JP2007163174A - Current measuring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a current measuring device capable of improving the reproducibility of the current waveform. <P>SOLUTION: The current measuring device comprises the sampling means 1 for collecting the sampling value of the current with a predetermined sampling period, the acquisition range setting means 2 for setting the acquisition range, the sampling value memory means 3 for storing the sampling value from entering the sampling value acquisition range to the out going from the range, the representative sampling period calculation means 4 for calculating the representative sampling period by dividing the sampling number by previously set representative sampling numbers, the representative sampling value extracting means 5 for extracting the representative sampling value from the sampling value at the every sampling period, the maximum current value detection means 6 for detecting the maximum current value from the sampling value, and the final sampling value memory means 7 for storing the maximum current value and the representative sampling value. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a current measuring device that measures a current waveform when an electric device is operated.

  Conventionally, measurement data is collected at a predetermined sampling period in order to find a malfunction such as a circuit breaker, and the minimum value and the maximum value of the measurement data are taken out as representative measurement data every predetermined number of samplings. The extracted representative measurement data is plotted in a sampling order on a graph called on the screen (see, for example, Patent Document 1).

JP-A-8-108691 (page 3, FIG. 1)

  Conventionally, as described in FIG. 1B and paragraph 0011 of Patent Document 1, since the minimum value and the maximum value of the measurement data are extracted for each predetermined sampling number, the time for generating the minimum value and the maximum value is taken. There is a problem that it is difficult to reproduce the change of the waveform due to indefiniteness.

  The present invention has been made to solve the above-described problems, and provides a current measuring device capable of improving the reproducibility of a current waveform.

  The current measuring apparatus according to the present invention includes a sampling means for collecting a current sampling value at a predetermined sampling period, a capturing range setting means for setting a sampling value capturing range, and exiting after the sampling value enters the capturing range. Sampling value storage means for storing sampling values up to, representative sampling period calculation means for calculating a representative sampling period by dividing the sampling stored in the sampling value storage means by a preset representative sampling number, and a sampling value Representative sampling value extracting means for extracting the representative sampling value from the sampling value stored in the storage means for each representative sampling period; and maximum current value detecting means for detecting the maximum current value from the sampling value stored in the sampling value storage means; Max power Is obtained by a final sampling value storage means for storing a value representative sampling values.

  As described above, by collecting representative sampling values for each representative sampling period and detecting the maximum current value from the stored sampling values, it is possible to improve the reproducibility of the operating current waveform of the device.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of a current measuring apparatus according to Embodiment 1 for carrying out the present invention.
In FIG. 1, a sampling means 1 samples an operating current of a closing coil of a circuit breaker (not shown) disposed in a substation or the like, for example. The sampling means 1 collects current sampling values at a predetermined sampling period. The capturing range setting means 2 sets an operating current of a predetermined value or more as a capturing range. And the sampling value more than predetermined value is output among the sampling values input from the sampling means 1. FIG. Note that the capture range setting means 2 does not output a sampling value equal to or less than a predetermined value for which the capture range is set. Then, the sampling value from the time when the sampling value enters the capturing range to the time when it comes out is sequentially stored in the sampling value storage means 3. The representative sampling period calculation means 4 calculates the representative sampling period by dividing the number of samplings measured by the sampling value measuring means 3 by a preset representative sampling number. The representative sampling value extraction unit 5 extracts a representative sampling value from the sampling value stored in the sampling value storage unit 3 for each representative sampling period. The maximum current value detection unit 6 extracts the maximum current value from the sampling value stored in the sampling value storage unit 3. The final sampling value storage means 7 stores the maximum current value, the generation time of the maximum current value, and the representative sampling value.

The operation of the current measuring device configured as described above will be described. 2 is a flowchart for explaining the operation of FIG. 1, and FIG. 3 is a diagram for explaining representative sampling values. In Figures 1-3, the sampling means 1 for collecting the operating current Ih, predetermined sampling period the sampling values for flowing time t ₀ of the input coil of the example circuit breaker (not shown) (step S ₁₁₎ . In order to remove the leakage current and the like, the capture range setting means 2 sets the capture range of the sampling value and outputs a sampling value that is equal to or greater than a predetermined value (step S ₁₂ ). The sampling values output from the capture range setting unit 2 are sequentially stored in the sampling value storage unit 3 (step S ₁₃ ). Sampling is performed every predetermined time (step S ₁₄ ), and stored in the sampling value storage means 3 until the sampling value becomes less than the predetermined value (step S ₁₅ ). The representative sampling period calculating means 4 calculates the representative sampling period td by dividing the sampling number stored in the sampling storage means 3 by a preset representative sampling number (step S ₁₆ ). The operating current of the device is measured in advance, and the current flow time t ₀ in the sampling value capturing range is detected. The representative sampling number is set in consideration of the reproducibility of the current waveform from the waveform of the conduction time t ₀ and the operating current Ih. When the representative sampling period td is calculated, the representative sampling value extraction unit 5 extracts the representative sampling values sd1, sd2, sd3,... From the sampling value stored in the sampling value storage unit 3 for each representative sampling period td. (Step S ₁₇ ). The maximum current detection means 6 detects the maximum current value Im from the sampling value stored in the sampling value storage means 3 (step S ₁₈ ). Then, the maximum current value Im, the generation time tm of the maximum current value Im, and the representative sampling values sd1, sd2, sd3,... Are stored in the final sampling value storage means 7 (step S ₁₉ ). The data stored in the final sampling value storage means 7 is utilized for maintenance management of the circuit breaker and the like.
As described above, the representative sampling values sd1, sd2, sd3,... Are collected for each representative sampling period, and the maximum current value Im is detected from the stored sampling values, thereby improving the reproducibility of the operating current waveform of the device. Can be achieved.

Embodiment 2. FIG.
FIG. 4 is a block diagram showing a configuration of a current measuring apparatus according to Embodiment 2 for carrying out the present invention. In FIG. 4, 1 to 6 are the same as those in the first embodiment.
In FIG. 4, the current value abnormality determination means 8 determines whether or not the maximum current value exceeds the preset upper limit value. The abnormality notification means 9 notifies the abnormal current value and occurrence time. The final sampling value storage means 10 stores the maximum current value, abnormal current value, occurrence time, and representative sampling value.

The operation of the current measuring device configured as described above will be described. FIG. 5 is a flowchart for explaining the operation of FIG.
In FIGS. 3-5, the sampling means 1 for collecting the operating current Ih, predetermined sampling period the sampling values for flowing time t ₀ of the input coil of the example circuit breaker (not shown) (step S ₂₁₎ . In order to remove the leakage current and the like, the capture range setting means 2 sets the capture range of the sampling value and outputs a sampling value that is equal to or greater than a predetermined value (step S ₂₂ ). The sampling values output from the capture range setting unit 2 are sequentially stored in the sampling value storage unit 3 (step S ₂₃ ). Sampling is performed every predetermined time (step S ₂₄ ), and stored in the sampling value storage means 3 until the sampling value becomes less than the predetermined value (step S ₂₅ ). The representative sampling period calculating means 4 calculates the representative sampling period td by dividing the sampling number stored in the sampling storage means 3 by a preset representative sampling number (step S ₂₆ ). The operating current of the device is measured in advance, and the current flow time t ₀ in the sampling value capturing range is detected. Representative sampling number is set in consideration of the reproducibility of the current waveform and a flowing time t ₀ the operating current Ih waveform. When the representative sampling period td is calculated, the representative sampling value extraction unit 5 extracts the representative sampling values sd1, sd2, sd3,... From the sampling value stored in the sampling value storage unit 3 for each representative sampling period td. (step _S 27). The maximum current detection means 6 detects the maximum current value Im from the sampling value stored in the sampling value storage means 3 (step S ₂₈ ). The current value abnormality determining means 8 determines whether or not the maximum current value Im has exceeded a preset upper limit value (step S ₂₉ ). For the upper limit value, the operating current value when the device is abnormal is set as the abnormal current value. The maximum current value Im is determined to be abnormal current value with a current value abnormality determination unit 8, the abnormality notification means 9 notifies the occurrence time of the abnormal current value and the abnormal current value to the last sampling value storage means 10 (Step S ₃₀ ). The final sampling value storage means 10 stores the maximum current value, the abnormal current value, the generation time of the maximum current value and the abnormal current value, and the representative sampling value (step S ₃₁ ). The abnormality notification means 9 may notify the final sampling value storage means 10 and activate an alarm means (not shown) such as a buzzer.
As described above, representative sampling values are collected for each representative sampling period, and the maximum current value is extracted from the stored sampling values to improve the reproducibility of the operating current waveform of the device. By determining and notifying whether or not the abnormal current value has exceeded, the abnormal current value during operation of the device can be monitored.

Embodiment 3 FIG.
FIG. 6 is a block diagram showing a configuration of a current measuring apparatus according to Embodiment 3 for carrying out the present invention. In FIG. 6, reference numerals 1 to 5 are the same as those in the first embodiment.
In FIG. 6, the maximum current value detection unit 11 detects whether or not the sampling value determined by the capture range setting unit 2 to be equal to or greater than a predetermined value is the maximum current value. The final sampling value storage means 12 stores the representative sampling value, the maximum current value, and the generation time of the maximum current value.

The operation of the current measuring device configured as described above will be described. FIG. 7 is a flowchart for explaining the operation of FIG.
3, 6 and 7, the sampling means 1 collects sampling values at a predetermined sampling period with respect to, for example, the operating current Ih of the closing coil of the circuit breaker (not shown) and the conduction time t ₀ (step S _31). In order to remove the leakage current or the like, the capture range setting means 2 sets the capture range of the sampling value and outputs a sampling value that is equal to or greater than a predetermined value (step S ₃₂ ). The sampling values output from the capture range setting unit 2 are sequentially stored in the sampling value storage unit 3 (step S ₃₃ ). Sampling is performed every predetermined time (step S ₃₄ ) and stored in the sampling value storage means 3 until the sampling value becomes less than the predetermined value (step S ₃₅ ). The representative sampling period calculation means 4 calculates the representative sampling period td by dividing the sampling number stored in the sampling storage means 3 by the preset representative sampling number (step S ₃₆ ). The operating current of the device is measured in advance, and the current flow time t ₀ in the sampling value capturing range is detected. Representative sampling number is set in consideration of the reproducibility of the current waveform and a flowing time t ₀ the operating current Ih waveform. When the representative sampling period td is calculated, the representative sampling value extraction unit 5 extracts the representative sampling values sd1, sd2, sd3,... From the sampling value stored in the sampling value storage unit 3 for each representative sampling period td. (Step _S37 ). The sampling value determined to be the capture range by the capture range determination unit 2 determines whether the maximum current value is the maximum current value by the maximum current detection unit 11, and the maximum current value is detected (step _S38 ). The representative sampling values sd1, sd2, sd3... Extracted by the representative sampling value extraction means 5, the maximum current value Im detected by the maximum current detection means 11, and the generation time tm of the maximum current value are the final sampling values. It is stored in the storage means 12 (step S ₃₉ ). The first sampling value detected by the maximum current detection means 11 is stored in the final sampling value storage means 12 as the maximum current value, and is sequentially replaced when the next sampling value is larger than the first sampling value.
As described above, the representative sampling values are collected for each representative sampling period, and the maximum current value is sequentially detected from the sampled values, thereby improving the reproducibility of the operating current waveform of the device.

Embodiment 4 FIG.
FIG. 8 is a block diagram showing a configuration of a current measuring apparatus according to Embodiment 4 for carrying out the present invention. In FIG. 8, 1 to 5 are the same as those of the first embodiment, and 11 is the same as that of the third embodiment.
3 and 8, the current value abnormality determination means 13 determines whether or not the maximum current value Im is an abnormal current value exceeding a preset upper limit value. The abnormality notification means 14 notifies the maximum current value Im and the occurrence time tm. The final sampling value storage means 15 stores the representative sampling value, maximum current value, abnormal current value, maximum current value and occurrence time of the abnormal current value.
The operation of the current measuring device configured as described above will be described. FIG. 9 is a flowchart for explaining the operation of FIG.
3, 8 and 9, to collect the sampled values in a predetermined sampling cycle for an operating current Ih, flowing time t ₀ of the closing coil of the sampling means 1 is, for example, circuit breaker (not shown) (step _S401 ). In order to remove the leakage current and the like, the capture range setting means 2 sets the capture range of the sampling value and outputs a sampling value that is equal to or greater than a predetermined value (step S ₄₀₂ ). The sampling values output from the capture range setting unit 2 are sequentially stored in the sampling value storage unit 3 (step S ₄₀₃ ). Sampling is performed every predetermined time (step S ₄₀₄ ), and stored in the sampling value storage means 3 until the sampling value becomes less than the predetermined value (step S ₄₀₅ ).

The representative sampling period calculation means 4 calculates the representative sampling period td by dividing the sampling number stored in the sampling storage means 3 by a preset representative sampling number (step S ₄₀₆ ). The operating current of the device is measured in advance, and the current flow time t ₀ in the sampling value capturing range is detected. Representative sampling number is set in consideration of the reproducibility of the current waveform and a flowing time t ₀ the operating current Ih waveform. When the representative sampling period td is calculated, the representative sampling value extraction unit 5 extracts the representative sampling values sd1, sd2, sd3,... From the sampling value stored in the sampling value storage unit 3 for each representative sampling period td. (Step _S407 ). The sampling value determined to be the capture range by the capture range determination unit 2 determines whether or not the maximum current value is detected by the maximum current detection unit 11 and the maximum current value is detected (step S ₄₀₈ ). When the maximum current value is detected, the current value abnormality determination means 13 determines whether or not the maximum current value has exceeded a preset upper limit value (step S ₄₀₉ ). For the upper limit value, the operating current value when the device is abnormal is set as the abnormal current value. When the current value abnormality determination unit 13 determines that the maximum current value Im is an abnormal current value, the abnormality notification unit 14 notifies the final sampling value storage unit 15 of the abnormal current value and the generation time of the abnormal current value (step S _410). ). The final sampling value storage means 15 stores the maximum current value, the abnormal current value, the generation time of the maximum current value and the abnormal current value, and the representative sampling value. Note that the abnormality notification means 14 may notify the final sampling value storage means 15 and activate alarm means (not shown) such as a buzzer.
As described above, representative sampling values are collected for each representative sampling period, and the maximum current value is sequentially detected from the acquired sampling values to improve the reproducibility of the operating current waveform of the device, and the maximum current value is the upper limit. By determining and notifying whether or not the abnormal current value exceeds the value, the abnormal current value during operation of the device can be monitored.

It is a block diagram which shows the structure of the electric current measurement apparatus in Embodiment 1 for implementing this invention. It is a flowchart explaining the operation | movement of FIG. It is explanatory drawing of the representative sampling value in FIG. It is a block diagram which shows the structure of the electric current measurement apparatus in Embodiment 2 for implementing this invention. It is a flowchart explaining the operation | movement of FIG. It is a block diagram which shows the structure of the electric current measurement apparatus in Embodiment 3 for implementing this invention. It is a flowchart explaining the operation | movement of FIG. It is a block diagram which shows the structure of the electric current measurement apparatus in Embodiment 4 for implementing this invention. It is a flowchart explaining the operation | movement of FIG.

Explanation of symbols

1 sampling means, 2 capture range setting means, 3 sampling value storage means,
4 representative sampling period calculating means, 5 representative sampling value extracting means,
6,11 Maximum current value detection means,
7, 10, 12, 15 Final sampling value storage means,
8, 13 Current value abnormality determination means, 9, 14 abnormality notification means.

Claims (3)

Sampling means for collecting current sampling values at a predetermined sampling period; capture range setting means for setting the capture range of the sampling values; and storing the sampling values from when the sampling values enter the capture range until they exit Sampling value storage means, representative sampling period calculation means for calculating a representative sampling period by dividing the sampling number stored in the sampling value storage means by a preset representative sampling number, and storage in the sampling value storage means Representative sampling value extraction means for extracting the representative sampling value as the representative sampling value for each representative sampling period, and maximum current value detection means for detecting the maximum current value from the sampling value stored in the sampling value storage means When, Current measuring apparatus and a final sampling value storage means for storing the serial maximum current value and the said representative sampling values. Sampling means for collecting current sampling values at a predetermined sampling period; capture range setting means for setting the capture range of the sampling values; and storing the sampling values from when the sampling values enter the capture range until they exit Sampling value storage means, representative sampling period calculation means for calculating a representative sampling period by dividing the sampling number stored in the sampling value storage means by a preset representative sampling number, and storage in the sampling value storage means Representative sampling value extracting means for extracting the representative sampling value as the representative sampling value for each representative sampling period, maximum current value detecting means for detecting a maximum current value from the sampling value collected by the sampling means, and maximum Current measuring apparatus and a final sampling value storage means for storing the current values and the representative sampling. 3. The current measuring device according to claim 1, wherein when the maximum current value exceeds a preset upper limit value, the time and current value exceeding the upper limit value are determined as the final value. A current measuring device comprising an abnormal current notifying means for notifying and recording in a sampling value storing means.

Images