constant voltage regulator 27 Voltage current Changeover switch 12 Voltage measurement probe 12a Measurement probe 12b Earth probe 12c Hand display means 13 Current measurement probe 31 Fuse 32, 33 Low-pass filter

Claims (4)

The device body,
A voltage measuring probe directly connected to the device body;
The device main body includes AD conversion means for sampling data at a predetermined time measured by the voltage measurement probe at a predetermined frequency and converting the data into digital data, and arithmetic of digital data obtained by the AD conversion means Mean value calculating means for calculating an average value and a mean square value, and whether the measured data is DC or AC based on the arithmetic average value calculated by the average value calculating means. A determination means for determining, a determination display means for displaying the case where the determination means determines the direct current and the case where the determination is alternating current, and the mean square value calculated by the average value calculation means. And a measured value display means. Having a probe for current measurement provided to be connectable to the device body;
2. The detection according to claim 1, wherein the AD conversion means is configured to sample data at a predetermined frequency measured by the current measuring probe and convert the data into digital data. Electricity. The predetermined time is 100 milliseconds or an integral multiple thereof,
The voltage detector according to claim 1 or 2, wherein the predetermined frequency is 240 Hz or more. 4. The voltage measuring probe includes a hand display unit that displays a case in which the determination unit determines that the direct current is determined to be a direct current and a case in which the determination unit determines that the current is an alternating current. Voltage detector as described in the paragraph.