KR102384997B1 - Method for preservation of equipment by unbalanced voltage and current - Google Patents

Abstract

The present invention relates to a method for predictive maintenance of a device through unbalanced voltage and current, and the configuration is one of the R wire, S wire, and T wire, which supplies operating power to the device while the device is driven, and the other wire An information collection step of selecting at least one combination of , and collecting the potential difference between the wires of the selected combination over time, while repeatedly collecting at unit time intervals, calculating and collecting the average potential difference by averaging the potential differences within a unit time (S10) ); and a setting step (S20) of setting a first threshold value for the average potential difference based on the average potential difference information of a unit time for the potential difference between the wires measured and collected in the information collecting step (S10) (S20); and, in real time In the process of driving the device, select at least one combination of one wire and the other from the R wire, S wire, and T wire that supplies operating power to the device, and average the potential difference in real-time unit time of the selected combination. When the average potential difference exceeds the first threshold, a detection step (S30) of detecting an inspection state requiring inspection or replacement of the device (S30);
In the process of driving the device, at least one combination of one wire and the other wire is selected among the three-phase power supply that supplies the operating power to the device, and the threshold value of the average potential difference for the potential difference within the unit time of the selected combination is set. Then, in the process of driving the device in real time, one or more combinations of one wire and another wire selected from the three-phase power supply supplying operating power to the device are selected, and the average potential difference between the wires within the real-time unit time of the selected combination When the threshold value is exceeded, an alarm is issued to induce inspection and replacement of equipment at an appropriate time, thereby preventing huge financial loss due to equipment failure.
In addition, various detection conditions are presented to efficiently search for abnormal signs occurring in the device, and when the detection conditions are satisfied, the device is detected as an abnormal state, thereby detecting abnormal symptoms occurring in the device very precisely and effectively. In addition, there is an effect of securing excellent reliability of the detection result.

Description

Method for preservation of equipment by unbalanced voltage and current

The present invention relates to a method for predictive maintenance of a device through an unbalanced voltage and current, and more particularly, to at least one After selecting the above and setting the threshold value of the average potential difference for the potential difference within the unit time of the selected combination, one wire and the other selected from the three-phase power supply that supplies the operating power to the device in the process of driving the device in real time Select one or more combinations of wires, and alarm when the average potential difference between wires within the real-time unit time of the selected combination exceeds a threshold, so that the equipment can be inspected and replaced in a timely manner. It relates to a predictive maintenance method of equipment through unbalanced voltage and current that can prevent financial loss in advance.

In general, stable operation of various devices used for automated process of equipment is very important.

For example, dozens or hundreds of devices are installed in the facilities of a large-scale production plant to continuously produce products while interlocking with each other. situations can arise.

In this case, due to the occurrence of downtime due to the failure of the equipment, not only equipment repair costs, but also huge losses are inevitably caused by wasted operating costs and business effects while equipment is stopped.

According to the latest data from the Ministry of Employment and Labor and the Occupational Safety and Health Administration, the number of casualties due to occupational safety accidents is estimated at 100,000 per year, and when converted into expenses, it is estimated that an annual loss of 18 trillion won is generated.

In order to avoid such unexpected downtime costs, there is an urgent need for a method that can induce efficient management of devices by providing information about the real-time status of devices to managers and performing inspections and repairs in advance of device failures. am.

[Document 0001] Unexamined Patent Publication No. 10-2019-0030763 (2019.03.22) [Document 0002] Unexamined Patent Publication No. 10-2010-0054963 (2010.05.26) [Document 0003] Unexamined Patent Publication No. 10-2019-0108282 (2019.09.24)

The present invention has been proposed to solve the various problems described above, and its object is to select at least one or more combinations of any one wire and the other wire from among the three-phase power supply that supplies operating power to the device in the process of driving the device After setting the threshold value of the average potential difference for the potential difference within the unit time of the selected combination, one wire selected from among the three-phase power supply that supplies the operating power to the device in the process of driving the device in real time and the other wire When one or more combinations are selected and the average potential difference between wires within the real-time unit time of the selected combination exceeds a threshold, an alarm is made to induce inspection and replacement of the equipment in a timely manner, resulting in huge financial costs due to equipment failure. It is to provide a predictive maintenance method of equipment through unbalanced voltage and current that can prevent loss in advance.

In addition, various detection conditions are suggested to efficiently search for abnormal signs occurring in the device, and when the detection conditions are satisfied, the device is detected as an abnormal state, so that the abnormal symptoms occurring in the device can be detected very precisely and effectively. It is to provide a predictive maintenance method of equipment through unbalanced voltage and current that can not only be used, but also can secure excellent reliability of detection results.

The predictive maintenance method of the device through the unbalanced voltage and current according to the present invention for achieving the above object is any one of the R wire, the S wire, and the T wire for supplying operating power to the device in the process of driving the device and At least one combination of different wires is selected, and the potential difference between the wires of the selected combination is collected over time, but while repeatedly collecting at unit time intervals, the average potential difference is calculated and collected by averaging the potential differences within a unit time. Step (S10); and a setting step (S20) of setting a first threshold value for the average potential difference based on the average potential difference information per unit time for the potential difference between the wires measured and collected in the information collecting step (S10) (S20); And , select at least one combination of one wire and the other from among the R, S, and T wires that supply operating power to the device in real-time during the real-time operation of the device, and the real-time potential difference of the selected combination A detection step (S30) of detecting an inspection state requiring inspection or replacement of equipment when the average potential difference of the average exceeds the first threshold value;
The first threshold is divided into an alarm value indicating the alarm state of the device and a danger value indicating a dangerous state of the device, wherein the alarm value is formed to be less than the danger value.

In addition, the largest potential difference value (Max) and the smallest potential difference value (Min) are detected in a unit time instead of the average potential difference that is repeatedly measured and collected at unit time intervals in the information collection step (S10), and the detected highest potential difference value (Min) is detected. Measure and collect the difference value between the largest potential difference value and the smallest potential difference value,

In the setting step (S20), a second threshold value for the difference value of the unit time is set based on the difference value information of the unit time measured and collected in the information collection step (S10),

The detection step (S30) selects at least one combination of any one wire and the other wire among the R wire, the S wire, and the T wire for supplying operating power to the device in the process of driving the device in real time, and the selected combination When the difference value between the largest potential difference value and the smallest potential difference value in real-time unit time exceeds the second threshold value, the device is detected as an inspection state requiring inspection or replacement.

In addition, in the information collection step (S10), at least one of a combination of any one wire and the other wire from among the R wire, S wire, and T wire that supplies operating power to the device in the process of driving the device is selected, and the selected The potential difference between the wires of the combination is measured and collected over time,

The setting step (S20) sets a third threshold value for the potential difference between the wires based on the potential difference information between the wires measured and collected in the information collecting step (S10),

The detection step (S30) selects at least one combination of any one wire and the other wire among the R wire, the S wire, and the T wire for supplying operating power to the device in the process of driving the device in real time, and the selected combination When the potential difference between the real-time electric wires of the above exceeds the third threshold value, it is characterized in that it is detected as an inspection state requiring inspection or replacement of the device.

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As described above, according to the method for predictive maintenance of a device through unbalanced voltage and current according to the present invention, a combination of any one wire and the other wire among the three-phase power supply that supplies operating power to the device while the device is driven is at least one After selecting the above and setting the threshold value of the average potential difference for the potential difference within the unit time of the selected combination, one wire and another Select one or more combinations of wires, and alarm when the average potential difference between wires within the real-time unit time of the selected combination exceeds a threshold, so that the equipment can be inspected and replaced in a timely manner. It has the effect of preventing financial loss in advance.

In addition, various detection conditions are suggested to efficiently search for abnormal signs occurring in the device, and when the detection conditions are satisfied, the device is detected as an abnormal state, so that the abnormal symptoms occurring in the device can be detected very precisely and effectively. In addition, there is an effect of securing excellent reliability of the detection result.

1 is a block diagram of a method for predictive maintenance of a device through unbalanced voltage and current according to an embodiment of the present invention;
2 is a view for explaining a predictive maintenance method of the device through the unbalanced voltage and current shown in FIG.

A method for predictive maintenance of equipment through unbalanced voltage and current according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the gist of the present invention will be omitted.

1 and 2 show a method for predictive maintenance of a device through an unbalanced voltage/current according to an embodiment of the present invention, and FIG. 1 is a method for predictive maintenance of a device through an unbalanced voltage/current according to an embodiment of the present invention. 2 is a block diagram showing a diagram for explaining a method for predictive maintenance of the device through the unbalanced voltage and current shown in FIG. 1, respectively.

As shown in the figure, the predictive maintenance method 100 of a device through an unbalanced voltage/current according to an embodiment of the present invention includes an information collection step (S10), a setting step (S20), and a detection step (S30) contains

As shown in Figure 1, the information collection step (S10) is a combination of any one of the R wire, S wire, and T wire, which supplies operating power to the device in the process of driving the device, and the other wire at least one It is a step of selecting and collecting the average potential difference obtained by averaging the potential difference within a unit time while collecting the potential difference between the wires of the selected combination over time, repeatedly collecting at unit time intervals.

In general, three-phase AC power that can stably supply strong power is usually used to operate devices installed in large-scale facilities, and as shown in FIG. That is, the potential difference between wires for one or more combinations of R-S wire combinations, R-T wire combinations, and S-T wire combinations is repeatedly measured and collected at unit time intervals over time, and the potential difference value included within the unit time The average potential difference value is calculated and collected, and the measured and collected average potential difference information becomes the basis of the threshold value set to detect abnormal signs of the device in the setting step (S20), which will be described later.

Here, it goes without saying that the unit time can be set in units such as days, months, years, etc., from a few seconds to a maximum in consideration of the driving conditions of the device and the surrounding environment.

In the predictive maintenance method 100 of the device through the unbalanced voltage and current of the present invention, the average potential difference between the wires for all combinations (the combination between the R-S wire, the R-T wire, and the S-T wire) is calculated and collected for clear predictive maintenance of the device. , it is also possible to measure and collect the average potential difference between the wires for any one or a combination of the two selected.

1, the setting step (S20) sets a first threshold value for the average potential difference based on the average potential difference information per unit time for the potential difference between the wires measured and collected in the information collecting step (S10) is a step to

Here, the first threshold value is preferably set based on an average potential difference value that is abnormally rather large based on the average potential difference information between wires collected for a long period of time in the information collection step ( S10 ).

Therefore, in the detection step (S30), which will be described later, when an average potential difference value between wires exceeding the first threshold occurs from the device, it is preferable to suspect an abnormality of the device.

As shown in Figure 1, the detection step (S30) is a combination of any one wire and the other wire among the R wire, S wire, and T wire that supplies operating power to the device in the process of driving the device in real time at least This is a step of selecting one or more and detecting that the device is in an inspection state requiring inspection or replacement when the average potential difference averaging the potential differences in real-time unit time of the selected combination exceeds the first threshold value.

That is, as shown in Figure 2b, in the present invention, for all combinations between R-S wire, R-T wire, and S-T wire of three-phase power supplying operating power to the device in real time, the average potential difference of the unit time for the combination between each wire is detected. , when the detected average potential difference value between each wire exceeds the first threshold value, the device is detected as an abnormal state and the device can be inspected and replaced at an appropriate time to induce stable operation and management of the device. .

In general, when the electrical potential difference between the wires is generally maintained somewhat high over time because the condition of the device is rather poor, the average potential difference repeatedly detected at unit time intervals is formed to be high. It is possible to quickly and accurately diagnose and detect abnormal symptoms of the device.

Here, the first threshold is equally applied to all combinations of the R-S wire, the R-T wire, and the S-T wire, so that the detection of the average potential difference between the wires of each combination is of course performed.

In addition, as shown in FIG. 2c , the largest potential difference value (Max) and the smallest potential difference value (Min) in the unit time instead of the average potential difference measured and collected repeatedly at unit time intervals in the information collection step (S10) detecting, measuring and collecting the difference value between the detected largest potential difference value and the smallest potential difference value;

In the setting step (S20), a second threshold value for the difference value of the unit time is set based on the difference value information of the unit time measured and collected in the information collection step (S10),

As shown in Figure 2d, the detection step (S30) is a combination of any one of the R wire, S wire, and T wire and the other wire that supplies operating power to the device in the process of driving the device in real time at least One or more is selected, and when the difference between the largest potential difference value and the smallest potential difference value of the real-time unit time of the selected combination exceeds the second threshold value, the device is detected as an inspection state requiring inspection or replacement.

Therefore, the predictive maintenance method 100 of the device through the unbalanced voltage and current of the present invention can detect abnormal signs of the device in various ways, thereby ensuring excellent reliability of the detection result.

On the other hand, as shown in Fig. 1, in the process of driving the device in the information collection step (S10), a combination of any one of the R wire, the S wire, and the T wire and the other wire for supplying operating power to the device at least Select one or more, and measure and collect the potential difference between the wires of the selected combination over time.

That is, as shown in Fig. 2e, in the information collection step (S10), in the information collection step (S10), the potential difference information between the wires for one or more combinations of the selected combinations of wires, that is, the combination between R-S wires, the combination between R-T wires, and the combination between S-T wires is measured and collected, and the potential difference information measured and collected in this way becomes the setting basis of the threshold value set to detect abnormal signs of the device in the setting step (S20).

Here, the potential difference between the wires for the selected combination is quantified as an absolute value and collected.

Then, the setting step (S20) sets a third threshold value for the potential difference between the wires based on the potential difference information between the wires measured and collected in the information collection step (S10),

As shown in Fig. 2f, the detection step (S30) is a combination of any one of the R wire, the S wire, and the T wire and the other wire that supplies the operating power to the device in the process of driving the device in real time at least One or more is selected, and when the potential difference between the real-time wires of the selected combination exceeds the third threshold value, the device is detected as an inspection state requiring inspection or replacement.

In the case of devices such as motors that normally use three-phase (R-phase, S-phase, T-phase) power, when the voltage difference between the three-phase power supply occurs, the difference in the force to rotate the motor shaft occurs, resulting in uneven wear and tear of the motor. As it causes deterioration, etc., when abnormal signs of the device are detected through the detection step (S30), unexpected motor failure is prevented through rapid inspection and management in advance. This can prevent huge financial losses.

On the other hand, the first, second, and third threshold values can be used by dividing the alarm value indicating the alarm state of the device and the danger value indicating the dangerous state of the device, and the alarm value is a dangerous state lower than the danger value. It indicates the degree to which attention and attention of the device are required, and the risk value indicates a higher level of risk than the alarm value, and it can be seen to the extent that the inspection or replacement of the device is required.

Accordingly, it goes without saying that the warning value is formed to be smaller than the danger value.

The predictive maintenance method 100 of the present invention, which detects abnormal signs of the device through the process as described above, includes any one of three-phase power supplying power to the device while the device is being driven. After selecting at least one or more combinations of other wires, setting the threshold value of the average potential difference for the potential difference within the unit time of the selected combination, in the three-phase power supply that supplies operating power to the device in real time while the device is driven Select one or more combinations of a selected one wire and another wire, and alarm when the average potential difference between wires within the real-time unit time of the selected combination exceeds a threshold value, so that equipment inspection and replacement can be carried out in a timely manner. This has the effect of preventing huge financial loss due to device failure in advance.

In addition, various detection conditions are suggested to efficiently search for abnormal signs occurring in the device, and when the detection conditions are satisfied, the device is detected as an abnormal state, so that the abnormal symptoms occurring in the device can be detected very precisely and effectively. In addition, there is an effect of securing excellent reliability of the detection result.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are illustrative and not limited to the above-described embodiments, those of ordinary skill in the art will realize that various modifications and equivalent embodiments are possible therefrom. point can be understood. In addition, it goes without saying that modifications by those skilled in the art are possible within the scope that does not impair the spirit of the present invention. Accordingly, the scope of claiming the right in the present invention is not defined within the scope of the detailed description, but will be limited by the following claims and the technical spirit thereof.

S10. Information collection stage
S20. setting stage
S30. detection stage
100. Predictive maintenance method of equipment through unbalanced voltage and current

Claims (4)

In the predictive maintenance method of a device using a three-phase (R-phase, S-phase, T-phase) AC power,
In the process of driving the device, select at least one combination of one wire and the other from the R wire, S wire, and T wire that supplies operating power to the device, and change the potential difference between the wires of the selected combination over time. an information collection step of calculating and collecting an average potential difference obtained by averaging the potential differences within a unit time while repeatedly collecting at a unit time interval (S10);
a setting step (S20) of setting a first threshold value for the average potential difference based on the average potential difference information per unit time for the potential difference between the wires measured and collected in the information collecting step (S10); and
In the process of driving the device in real time, select at least one combination of one wire and the other from among R, S, and T wires that supply operating power to the device, and measure the potential difference of the selected combination in real-time unit time. When the averaged average potential difference exceeds the first threshold value, the detection step (S30) of detecting the inspection state requiring inspection or replacement of the device;
The first threshold is divided into an alarm value indicating the alarm state of the device and a danger value indicating the dangerous state of the device, wherein the alarm value is formed as a value less than the danger value. The predictive maintenance method of the device.
The method of claim 1,
In the information collection step (S10), the largest potential difference value (Max) and the smallest potential difference value (Min) are detected in a unit time instead of the average potential difference that is repeatedly measured and collected at unit time intervals, and the detected largest potential difference Measure and collect the difference value between the value and the smallest potential difference value,
In the setting step (S20), a second threshold value for the difference value of the unit time is set based on the difference value information of the unit time measured and collected in the information collection step (S10),
The detection step (S30) selects at least one combination of any one wire and the other wire among the R wire, the S wire, and the T wire for supplying operating power to the device in the process of driving the device in real time, and the selected combination When the difference value between the largest potential difference value and the smallest potential difference value in the real-time unit time of The predictive maintenance method of the device.
The method of claim 1,
In the information collection step (S10), in the process of driving the device, select at least one combination of any one wire and the other wire among the R wire, the S wire, and the T wire that supplies the operating power to the device, and The potential difference between wires is measured and collected over time,
The setting step (S20) sets a third threshold value for the potential difference between the wires based on the potential difference information between the wires measured and collected in the information collecting step (S10),
The detection step (S30) selects at least one combination of any one wire and the other wire among the R wire, the S wire, and the T wire for supplying operating power to the device in the process of driving the device in real time, and the selected combination Predictive maintenance method of devices through unbalanced voltage and current, characterized in that when the potential difference between wires in real time exceeds the third threshold value, it is detected as an inspection state requiring inspection or replacement of the device.
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