JP2020020595A - Measurement device - Google Patents

Abstract

To reliably and easily stop application of a measurement voltage to a measurement object in a short time even when an earthquake occurs or a measurement device is carelessly moved during application of a measurement voltage to a measurement object.SOLUTION: A measurement device includes: a voltage output section 2 for outputting a measurement voltage to be applied to a test object X in measuring a current value of current flowing in the measurement object X; a processing section 8 for controlling the voltage output section 2 so as to allow a measurement voltage to be output; and an acceleration sensor 5 for detecting an acceleration added to pressure test equipment 1 so as to output a detection signal. The processing section 8 repetitively specifies magnitude of an acceleration added to the pressure test equipment 1 on the basis of acceleration data Dg, and controls the voltage output section 2 so as to allow the output of a measurement voltage to stop when it is specified that an acceleration whose magnitude is equal to or larger than the previously regulated one has been added to the pressure test equipment 1 in a state where a measurement voltage is being output from the voltage output section 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a measurement device configured to be able to measure a current value of a current flowing through a measurement target in a state where a measurement voltage is applied.

  For example, the following Patent Literature discloses a withstand voltage test device that can be used when confirming safety against an abnormal voltage such as a surge voltage. This withstand voltage test device includes an AC voltage converter, a withstand voltage transformer having a primary winding connected to a secondary output of the AC voltage converter, and an OC for detecting an overcurrent of the secondary output of the AC voltage converter. It has a relay and a control device. In addition, a display for displaying various information, a danger indicator light that is turned on during a test, an alarm buzzer, and the like are connected to the control device.

  When a withstand voltage test (for example, a withstand voltage test to the ground) of a test object (electrical device) using the withstand voltage test device is performed, first, the control device displays predetermined preparation guidance on a display and an operator. Waits until the ready switch is turned on. In this case, the worker removes the connection wiring other than the wiring for the withstand voltage test from the test object according to the guidance, and after connecting the test object to the secondary winding of the withstand voltage transformer, turns the ready switch on. Turn ON.

  In response, the control device turns on the danger indicator light and controls the AC voltage converter to gradually increase the secondary output voltage of the withstand voltage transformer. Further, the control device starts monitoring input signals (current values of the measured overcurrent and leakage current) from the OC relay and the AC current detector, and determines whether or not the test target is normal (the overcurrent current). Value and whether the current value of the leakage current is equal to or less than a specified value) are repeatedly specified.

  Further, when the output voltage to the test object reaches the specified voltage value (test voltage value) without being specified as being abnormal, the control device continues to monitor the input signal, and To stop the boosting, and wait until the specified time elapses while maintaining the secondary output voltage of the withstand voltage transformer constant. Further, when the specified time has elapsed without being specified as abnormal, the control device controls the AC voltage converter to gradually lower the secondary-side output voltage of the withstand voltage transformer so that the voltage with respect to the test object is reduced. Stop output of Further, the control device turns off the danger indicator lamp and displays the test termination guidance on the display. As a result, the test object is inspected as good, and the withstand voltage test ends.

  On the other hand, during the above-mentioned withstand voltage test (from the start to the stop of the output of the voltage to the test object), when the current value of at least one of the overcurrent or the leakage current exceeds the specified value (if the test object is abnormal, The control unit controls the AC voltage converter to immediately stop outputting the voltage to the test object, activates the alarm buzzer (outputs an abnormal alarm), and determines that the test result is abnormal. Is displayed on the display. In addition, when the confirmation switch is turned ON by the operator who has confirmed the abnormal result, the control device turns off the danger indicator light, displays a test termination guidance display on the display, and terminates the withstand voltage test.

JP-A-8-201471 (page 3-5, FIG. 1-2)

  However, the withstand voltage test device disclosed in the above patent document has the following problems to be solved. Specifically, in the withstand voltage test device disclosed in the above-mentioned patent document, a withstand voltage test is started by performing a preparation operation in accordance with the guidance and then operating a ready switch, so that the test voltage is applied to the test object. When the specified time elapses without being identified as abnormal, or when it is identified as abnormal, the output of the test voltage to the test object is stopped and the withstand voltage test is performed. A terminated configuration is employed.

  On the other hand, when a withstand voltage test using this withstand voltage test device is performed, a large earthquake occurs, and the withstand voltage test device is moved from the installation location or a person who does not know that the withstand voltage test is being performed ( If a person who does not notice the lit hazard indicator light) erroneously moves the operating withstand voltage test device, the wiring connected to the test object may be removed from the test object. In this case, in a measurement process using this type of device (such as a withstand voltage test disclosed in the above patent document or a measurement process of an insulation resistance value using an insulation resistance measurement device), the measurement target (test target) is used. A very high voltage value is applied. Therefore, when an earthquake occurs during the measurement process (during a withstand voltage test) or the device is inadvertently moved, a high potential is applied to apply a high voltage value to the measurement target. There is a possibility that an accident may occur in which the existing wiring comes into contact with surrounding conductors or people.

  Therefore, in this type of apparatus, an operation button capable of forcibly stopping application of a voltage to a measurement target (capable of terminating the measurement process) is provided, or a voltage is applied to the measurement target only while the operation button is being operated. (A configuration in which the application of the voltage is stopped when the user releases the hand from the operation button). In addition, some devices of this type are configured such that wiring can be extracted from the device main body.When such a device is used, by extracting the wiring from the device main body, a high potential can be obtained. It is also possible to prevent the existing wiring from contacting surrounding conductors and people. However, when an earthquake occurs or when the measuring device (withstand voltage test device) is moved carelessly, the operation of forcibly stopping the application of voltage to the measurement target (test target) or the operation of pulling out the wiring from the device body is It is never easy to implement accurately and quickly.

  The present invention has been made in view of such a problem to be solved, and it is assumed that an earthquake occurs or a measurement device is inadvertently moved while applying a measurement voltage to a measurement target. It is another object of the present invention to provide a measuring apparatus capable of stopping the application of a measuring voltage to a measurement target reliably and easily in a short time.

  In order to achieve the above object, the measuring device according to claim 1 controls a voltage output unit that outputs a measurement voltage applied when measuring a current value of a current flowing through a measurement target, and controls the voltage output unit. A control unit for outputting the measurement voltage, comprising: an acceleration sensor that detects an acceleration applied to the measurement device and outputs a detection signal, wherein the control unit includes: The magnitude of the applied acceleration is repeatedly specified based on the detection signal, and an acceleration equal to or greater than a predetermined magnitude is applied to the measuring device while the voltage for measurement is being output from the voltage output unit. When it is determined that the measurement has been performed, the output of the measurement voltage is stopped by controlling the voltage output unit.

  The measuring device according to claim 2 is the measuring device according to claim 1, wherein the control unit specifies that the acceleration equal to or larger than the predetermined magnitude is applied to the measuring device, and sets the measurement voltage. When the output is stopped, a notification process for notifying that the voltage for measurement is not output is executed.

  The measuring device according to claim 3 is the measuring device according to claim 2, wherein the control unit specifies that the acceleration equal to or greater than the predetermined magnitude is applied to the measuring device, and the measurement voltage When the output of the measurement voltage is regulated after the output of the measurement voltage is stopped, the notification process is continuously executed until the regulation of the output of the measurement voltage is released.

  Further, the measuring device according to claim 4 is the measuring device according to any one of claims 1 to 3, wherein the operation unit capable of performing an operation of setting and changing the predetermined size and the predetermined unit. And a data input unit capable of inputting stop condition data capable of specifying the size.

  Furthermore, the measuring device according to claim 5 is the measuring device according to any one of claims 1 to 4, further comprising a three-dimensional acceleration sensor as the acceleration sensor, wherein the three-dimensional acceleration sensor is provided for each of three detection axes. Detecting the acceleration applied to the measuring device and outputting the detection signal, and the control unit controls the measuring device based on each of the detection signals output from the three-dimensional acceleration sensor. The output of the measurement voltage is stopped when it is specified that an acceleration equal to or greater than the predetermined magnitude is applied in the direction of the detection axis.

  The measuring device according to claim 1 includes an acceleration sensor that detects an acceleration applied to the measuring device and outputs a detection signal, and the control unit determines a magnitude of the acceleration applied to the measuring device based on the detection signal. While repeatedly specifying, and when it is specified that acceleration equal to or greater than a predetermined magnitude is applied to the measuring device in a state where the measuring voltage is output from the voltage output unit, the voltage output unit is controlled to control the measuring voltage. Stop output of

  Therefore, according to the measuring device of the first aspect, even if an earthquake occurs or the measuring device is inadvertently moved while the measuring voltage is being applied to the measuring object, it is added to the measuring device. Since the output of the measurement voltage from the voltage output unit is automatically stopped when the acceleration is equal to or greater than a predetermined magnitude, the measurement device may be operated to stop the output of the measurement voltage. Even if the measurement cable cannot be pulled out from the main body of the measurement device, the application of the measurement voltage to the measurement target can be stopped reliably and easily in a short time. This makes it possible to reliably prevent an electric shock accident or the like from occurring even if the measuring cable is removed from the measurement target as the measuring device moves.

  According to the measuring device according to claim 2, when the control unit specifies that an acceleration equal to or larger than a predetermined magnitude is applied to the measuring device and stops outputting the measuring voltage, the measuring voltage is A state in which the measurement process is stopped due to the movement of the measurement device for a user who does not recognize that the measurement device has moved by executing the notification process of notifying that the output has not been output. Can be surely recognized.

  According to the measuring device of the third aspect, the control unit determines that the acceleration equal to or larger than the predetermined magnitude is applied to the measuring device and stops the output of the measuring voltage, and then outputs the output of the measuring voltage. When the regulation is performed, the notification process is continuously executed until the regulation of the output of the measurement voltage is released, so that the output of the measurement voltage cannot be restarted due to the movement of the measurement device. The user can be surely and easily recognized.

  According to the measuring device of the fourth aspect, the operation unit capable of setting and changing the “predefined size” and the input of the stop condition data capable of specifying the “predetermined size” are input. By providing at least one of a possible data input unit, unlike a configuration in which setting and changing of “predetermined magnitude (acceleration)” cannot be performed, according to an environment in which measurement processing is performed on a measurement target. By setting / changing the “predetermined magnitude (acceleration)”, it is possible to prevent the measurement process from being unnecessarily stopped or cannot be restarted, and the measuring device can be moved. Even in an environment with high performance, it is possible to reliably detect the movement of the measuring device and to reliably stop the output of the measurement voltage.

  The measuring device according to claim 5, further comprising a three-dimensional acceleration sensor as an acceleration sensor, wherein the three-dimensional acceleration sensor detects acceleration applied to the measuring device for each of three detection axes, outputs a detection signal, and performs control. When the unit specifies that acceleration equal to or larger than a predetermined magnitude is applied to the measuring device in any of the detection axis directions based on each detection signal output from the three-dimensional acceleration sensor, the measurement voltage is used. Stop output of Therefore, according to the measuring device of claim 6, even if the measuring device is moved in any direction, when the measuring device is moved so as to exceed the specified acceleration, the output of the measuring voltage from the voltage output unit is performed. Can be reliably stopped.

FIG. 2 is a configuration diagram of the pressure resistance tester 1. It is a block diagram of 1 A of withstand voltage testers.

  Hereinafter, an embodiment of a measuring device will be described with reference to the accompanying drawings.

  The withstand voltage tester 1 shown in FIG. 1 is an example of a “measurement device” and is configured to be able to perform a withstand voltage test on a test target X, which is an example of a “measurement target”. The withstand voltage tester 1 includes a voltage output unit 2, a voltage measurement unit 3, a current measurement unit 4, an acceleration sensor 5, an operation unit 6, a display unit 7, a processing unit 8, and a storage unit 9.

  The voltage output unit 2 is an example of a “voltage output unit”, and is a high-voltage measurement voltage applied to the test target X when measuring the current value of the current flowing through the target X under the control of the processing unit 8. Is generated and output. The voltage measurement unit 3 measures the voltage value of the measurement voltage output from the voltage output unit 2, generates voltage value data Dv, and outputs the generated voltage value data Dv to the processing unit 8. The current measurement unit 4 is an example of a “current measurement unit”, and measures a current value of a current flowing through the test target X in a state where the measurement voltage output from the voltage output unit 2 is applied to the test target X. Then, the current value data Da is generated, and the generated current value data Da is output to the processing unit 8.

  The acceleration sensor 5 is an example of an “acceleration sensor”, detects acceleration applied to the pressure resistance tester 1, and outputs acceleration data Dg, which is an example of a “detection signal”, to the processing unit 8. In this case, the acceleration sensor 5 is formed of a three-dimensional acceleration sensor, and converts the acceleration applied to the pressure resistance tester 1 into three orthogonal detection axes (three axes of X axis, Y axis and Z axis). And outputs acceleration data Dg. In the withstand voltage tester 1 of the present embodiment, as an example, the detection axes are set in three directions of the width direction, the depth direction, and the height direction of the housing in which the components 2 to 9 of the withstand pressure tester 1 are housed. The acceleration sensor 5 is arranged in the housing so as to match (not shown).

  The operation unit 6 is an example of an “operation unit”, and includes an operation switch for setting an operation condition of the withstand voltage tester 1, a start switch for instructing start of the withstand voltage test, and end of the withstand voltage test (forced termination). And outputs an operation signal corresponding to the switch operation to the processing unit 8. The operation unit 6 includes, as one of the above-described operating conditions, a threshold (a threshold for determining whether or not there is a movement) as a determination criterion for automatically stopping the withstand voltage test when the withstand voltage tester 1 moves during the withstand voltage test. : An example of “acceleration” of “predetermined magnitude” can be set and changed. The setting and changing of the threshold value for determining the presence or absence of movement will be specifically described later. The display unit 7 displays various display screens such as a setting screen for operating conditions and a display screen for test results under the control of the processing unit 8.

  The processing unit 8 is an example of a “control unit” and controls the withstand voltage tester 1 as a whole. The processing unit 8 controls the voltage output unit 2 to output the measurement voltage, controls the voltage measurement unit 3 to measure the voltage value of the measurement voltage, and controls the current measurement unit 4 to perform the test. The current value of the current flowing through the target X is measured. The processing unit 8 monitors whether or not a voltage for measurement of a voltage value required for the test is applied to the test target X based on the voltage value data Dv output from the voltage measurement unit 3, The current value of the current flowing through the test object X is specified based on the current value data Da output from the current measuring unit 4, and the specified current value is compared with the value of the threshold data for pass / fail determination. Then, it is determined whether or not the pressure resistance of the test object X is good, and the determination result is displayed on the display unit 7.

  Further, the processing unit 8 determines the magnitude of the acceleration applied to the withstand voltage tester 1 based on the acceleration data Dg output from the acceleration sensor 5 during the period from when the output of the measurement voltage from the voltage output unit 2 is started to when it is stopped. When it is determined that the acceleration equal to or higher than the threshold is applied to the pressure resistance tester 1 by repeatedly specifying the acceleration and comparing the specified acceleration with the predetermined threshold value for determining the presence or absence of movement. (An example of “when it is specified that an acceleration equal to or larger than a predetermined magnitude is applied to the measuring device”), the process of controlling the voltage output unit 2 to stop outputting the measurement voltage is continuously executed. . In this case, in the withstand pressure tester 1 of the present example including the acceleration sensor 5 configured by a three-dimensional acceleration sensor, the processing unit 8 determines the acceleration applied to the withstand pressure tester 1 by three detection axes of the acceleration sensor 5. A configuration in which the output of the measurement voltage from the voltage output unit 2 is stopped when it is specified based on the acceleration data Dg for each time and when it is specified that the acceleration equal to or more than the threshold value is applied in any of the detection axis directions. Has been adopted.

  Note that, unlike the configuration of the processing unit 8 in the withstand voltage tester 1 of the present example, a processor that functions as a “control unit” that controls each of the components 2 to 4 and 7 of the withstand voltage tester 1 and the current value data Da It can also be provided separately and independently from the processor that functions as a “determination unit” that determines the pressure resistance of the test target X based on the determination. The storage unit 9 stores an operation program of the processing unit 8, operation condition data Dc generated by the processing unit 8, and the like.

  Next, an example of a withstand voltage test of the test object X using the withstand voltage tester 1 will be described with reference to the accompanying drawings.

  First, by operating the operation unit 6, according to the withstand voltage required for the test object X and the like, the pass / fail judgment for judging whether or not the withstand voltage property of the test object X is good or bad based on the measurement condition of the current value and the measurement result. Thresholds and the like are set. If an emergency stop of the withstand voltage test is performed (an output of the measurement voltage from the voltage output unit 2 is stopped) when an earthquake occurs or the withstand voltage tester 1 is moved during the withstand voltage test, The magnitude of the acceleration applied to the tester 1 when the pressure resistance test is urgently stopped is set.

  In this case, in the withstand voltage tester 1 of the present embodiment, for example, three detection axes of the acceleration sensor 5, that is, three directions of the width direction, the depth direction, and the height direction of the housing of the withstand voltage tester 1 are distinguished. Without setting a common threshold value for determining the presence or absence of movement in each direction, the withstand voltage tester is configured to apply an acceleration greater than the set threshold value to the withstand voltage tester 1 in any direction. A first operation mode for urgently stopping the pressure test when the first pressure sensor 1 is moved, and a movement mode determination for each of three directions of the width, depth, and height directions of the housing of the pressure test device 1. Threshold values are set separately, and the withstand voltage test is urgently performed when the withstand voltage test device 1 is moved so that acceleration greater than the corresponding threshold value is applied to the withstand voltage test device 1 in any direction. One of the second operation modes to be stopped And it is configured so that it can be selected.

  Therefore, for example, when a withstand voltage test is performed on the test object X in a room, a common threshold value for judging the presence or absence of movement is set in each direction in order to operate in the first operation mode. Further, for example, when a pressure test is performed on the test object X in a running vehicle, in order to operate in the second operation mode, the existence of the roll applied to the pressure test device 1 is considered. The threshold value for judging the presence or absence of movement in the width direction and the depth direction of the housing of the proof pressure tester 1 is set to a large value, and the height direction of the housing of the proof pressure tester 1 (that is, the (The direction of lifting from the installation location) is set to a small value.

  In addition, in the pressure resistance tester 1 of this example, in addition to the setting method of numerically inputting the threshold value for determining the presence or absence of movement, that is, the acceleration used as a reference for determining whether or not to emergency stop the pressure resistance test, The display section 7 displays a scroll bar indicating "detection sensitivity as to whether or not the detector 1 has been moved." When the bar is moved to the "detection sensitivity: low" side by operating the operation section 6, a threshold is displayed. When the acceleration as a value is set to a large value and the bar is moved to the “detection sensitivity: high” side, it is possible to select a setting method in which the acceleration as a threshold is set to a small value. Is configured.

  Further, in the withstand voltage tester 1 of the present embodiment, on the operating condition setting screen for setting the threshold value for judging the presence or absence of movement, it is set so that the emergency stop of the withstand voltage test is not performed, or as the above threshold value, By setting either “0” or “acceleration: the maximum value that can be set”, or by moving the bar to the “detection sensitivity: minimum” position using the scroll bar indicating “detection sensitivity”, It is also possible to operate in the third operation mode in which the pressure test is not emergency stopped even if 1 is moved. Thus, in an environment where the user knows that the pressure tester 1 is moved, the pressure test can be continued even if the pressure tester 1 is moved. In this example, it is assumed that the user who has requested the operation in the first operation mode has set a common threshold value for the presence / absence of movement in the three directions. In response, the processing unit 8 generates the operation condition data Dc and stores it in the storage unit 9.

  Next, the voltage output unit 2 and the current measurement unit 4 are connected to the test object X via a measurement cable. Thus, the preparation for starting the withstand voltage test for the test object X is completed. Subsequently, the operation unit 6 is instructed to start a pressure resistance test by operating a start switch. In response, the processing unit 8 controls the voltage output unit 2 to output a measurement voltage having a voltage value corresponding to a preset measurement condition. As a result, the measurement voltage output from the voltage output unit 2 is applied between both ends of the test object X. The processing unit 8 controls the voltage measurement unit 3 to measure the voltage value of the measurement voltage output from the voltage output unit 2, and controls the current measurement unit 4 to measure the current flowing through the test object X. Have the current measured.

  Further, the processing unit 8 monitors whether or not a voltage for measurement of a voltage value required for the test is applied to the test object X based on the voltage value data Dv output from the voltage measurement unit 3, and performs current measurement. Based on the current value data Da output from the unit 4, the current value of the current flowing through the test object X is specified and displayed on the display unit 7. In the withstand voltage tester 1 of this example, the process of specifying and displaying the measurement result (current value of the current value data Da) as described above is repeatedly executed over a predetermined test time.

  In addition, for example, the user who sees the current value displayed on the display unit 7 determines that it is not necessary to continue the test (a large current value that is not measured in the test object X having good pressure resistance is measured). When the stop switch is operated), the processing unit 8 holds the latest value of the current value data Da (current value) as a measurement result for the test object X, and ends the withstand voltage test. Further, when a predetermined test time elapses without operating the stop switch, the processing unit 8 compares the current value specified based on the current value data Da with a threshold value for pass / fail determination. When the current value is equal to or less than the threshold value, it is determined that the withstand voltage of the test object X is good, and when the current value exceeds the threshold value, it is determined that the withstand voltage of the test object X is bad. I do. Further, the processing unit 8 displays the determination result on the display unit 7 and ends the withstand voltage test on the test target X.

  On the other hand, when operating in the first operation mode with the threshold value for determining the presence or absence of movement as described above, the processing unit 8 determines whether the start switch has been operated as described above (that is, the voltage output unit). From the time when the output of the measurement voltage from the measuring unit 2 is started), when the stop switch is operated, or when a predetermined test time elapses (that is, the measurement from the voltage output unit 2 for the end of the test). Until the output of the use voltage is stopped), it is monitored whether or not the pressure-resistant tester 1 has been moved based on the acceleration data Dg output from the acceleration sensor 5 so that an acceleration greater than the set acceleration is applied. I do.

  In this case, if an earthquake occurs or the pressure tester 1 is moved before the pressure test ends, the value of the acceleration data Dg output from the acceleration sensor 5 becomes large. At this time, when it is specified that the value of the acceleration data Dg has become equal to or larger than the threshold value (“when the acceleration equal to or larger than the predetermined value is measured while the voltage for measurement is being output from the voltage output unit is measured). When the withstand voltage tester 1 is moved to such an extent that there is a possibility that the measuring cable may deviate from the test object X, the processing unit 8 first sets the voltage The output unit 2 is controlled to stop outputting the measurement voltage. Accordingly, even if the measurement cable is disconnected from the test target X due to the movement of the pressure tester 1, a situation in which an electric shock accident or the like occurs is reliably avoided.

  At the same time as the output of the measuring voltage from the voltage output unit 2 is stopped, the processing unit 8 stops the output of the measuring voltage by specifying that an acceleration of a predetermined magnitude or more is applied to the measuring device. ), A warning sound is output in advance from a speaker (not shown) (an example of a “notification process of notifying that the measurement voltage is not output”), and Is displayed on the display unit 7 (another example of the "notification process"). As a result, the user who hears the warning sound or sees the message stops the withstand voltage test automatically with the movement of the withstand voltage tester 1 and the measurement voltage is not output from the voltage output unit 2. Recognize that it has become.

  In this case, as an example, in the processing unit 8 of the present example, the value of the acceleration data Dg falls below the threshold value for the above-described warning sound and the message (notification process) displayed on the display unit 7 as described later. In this state, the test is continuously executed until the restart of the test is instructed. Therefore, even if the user does not look at the display unit 7 during the pressure resistance test or does not notice the output of the warning sound, when the user looks at the display unit 7 to confirm the test result of the pressure resistance test, When the sound output is noticed, it is possible to recognize that the pressure test has been stopped urgently with the movement of the pressure tester 1.

  Further, in the withstand voltage tester 1 of the present embodiment, as described above, even after the output of the measurement voltage is stopped, the warning sound is output, and the message is displayed, the processing unit 8 sets the acceleration higher than the set acceleration. The monitoring of whether or not the pressure resistance tester 1 is moved so as to apply a large acceleration is continued. In addition, the processing unit 8 determines that the value of the acceleration data Dg has fallen below the threshold value (“specifies that the acceleration applied to the measuring device has a magnitude that falls below a predetermined magnitude”). The output of the measurement voltage from the voltage output unit 2 is regulated until the state becomes “example”. Therefore, for example, even if a person who lifts the withstand voltage tester 1 erroneously operates the start switch during the withstand voltage test (before the end of the withstand voltage test), the withstand voltage test is started (from the voltage output unit 2 to the measurement voltage). Is output) is suitably avoided.

  In this case, in the withstand voltage tester 1 of the present embodiment, when the value of the acceleration data Dg is equal to or larger than the threshold, the output of the measurement voltage from the voltage output unit 2 is regulated as described above (that is, If the start switch is operated while the pressure tester 1 is being moved), instead of the above-mentioned warning message, for example, a message that the pressure test cannot be performed while the apparatus is moving is displayed. It is displayed on the unit 7. As a result, the user who hears the continuously output warning sound or sees the message on the display unit 7 cannot detect the reason why the pressure test cannot be restarted (the pressure test device 1 detects the movement (sway) and detects the movement). And that the withstand voltage test cannot be restarted).

  On the other hand, when the acceleration applied to the pressure resistance tester 1 falls below the threshold value, the processing unit 8 stops outputting the warning sound, but displays the “movement of the device” displayed on the display unit 7. (The stoppage of the start switch was not performed after the measurement voltage output was stopped.) Or the message "The withstand voltage test cannot be performed while the device is moving." The message (when the start switch is operated after the output of the measurement voltage is stopped) is continuously displayed until the restart switch is instructed by operating the start switch. That is, in the withstand voltage tester 1 of this example, the output of the warning sound and the display of the message are continuously executed until the acceleration applied to the withstand voltage tester 1 becomes lower than the threshold value (“output of the measurement voltage”). The message display is continued even if the acceleration becomes lower than the threshold value. Note that, unlike the above-described configuration, a configuration may be adopted in which, even when the acceleration applied to the withstand voltage tester 1 becomes lower than the threshold value, a message is displayed and a warning sound is continuously output.

  The processing unit 8 does not display the above message when an instruction to start (resume) the pressure resistance test is given by operating the start switch in a state where the acceleration applied to the pressure resistance tester 1 is lower than the threshold value. The operation of releasing the regulation of the output of the measurement voltage and outputting the measurement voltage from the voltage output unit 2 (“Continue to execute the notification process until the regulation of the output of the measurement voltage is released”) Example). Further, the processing unit 8 controls the voltage measurement unit 3 to measure the voltage value of the measurement voltage output from the voltage output unit 2, and controls the current measurement unit 4 to measure the current flowing through the test object X. The current value is measured, and based on the acceleration data Dg output from the acceleration sensor 5, the monitoring of whether or not the pressure resistance tester 1 has been moved so as to apply an acceleration larger than the set acceleration is started again. I do.

  When the pressure tester 1 is moved to such an extent that the measurement cable does not come off the test object X, the pressure test is stopped immediately or the pressure test cannot be restarted. By changing the threshold value for discrimination to a large value and executing the pressure resistance test again, it is possible to avoid an emergency stop unintended by the user.

  As described above, the pressure tester 1 includes the acceleration sensor 5 that detects the acceleration applied to the pressure tester 1 and outputs the acceleration data Dg. Is repeatedly specified based on the acceleration data Dg, and it is specified that an acceleration of a predetermined magnitude or more is applied to the withstand voltage tester 1 in a state where the voltage for measurement is output from the voltage output unit 2. At this time, the voltage output unit 2 is controlled to stop outputting the measurement voltage.

  Therefore, according to the withstand voltage tester 1, even if an earthquake occurs or the withstand pressure tester 1 is inadvertently moved while the measurement voltage is being applied to the test object X, the withstand voltage tester 1 can be used. Since the output of the measurement voltage from the voltage output unit 2 is automatically stopped when the acceleration applied to the motor 1 becomes equal to or greater than a predetermined threshold value for determining the presence or absence of movement, the withstand voltage tester 1 Even if it is not possible to stop the output of the measurement voltage by operating or to pull out the measurement cable from the main body of the withstand voltage tester 1, the application of the measurement voltage to the test object X can be performed in a short time and reliably. It can be easily stopped. Thus, even if the measurement cable comes off the test object X as the pressure tester 1 moves, it is possible to reliably prevent an electric shock accident or the like from occurring.

  Further, according to the withstand voltage tester 1, when the processing unit 8 specifies that an acceleration of a predetermined magnitude or more is applied to the withstand voltage tester 1 and stops outputting the measurement voltage, By restricting the output of the measurement voltage from the voltage output unit 2 until the acceleration applied to the tester 1 reaches a state in which the acceleration is smaller than a predetermined magnitude, for example, a withstand voltage tester Even if a user who does not recognize that the pressure tester 1 has moved attempts to restart the withstand voltage test using the withstand voltage tester 1, the measuring voltage is output from the voltage output unit 2 until the withstand voltage tester 1 is not moved. Therefore, the occurrence of an electric shock accident or the like can be more reliably avoided.

  Further, according to the withstand voltage tester 1, when the processing unit 8 specifies that an acceleration equal to or larger than a predetermined magnitude is applied to the withstand voltage tester 1 and stops outputting the measurement voltage, the measurement is performed. By executing “notification processing (in this example, output of a warning sound and display of a message)” for notifying that the use voltage is not output, it is recognized that the withstand voltage tester 1 has moved. A user who does not have the pressure tester 1 can reliably recognize that the pressure test has been stopped due to the movement of the pressure tester 1.

  Further, according to the withstand voltage tester 1, the processing unit 8 stops the output of the measurement voltage after specifying that the acceleration equal to or larger than the predetermined magnitude is applied to the withstand voltage tester 1, and then stops the output of the measurement voltage. When the output of the measurement voltage is regulated, the “notification process” is continuously executed until the regulation of the output of the measurement voltage is released, so that the measurement voltage is reduced due to the withstand voltage tester 1 being moved. It is possible to make the user surely and easily recognize that the output cannot be restarted (resume of the breakdown voltage test).

  Furthermore, according to the pressure resistance tester 1, the operation unit 6 capable of setting and changing the “threshold for determining the presence or absence of movement”, which is an example of the “predetermined size”, is provided. Unlike the configuration in which the “threshold for movement determination” cannot be set and changed, the “threshold for movement determination” is set and changed according to the environment in which the withstand voltage test is performed on the test target X. By doing so, it is possible to avoid unnecessarily stopping or stopping the withstand voltage test, and even in an environment where the withstand voltage tester 1 is highly likely to be moved, 1 can be reliably detected, and the output of the measurement voltage can be reliably stopped.

  Further, the pressure resistance tester 1 includes an acceleration sensor 5 composed of a “three-dimensional acceleration sensor” as an “acceleration sensor”, and the acceleration sensor 5 is added to the pressure resistance tester 1 for each of three detection axes. The processing unit 8 detects acceleration and outputs acceleration data Dg, and the processing unit 8 determines the acceleration data Dg output from the acceleration sensor 5 in advance in the direction of one of the detection axes with respect to the pressure-resistant tester 1. The output of the measurement voltage is stopped when it is specified that the acceleration equal to or larger than the magnitude is applied. Therefore, according to this withstand voltage tester 1, no matter which direction the withstand voltage tester 1 is moved, when it is moved so as to exceed the specified acceleration, the voltage for measurement from the voltage output unit 2 is output. Output can be reliably stopped.

  Note that the configuration of the “measuring device” is not limited to the example of the configuration of the above-described breakdown voltage tester 1. For example, based on the acceleration data Dg from the acceleration sensor 5 as the “acceleration sensor”, the processing unit 8 configuring the “control unit” specifies the acceleration applied to the pressure-resistant tester 1 and compares it with a threshold value. The breakdown voltage tester 1 configured to stop the output of the measurement voltage from the voltage output unit 2 has been described as an example. However, the specification of the current value based on the current value data Da and the determination of the specified current value and pass / fail A component separate from the processing unit 8 for comparing the threshold value (pass / fail judgment) is to specify the acceleration applied to the withstand voltage tester 1, to compare the specified acceleration with the threshold value, and to output the voltage to the voltage output unit. It is also possible to adopt a configuration in which the output of the measurement voltage from 2 is stopped.

  Specifically, the withstand voltage tester 1A shown in FIG. 2 is another example of the “measuring device”, and a withstand voltage test (test of current value, measurement of current value, And a pass / fail judgment based on a comparison between the measured value and a pass / fail judgment threshold value. The withstand voltage tester 1 includes a voltage output unit 2, a voltage measurement unit 3, a current measurement unit 4, an acceleration sensor 5, an operation unit 6, a display unit 7, a processing unit 8, a storage unit 9, and a detection unit 10. ing. Note that components having the same functions as those of the withstand voltage tester 1 in this withstand voltage tester 1A are denoted by the same reference numerals, and redundant description will be omitted.

  In the withstand voltage tester 1A, among the processes performed by the processing unit 8 in the withstand voltage tester 1, the acceleration applied to the withstand voltage tester 1 is specified, the specified acceleration is compared with a threshold, and the voltage output is specified. The configuration in which the detection unit 10 executes the process of stopping the output of the measurement voltage from the unit 2 is employed. Specifically, in the withstand voltage tester 1A, for example, the detection unit 10 includes a comparator such as a comparator.

  The detection unit 10 stores the threshold data specified by the processing unit 8 (for example, the operating condition data in which the “threshold for determining the presence or absence of movement” specified by the operation of the operation unit 6 as described above) Dc) is compared with the value of the acceleration data Dg output from the acceleration sensor 5, and when it is determined that the value of the acceleration data Dg is equal to or larger than the threshold value (“for voltage measurement from the voltage output unit”). An example of “when it is specified that an acceleration equal to or larger than a predetermined magnitude is applied to the measuring device in a state where the voltage is being output”, an emergency stop signal is output to the voltage output unit 2 so that the measuring voltage is reduced. Stop output. As a result, similarly to the above-described withstand voltage tester 1, even if the measurement cable is detached from the test target X due to the movement of the withstand voltage tester 1, a situation in which an electric shock accident or the like occurs is reliably avoided. .

  In the withstand voltage tester 1, the acceleration data Dg from the acceleration sensor 5 is also output to the processing unit 8, and the processing unit 8 causes the detection unit 10 to stop outputting the measurement voltage from the voltage output unit 2. At the same time, in the same manner as in the above-described withstand voltage tester 1, notification that the withstand pressure test has been stopped immediately (output of a warning sound and display of a message: an example of "notification processing") is executed. Further, the processing unit 8 determines that the value of the acceleration data Dg has fallen below the threshold value in the same manner as in the above-described withstand voltage tester 1 (“The acceleration applied to the measuring device is specified in advance. Until the state becomes an example of “a state in which the magnitude is smaller than the magnitude”, the output of the measurement voltage from the voltage output unit 2 is regulated, and the “notification process” is continuously executed.

  Therefore, according to the withstand voltage tester 1A, an earthquake occurs when the measurement voltage is applied to the test object X, and the withstand voltage tester 1A is inadvertently prepared in the same manner as the withstand voltage tester 1 described above. When the acceleration applied to the withstand voltage tester 1 becomes equal to or greater than a preset threshold value for determining the presence or absence of movement, the output of the measurement voltage from the voltage output unit 2 is automatically performed. Therefore, even if it is not possible to operate the withstand voltage tester 1A to stop the output of the measurement voltage or to disconnect the measurement cable from the main body of the withstand voltage tester 1A, The application of the measurement voltage can be stopped reliably and easily in a short time. Thus, even if the measurement cable comes off the test object X as the pressure tester 1A moves, the occurrence of an electric shock accident or the like can be reliably avoided.

  In addition, the configuration in which the “threshold for determining the presence or absence of movement”, which is an example of the “predetermined size”, can be set by operating the operation unit 6 has been described as an example. (Or in addition to such a configuration), operating condition data Dc that can specify a “predefined size (threshold for determining the presence or absence of movement)” set by an external device is transmitted to a communication line or a removable line. It is input to the withstand voltage testers 1 and 1A via the memory, and based on the input operating condition data Dc, the acceleration applied to the withstand voltage tester 1 is compared with a threshold value, and the measurement voltage from the voltage output unit 2 is measured. It is also possible to adopt a configuration for executing the process of executing the output stop of the above. When the operation condition data Dc can be input through the communication line in the above example, the communication unit connectable to the communication line corresponds to the “data input unit”, and the operation condition data Dc is connected via the removable memory. When Dc can be input, the mounting section (memory mounting slot) of the removable memory corresponds to a “data input section” (both are not shown).

  Further, an example of a configuration in which after the output of the measurement voltage is stopped, the breakdown voltage test is restarted when the start switch is operated in a state where the acceleration applied to the breakdown voltage testers 1 and 1A is lower than the threshold value. As described above, instead of such a configuration, a configuration in which the withstand voltage test is restarted when the start switch is operated after the warning release operation defined in advance in a state where the acceleration is lower than the threshold value may be adopted. . Specifically, as an example, when the warning canceling operation is performed in a state where the acceleration applied to the pressure tester 1 is lower than the threshold, the message is not displayed (when the output of the warning sound is continued). The output of the warning sound is also stopped), and the pressure test can be restarted by operating the start switch.

  Furthermore, a configuration in which the “notification process” is continuously executed until the start switch is operated (or the warning canceling operation) is performed in a state where the detected acceleration is lower than the threshold value has been described as an example. When the specified acceleration becomes equal to or greater than the threshold value, the “reporting process” is performed for a predetermined time (the “reporting process” ends when the specified time has elapsed). You can also. In addition, as the “notification process”, instead of the configuration that executes both the display of the message and the output of the alarm sound, a configuration that executes only one of the display of the message and the output of the alarm sound may be adopted. it can.

  Further, the example in which the acceleration sensor 5 including the “three-dimensional acceleration sensor” as the “acceleration sensor” is described, but instead of such a configuration, the “one-dimensional acceleration sensor” and the “two-dimensional acceleration sensor” are used. , Or a “measuring device” including a “multidimensional acceleration sensor of four or more dimensions” as an “acceleration sensor”. Further, the measuring device (tester) configured to determine whether the withstand voltage of the test object is good or not based on the current value measured in a state where the measurement voltage is applied to the test object X has been described as an example. In a measuring device (insulation resistance tester), which calculates an insulation resistance value based on a voltage value of a measurement voltage and a measured current value, and determines whether an insulation state of a test target is good or bad based on the calculated insulation resistance value. A configuration in which the output of the measurement voltage is stopped based on the detection signal of the “acceleration sensor” may be employed.

  In addition, the configuration of the “withstand voltage tester” capable of executing the withstand voltage test on the test target X has been described as an example. Various types of devices that execute at least “processing for measuring the current value of the current flowing through the measurement target with the measurement voltage applied” without performing the quality determination based on the measurement result. Is included in this.

1, 1A withstand voltage tester 2 voltage output unit 3 voltage measurement unit 4 current measurement unit 5 acceleration sensor 6 operation unit 7 display unit 8 processing unit 9 storage unit 10 detection unit Da current value data Dc operation condition data Dg acceleration data Dv voltage value Data X Test target

Claims (5)

A voltage output unit that outputs a measurement voltage to be applied when measuring a current value of a current flowing through the measurement target,
A control unit that controls the voltage output unit to output the measurement voltage,
An acceleration sensor that detects an acceleration applied to the measurement device and outputs a detection signal,
The control unit repeatedly specifies the magnitude of the acceleration applied to the measurement device based on the detection signal, and has a predetermined magnitude in a state where the measurement voltage is output from the voltage output unit. A measurement device that controls the voltage output unit to stop outputting the measurement voltage when it is specified that the acceleration is applied to the measurement device.   The control unit is configured to determine that the acceleration equal to or larger than the predetermined magnitude is applied to the measurement device and stop outputting the measurement voltage, and that the measurement voltage is not output. The measurement device according to claim 1, wherein the measurement device performs a notification process of notifying the user of the measurement.   When the control unit regulates the output of the measurement voltage after stopping the output of the measurement voltage by specifying that the acceleration equal to or larger than the predetermined magnitude is applied to the measurement device, The measurement device according to claim 2, wherein the notification process is continuously executed until the restriction on the output of the measurement voltage is released.   At least one of an operation unit capable of setting and changing the predetermined size and a data input unit capable of inputting stop condition data capable of specifying the predetermined size are provided. 4. The measuring device according to any one of 1 to 3 above. A three-dimensional acceleration sensor as the acceleration sensor;
The three-dimensional acceleration sensor detects acceleration applied to the measuring device for each of three detection axes and outputs the detection signal,
The control unit may be configured such that, based on the detection signals output from the three-dimensional acceleration sensor, an acceleration equal to or greater than the predetermined magnitude is applied to the measurement device in any of the detection axis directions. The measurement device according to claim 1, wherein the output of the measurement voltage is stopped when the measurement is specified.

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