JP6088860B2 - Non-contact voltage measuring instrument - Google Patents

Description

  The present invention is a portable metal non-contact voltage measuring instrument (hereinafter simply referred to as “non-contact”) capable of measuring a voltage not only from the exposed metal portion but also from the covering of the covered electric wire. "Voltage measuring instrument").

  Conventionally, voltage measurement has been performed by measuring a metal exposed portion of an electric circuit, that is, a metal portion of a measurement probe of a voltage measuring instrument in contact with, for example, a metal terminal of an electric wire. There has been a problem that the measurement probe may short-circuit the circuit of the object to be measured depending on the contact state.

  Therefore, a pair of measurement units (measurement probes) each configured to be held with one hand are provided, and when the measurement target electric wire is a covered electric wire, the voltage can be measured even from above the covering, that is, a non-contact voltage. There is a metal non-contact voltage measuring device having a detection unit (see, for example, Patent Document 1).

  The configuration and operating principle of such a non-contact voltage measuring device are further described in detail in Patent Document 2 and Patent Document 3 and are well known to those skilled in the art, but FIG. 5 (a) and FIG. With reference to an example of the configuration and operation mode of the non-contact voltage measuring instrument, the following is a brief description.

  FIG. 5A is a block diagram of a voltage detection circuit constituting the measurement unit 2 for explaining a voltage measurement method in a non-contact voltage measuring device, and FIG. 5B shows a pair of measurement units (measurement probes). ) Is a block diagram illustrating the configuration of the non-contact voltage measuring instrument 1 having 2 (2A, 2B).

  In FIG. 5A, the voltage detection circuit of the measurement probe 2 of the non-contact voltage measuring instrument 1 shown in this example is a detection electrode 201 disposed opposite to a measurement target wire (covered wire) 100 to be measured. The detection electrode 201 is connected to the variable capacitance element 202. Accordingly, the variable capacitance element 202 includes an electrostatic coupling capacitance Cc existing between the measurement target electric wire 100 and the detection electrode 201, a periodically changing capacitance C (t) of the variable capacitance element 202, and measurement. A periodically changing current i (t) flows in accordance with the voltage (Vm) of the target electric wire 100. The voltage detection circuit of this example is connected to the variable capacitance element 202, detects a current i (t) and converts the voltage to a voltage generation circuit (impedance Z) 203, a carrier voltage V (t) demodulation circuit 204, and an amplification circuit 205. Constitutes a negative feedback. With such a negative feedback configuration, the output Va of the amplifier circuit 205 is applied as a feedback voltage to the voltage generation circuit (impedance Z) 203. When the amplification degree of the amplifier circuit 205 is sufficiently large, the carrier voltage V (t) is zero. It works to be. At this time, the negative feedback is in a steady state, and the output Va and the measured voltage Vm are equal. Therefore, the potential difference between both ends (between a and b) of the series circuit constituted by the electrostatic coupling capacitance Cc, the variable capacitance C (t) and the impedance Z becomes zero, and the current i (t) does not flow.

  Referring to FIG. 5B, the non-contact voltage measuring instrument 1 has two systems of voltage detection circuits shown in FIG. 5A, and functions as the voltage probe 2 (2A, 2B). Each measurement probe 2 (2A, 2B) is maintained in a grounded state via the human body (Zp) by the measurement person holding the outer case 30 (30a, 30b) in his / her hand. Yes.

  As described above, each voltage measurement probe 2 (2A, 2B) detects the voltages Vm1, Vm2 of the measurement target 100 (100A, 100B) via the electrostatic coupling capacitors Cc1, Cc2, and outputs the output voltage Va1, The difference voltage Va of Va2 is output. The voltage detection circuit of one measurement probe 2A includes an operational amplifier 206, a control unit 207, and the like, and the other measurement probe 2B is provided with a power supply circuit 210 including a power source 209. With this configuration, the non-contact voltage measuring instrument 1 can measure both ground voltage and line voltage. The obtained differential voltage Va is subjected to software processing and is output to the LCD display 208 as a measured value.

  Conventionally, the non-contact voltage measuring instrument 1 having the above configuration measures within a voltage range (accuracy guaranteed voltage measurement range) in which accuracy can be guaranteed, as described in, for example, Patent Document 1 or Patent Document 4 described above. The voltage is displayed numerically as a measurement value on the LCD display 208 only when

JP 2009-244131 A JP 2007-132926 A JP 2010-25778 A JP 2009-180630 A

  However, the non-contact voltage measuring instrument 1 may be used not only to obtain the numerical value of the measurement result of the voltage of the measured electric wire, but also to determine how many V system the measured electric wire is. Of course, in this case as well, it is only necessary to read the numerical value of the measurement result with a voltage measuring device, but it is not intuitively understandable like a voltage detector.

  In other words, for example, for a contractor who is moving, removing, or adding an electric circuit, one non-contact voltage measuring instrument is first used as an electric voltage detector when it is desired to check the presence or absence of the voltage of the electric circuit. It is desirable to be able to be used as a voltage indicator when a voltage value of 2 is required. In addition, although there is no obligation to confirm the voltage value for high voltage, there are times when it is desirable to intuitively know how much voltage is applied to the electric wire to be constructed.

  Therefore, an object of the present invention is to enable voltage display within the accuracy guaranteed voltage measurement range, and to display the presence or absence of the voltage or the voltage level without displaying the voltage outside the accuracy guaranteed voltage measurement range. It is to provide a non-contact voltage measuring device that can.

The above object is achieved by a non-contact voltage measuring device according to the present invention. In summary, the present invention comprises a pair of measurement probes that are electrically connected to each other by a connection cable,
Each of the measurement probes is preset with a voltage detection unit that detects the voltage of the measurement target electric wire, a display unit that displays the voltage detected by the voltage detection unit, and a voltage value detected by the voltage detection unit. In a non-contact voltage measuring instrument having a control unit for comparing whether or not it is within the guaranteed accuracy voltage range, and changing the display mode of the display unit according to the result,
The display unit
(1) When the voltage value (Vm) detected by the voltage detection unit is within the accuracy guaranteed voltage range (Rm), a voltage display unit that displays the voltage value (Vm) numerically;
(2) When the voltage value (Vm) detected by the voltage detector is less than the minimum voltage in the accuracy guaranteed voltage range (Rm), the voltage level is not displayed, but the magnitude of the voltage is displayed. A first voltage detection display;
(3) When the voltage value (Vm) detected by the voltage detector exceeds the maximum voltage in the accuracy guaranteed voltage range (Rm), the voltage is not displayed and the magnitude of the voltage A second voltage detection display for displaying
It is a non-contact voltage measuring device characterized by comprising.

  According to an embodiment of the present invention, the display unit includes the voltage display unit disposed in a central part, the first voltage detection display unit disposed on the left side of the voltage display unit, and the right side of the voltage display unit. The second voltage detection display unit is disposed.

  According to another embodiment of the present invention, the first and second voltage detection display units are composed of a plurality of dot-shaped indicators, and turn on a predetermined number of indicators according to the level of the measurement voltage.

According to another embodiment of the present invention, the controller is
(1) When the voltage value (Vm) detected by the voltage detection unit is within the accuracy guaranteed voltage range (Rm), the voltage display unit displays the voltage value (Vm) numerically, and 1 power detection display unit turns on all indicators, the second power detection display unit turns off all indicators,
(2) When the voltage value (Vm) detected by the voltage detection unit is less than the minimum voltage in the accuracy guaranteed voltage range (Rm), the voltage value (Vm) is displayed on the voltage display unit. A character indicating that the voltage is less than the lowest voltage in the voltage measurement range, for example, “Lo” is displayed, a predetermined number of indicators are lit on the first voltage detection display unit, and all the second voltage detection display units are displayed. Turn off the indicator
(3) When the voltage value (Vm) detected by the voltage detector exceeds the maximum voltage in the accuracy guaranteed voltage range (Rm), the voltage display unit displays the voltage value (Vm). A character indicating that the voltage exceeds the accuracy guarantee voltage measurement range, for example, “Hi” is displayed, the first voltage detection display unit lights all indicators, and the second voltage detection display unit Controls to turn on a predetermined number of indicators.

  The non-contact voltage measuring instrument of the present invention functions as a voltage measuring instrument within the accuracy guaranteed voltage measurement range and can display voltage, and functions outside the accuracy guaranteed voltage measuring range and does not display voltage. The presence / absence of a voltage or the voltage level can be displayed, and the display can be switched so that the function can be switched according to the actual use situation, which is extremely useful.

FIG. 1A is a perspective view showing an overall configuration of an embodiment of a non-contact voltage measuring instrument provided with a pair of measurement probes according to the present invention, and FIG. It is sectional drawing which shows the internal structure of a part. FIG. 2 is a flowchart for explaining an embodiment of the operation mode of the non-contact voltage measuring device according to the present invention. FIG. 3 is a diagram for explaining an embodiment of the operation mode of the non-contact voltage measuring device according to the present invention. 4A to 4C are diagrams illustrating an example of the configuration and display mode of the display unit. FIG. 5A is a block diagram illustrating an example of a voltage detection circuit provided in a measurement probe of a non-contact voltage measuring device, and FIG. 5B illustrates a non-contact voltage measuring device including a pair of measurement probes. It is a block diagram which shows an example. FIG. 6 is a perspective view illustrating a state in which the tip of the voltage detection unit of the measurement probe is pressed against the measurement target electric wire.

  Hereinafter, the non-contact voltage measuring device according to the present invention will be described in more detail with reference to the drawings.

Example 1
FIG. 1 shows an overall configuration of an embodiment of a non-contact voltage measuring instrument 1 according to the present invention. In the present embodiment, the non-contact voltage measuring instrument 1 includes a pair of measurement units (measurement probes) 2 (2A, 2B) each configured to be held with one hand, that is, the display side measurement probe 2A and the power source side measurement. The display side measurement probe 2A and the power source side measurement probe 2B are electrically connected by a cable 3.

  The display-side measurement probe 2A and the power-source-side measurement probe 2B can have the same appearance and internal structure as shown in FIG. In this embodiment, the display-side voltage probe 2A includes a rectangular tube-shaped case main body 30a whose cross section perpendicular to the longitudinal direction is rectangular, and a tip voltage detector (cap) installed at one end of the case main body 30a. ) 4a. The case body 30a and the tip detection part (cap) 4a are made of an electrically insulating material, for example, a synthetic resin such as ABS in this embodiment.

  In the case main body 30a of the display-side voltage probe 2A, as described with reference to FIGS. 5A and 5B, the sensor unit 6a including the detection electrode 201A constituting the voltage detection circuit, the variable capacitance An element 202, a voltage generation circuit (impedance Z) 203, a demodulation circuit 204, an amplification circuit 205, and the like are attached. Further, in this embodiment, the display side voltage probe 2A is provided with an operational amplifier 206, a control unit 207, and the like. Moreover, as shown in FIG.1 (b), the sensor part 6a is arrange | positioned so that the detection electrode 201A arrange | positioned at the front-end | tip may protrude in the cap 4a from the front-end | tip opening part 5 of the case main body 30a.

  In the present embodiment, the display-side voltage probe 2A includes a power button 211, a hold button 212 that switches from flashing to constant lighting when the voltage satisfies a certain stability condition by measurement, and the measurement result is a numerical value. An LCD display 208 constituting a display unit for displaying is attached. An opening window 13 for exposing and arranging these buttons 211 and 212, the LCD display 208, and the like is formed in the main body case 30a, and an indicator plate 14 is attached to the opening window 13.

  On the other hand, in the case main body 30b of the power supply side voltage probe 2B, as described with reference to FIGS. 5A and 5B, the voltage detection circuit is configured in the same manner as the display side voltage probe 2A. A sensor unit 6b including an electrode 201B, a variable capacitance element 202, a voltage generation circuit (impedance Z) 203, a demodulation circuit 204, an amplification circuit 205, and the like are attached. Further, in this embodiment, the power supply side voltage probe 2B is provided with a power supply circuit 210 including a power supply 209. In addition, as shown in FIG. 1B, the sensor portion 6b has a detection electrode 201B disposed at the tip thereof protruding from the tip opening 5 of the case body 30b into the cap 4b.

  The power supply side voltage probe 2B is not provided with a power button 211, a hold button 212, and an LCD display 208 for turning on and off the power supply circuit 210 disposed on the display side voltage probe 2A. A battery housing portion (not shown) is formed in the case main body 30b.

  With reference to FIG.2 and FIG.3, one Example of the operation | movement aspect of the non-contact voltage measuring device 1 of the said structure is described.

  First, as shown in FIG. 6, the measurer fits the tip voltage detector 4 (4a, 4b) of the display side measurement probe 2A and the power supply side measurement probe 2B to the outer peripheral surface of the electric wire 100 (100A, 100B). When the curved surface 40 (40a, 40b) of the tip voltage detector 4 (4a, 4b) is brought into close contact with the outer peripheral surface of the electric wire, the power switch 211 is turned on (S1). Of course, the measurer can also bring the tip detection unit 4 (4a, 4b) into close contact with the outer peripheral surface of the electric wire after turning on the power switch 211.

  When the tip detection unit 4 (4a, 4b) is pressed against the outer peripheral surface of the electric wire 100 (100A, 100B) and the power switch 211 is turned on, the non-contact voltage measuring instrument 1 starts voltage measurement. At this time, prior to starting the voltage measurement, the control unit 207 can initialize each unit constituting the non-contact voltage measuring instrument 1 (S2). Next, the control unit 207 reads the data of the guaranteed accuracy voltage range Rm from the storage unit 207m (FIG. 5B), and the measurement preparation is completed (S3). If necessary, the control unit 207 can display a character (for example, “READY”) indicating that preparation for measurement is completed on the display unit (LCD display 208).

In the present embodiment, the LCD display 208 constituting the display unit will be described in detail later, but as shown in FIGS.
(1) When the voltage value Vm measured by the non-contact voltage measuring instrument 1 is within the accuracy guaranteed voltage range Rm, the voltage value display unit 208A is displayed at the center of the LCD display 208 and displays the voltage value Vm as a numerical value. When,
(2) When the voltage value Vm measured by the non-contact voltage measuring instrument 1 is outside the guaranteed accuracy voltage range Rm, the first and second voltage detections that display the degree of the voltage without displaying the inherent voltage. Display sections 208B and 208C are provided. In this embodiment, in FIGS. 4A to 4C, the left side of the voltage display unit 208A is such that the voltage value Vm measured by the non-contact voltage measuring instrument 1 does not reach the lowest voltage in the accuracy guaranteed voltage range Rm. That is, the first voltage detection display unit 208B, which is a display unit when the voltage is lower than the minimum voltage, is shown on the right side of the voltage display unit 208A. The second voltage detection display unit 208 </ b> C is a display unit when the voltage is exceeded. Of course, the arrangement mode of the measurement display unit 208A, the first voltage detection display unit 208B, and the second voltage detection display unit 208C is not limited to the above arrangement, but the arrangement mode of the present embodiment is preferable.

  In the present embodiment, the voltage display unit 208A is a display method capable of numerical display, and the first and second voltage detection display units 208B and 208C have a plurality of, for example, five dot indicators in a row. A display method 208i is adopted. The shape of each indicator 208i is a rectangle in this embodiment, but may be a circular shape or other shapes. As another method, a bar-shaped indicator may be used to control the lighting area according to the voltage level.

  In step 3 (S3), preparation for measurement is completed and measurement is started. In this embodiment, the control unit 207 detects fluctuations in voltage detected by the voltage detection unit 4 (4a, 4b). As shown in FIG. 3, the hold button 212 that has been turned off before the voltage measurement is turned on at the start of the measurement, and the light emission blinks until the voltage satisfies a certain stable condition. . When the control unit 207 determines that the measured voltage satisfies a certain stability condition, the control unit 207 switches the hold button 212 from the flashing light emission state to the constant lighting state. Next, the control unit 207 compares the measured value Vm when the hold button 212 is always lit with the accuracy guarantee voltage range Rm (S4). If YES in S4, that is, if the measured value Vm is within the accuracy guaranteed voltage range Rm, the measured value Vm (this example) is displayed on the voltage display 208A of the LCD display 208 as shown in FIG. Then, “102.0”) is displayed (S5). In the first voltage detection display unit 208B, all indicators 208i are turned on, and in the second voltage detection display unit 208C, all indicators 208i are turned off. The storage unit 207m of the control unit 207 stores the measured value Vm and holds it. That is, the non-contact voltage measuring device 1 functions as a voltage measuring device.

  On the other hand, if No in step 4 (S4), the process proceeds to step 6 (S6). That is, if the measured value Vm is outside the guaranteed accuracy voltage range Rm in S4, that is, if the measured value Vm does not reach (below) the lowest voltage within the guaranteed accuracy voltage range Rm, If Vm exceeds the maximum voltage within the guaranteed accuracy voltage range Rm, the process proceeds to step 6 (S6).

  If YES in step 6, that is, if the measured value Vm is less than the minimum voltage within the guaranteed accuracy voltage range Rm, the process proceeds to step 7 (S7), and the voltage display 208A of the LCD display 208 displays the voltage display 208A in FIG. As shown, the unique measurement value Vm is not displayed, but a character indicating that the measurement value Vm is less than the lowest voltage in the accuracy guaranteed voltage measurement range, for example, “Lo” is displayed. The electric display unit 208B displays a level indicating the magnitude of the voltage. In the present embodiment, the first voltage detection display unit 208B has a display system that employs a plurality of, for example, five dot-shaped indicators 208i in a row, and the voltage level is determined by the number of lit dot-shaped indicators 208i. Can be confirmed. In the example shown in FIG. 3A, the three indicators 208i on the left side of the first voltage detection display unit 208B are lit. When all the lights (dotted indicator 208i) are turned off, it is determined that there is no voltage. Further, the second voltage detection display unit 208C is turned off.

  In Step 6, if No, that is, if the measured value Vm exceeds the maximum voltage that the accuracy of the non-contact voltage measuring instrument 1 can guarantee, the measurement display unit 208A of the LCD display 208 displays the measurement display unit 208A as shown in FIG. In this case, the unique measurement value Vm is not displayed, but a character indicating that the measurement value Vm is a voltage exceeding the accuracy guaranteed voltage measurement range Rm, for example, “Hi” is displayed. The electric display unit 208C performs level display indicating the magnitude of the voltage. In the present embodiment, the second voltage detection display unit 208C has a display method in which a plurality of, for example, five dot-shaped indicators 208i are adopted in a row, and the voltage level is confirmed by the number of lit dots. Can do. Moreover, all the 1st electric power detection display parts 208B are lighted.

In the above configuration, more specifically, for example, when the accuracy guaranteed voltage measurement range Rm of the non-contact voltage measuring device is set to 30 to 300 V, the display mode of the LCD display 208 is:
(1) When the measured value Vm is less than 30 V, as shown in FIG. 4A, “Lo” is displayed on the display unit 208A, and the lit dot indicator 208i of the first voltage detection display unit 208B is displayed. The approximate voltage level is known by the number. In this example, it is determined to be approximately 15V.
(2) When the measured value Vm is 30V to 300V, as shown in FIG. 4B, the measured value Vm is displayed on the display unit 208A as a numerical value “102.0”, for example, to guarantee accuracy. To do.
(3) When the measured value Vm exceeds 300 V, as shown in FIG. 4C, “Hi” is displayed on the display unit 208A, and the lit dot indicator 208i of the second voltage detection display unit 208C is displayed. The approximate voltage level is known by the number. In this example, it is determined to be approximately 500V.

  By turning off the power switch 211, the measurement is finished (S9), and the tip side detection probes 4 (4a, 4b) of the display side measurement probe 2A and the power source side measurement probe 2B are separated from the outer peripheral surface of the electric wire 100.

  As described above, according to the non-contact voltage measuring instrument 1 of the present invention, it functions as a voltage measuring instrument within the guaranteed accuracy voltage measurement range Rm and enables voltage display, and as a voltage detector outside the guaranteed accuracy voltage measuring range. Without functioning voltage display, the presence or absence of voltage or the voltage level can be displayed. That is, the non-contact voltage measuring instrument 1 of the present invention is extremely useful because it can display the function to be switched according to the actual usage scene.

DESCRIPTION OF SYMBOLS 1 Non-contact voltage measuring device 2 (2A, 2B) Measuring probe 3 Connection cable 4 (4a, 4b) Voltage detection part 100 (100A, 100B) Measuring object electric wire 208 LCD display (display part)
208A Voltage display unit 208B First voltage detection display unit 208C Second voltage detection display unit

Claims (4)

Having a pair of measurement probes electrically connected to each other by a connection cable;
Each of the measurement probes is preset with a voltage detection unit that detects the voltage of the measurement target electric wire, a display unit that displays the voltage detected by the voltage detection unit, and a voltage value detected by the voltage detection unit. In a non-contact voltage measuring instrument having a control unit for comparing whether or not it is within the guaranteed accuracy voltage range, and changing the display mode of the display unit according to the result,
The display unit
(1) When the voltage value (Vm) detected by the voltage detection unit is within the accuracy guaranteed voltage range (Rm), a voltage display unit that displays the voltage value (Vm) numerically;
(2) When the voltage value (Vm) detected by the voltage detector is less than the minimum voltage in the accuracy guaranteed voltage range (Rm), the voltage level is not displayed, but the magnitude of the voltage is displayed. A first voltage detection display;
(3) When the voltage value (Vm) detected by the voltage detector exceeds the maximum voltage in the accuracy guaranteed voltage range (Rm), the voltage is not displayed and the magnitude of the voltage A second voltage detection display for displaying
A non-contact voltage measuring instrument comprising:   The display unit has the voltage display unit arranged at the center, the first voltage detection display unit arranged on the left side of the voltage display unit, and the second voltage detection display unit arranged on the right side of the voltage display unit. The non-contact voltage measuring device according to claim 1, wherein:   2. The non-display according to claim 1, wherein each of the first and second voltage detection display units includes a plurality of dot-shaped indicators, and lights a predetermined number of indicators according to a level of a measurement voltage. Contact voltage measuring instrument. The controller is
(1) When the voltage value (Vm) detected by the voltage detection unit is within the accuracy guaranteed voltage range (Rm), the voltage display unit displays the voltage value (Vm) numerically, and 1 power detection display unit turns on all indicators, the second power detection display unit turns off all indicators,
(2) When the voltage value (Vm) detected by the voltage detection unit is less than the minimum voltage in the accuracy guaranteed voltage range (Rm), the voltage value (Vm) is displayed on the voltage display unit. A character indicating that the voltage is less than the lowest voltage in the voltage measurement range is displayed, a predetermined number of indicators are lit on the first voltage detection display unit, and all the indicators are turned off on the second voltage detection display unit. ,
(3) When the voltage value (Vm) detected by the voltage detector exceeds the maximum voltage in the accuracy guaranteed voltage range (Rm), the voltage display unit displays the voltage value (Vm). Characters indicating that the voltage exceeds the accuracy guarantee voltage measurement range are displayed, the first voltage detection display unit lights all indicators, and the second voltage detection display unit has a predetermined number of lights. Turn on the indicator,
The non-contact voltage measuring device according to claim 3, wherein the non-contact voltage measuring device is controlled as follows.

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