KR102384998B1 - 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 to supply operating power to the device while the device using three-phase (R-phase, S-phase, T-phase) AC power is driven. Select at least one combination of one wire and the other from among R wire, S wire, and T wire, and collect the potential difference between the wires of the selected combination over time, while repeatedly collecting at unit time intervals for a unit time An information collection step (S10) of calculating and collecting an average potential difference value averaging potential differences within, and collecting slope information on the average potential difference through the slope of a straight line connecting the collected average potential difference values (S10); and the information collection step A setting step (S20) of setting a suspicious slope value for the average potential difference based on the slope information for the average potential difference measured and collected in (S10) (S20); and R supplying operating power to the device in the process of driving the device in real time Select at least one combination of one wire and the other wire among wires, S wire and T wire, and repeatedly collect the average potential difference averaging the potential difference in real time unit time of the selected combination, and connect the collected average potential difference When the slope value of the straight line exceeds the suspected slope value, the detection step (S30) of detecting the inspection state requiring inspection or replacement of the device;
In the process of driving the device, the average potential difference information between the wires of the three-phase power supply that supplies the operating power to the device is collected, and a suspicious slope value is set based on the collected information, and then the wires of the device’s three-phase power are collected in real time. In preparation for the slope value and the suspected slope value for the average potential difference between It has the effect of preventing losses in advance.
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 unbalanced voltage and current, and more particularly, collects average potential difference information between wires of a three-phase power supply that supplies operating power to a device while the device is driven, and collects the information After setting the suspicious slope value based on the information, prepare the slope value and the suspicious slope value for the average potential difference between the wires of the device's three-phase power source, which are collected in real time. It relates to a predictive maintenance method of equipment through unbalanced voltage and current that can prevent huge financial loss due to equipment failure in advance by inducing inspection and replacement of equipment in a timely manner.

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 working in conjunction with each other. Things can happen.

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, it is urgent to introduce a predictive maintenance system. Efforts are already being made to improve the problems under the name of predictive conservation, but the development of higher-level predictive conservation methods is needed for more efficient predictive conservation.

[Document 0001] Unexamined Patent Publication No. 10-2019-0108280 (2019.09.24) [Document 0002] Unexamined Patent Publication No. 10-2010-0054963 (2010.05.26) [Document 0003] Unexamined Patent Publication No. 10-2019-0030763 (2019.03.22)

The present invention has been proposed to solve the various problems as described above, and its purpose is to collect average potential difference information between wires of a three-phase power supply that supplies operating power to the device in the process of driving the device, and collect the information After setting the suspicious slope value based on the suspicious slope value, the slope value and the suspicious slope value for the average potential difference between the wires of the device's three-phase power source, which are collected in real time, are alerted when the condition suspected of an abnormal symptom of the device is satisfied. It is to provide a predictive maintenance method for equipment through unbalanced voltage and current that can prevent huge financial loss due to equipment failure in advance by inducing inspection and replacement of equipment.

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.

In order to achieve the above object, the predictive maintenance method of a device through unbalanced voltage and current according to the present invention is the operating power supply to the device in the process of driving the device using three-phase (R-phase, S-phase, T-phase) AC power. Select at least one combination of one wire and the other from the R wire, S wire, and T wire that supplies An information collection step (S10) of calculating and collecting an average potential difference value averaging potential differences within a unit time, and collecting slope information on the average potential difference through the slope of a straight line connecting the collected average potential difference values (S10); A setting step (S20) of setting a suspicious slope value for the average potential difference based on the slope information for the average potential difference measured and collected in the information collection step (S10); Select at least one combination of one wire and the other from among the supplied R wire, S wire, and T wire, and repeatedly collect the average potential difference averaging the potential difference in real-time unit time of the selected combination, and the collected average When the slope value of the straight line connecting the potential difference exceeds the suspected slope value, the detection step (S30) of detecting the inspection state requiring inspection or replacement of the device;
The suspicious slope value is set to be divided into an alarm slope value and a dangerous slope value, wherein the alarm slope value is set to a value less than the dangerous slope value,
When the slope value for the average potential difference of the unit time collected from the device driven in real time in the detection step (S30) exceeds the alarm slope value of the suspicious slope value, the device is recognized as an alarm state,
When the slope value for the average potential difference of the unit time collected from the device running in real time exceeds the dangerous slope value of the suspicious slope value, it is characterized in that the device is recognized as a dangerous state with a higher risk of failure than the alarm state.

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In addition, setting a danger detection section for a certain time in which the slope value for the average potential difference of the unit time collected from the device driven in the setting step (S20) is included at least twice or more,

Counting the number of times that the slope value for the average potential difference in unit time collected from the device driven in real time in the danger detection section set in the detection step (S30) exceeds the alarm slope value of the suspicious slope value,

When the count exceeds the arbitrary number of times set in the setting step (S20), it is characterized in that the device is recognized as a dangerous state.

As described above, according to the predictive maintenance method of the device through the unbalanced voltage and current according to the present invention, the average potential difference information between the wires of the three-phase power supply that supplies the operating power to the device is collected in the process of driving the device, and the collected information is collected. After setting the suspicious slope value based on the information, prepare the slope value and the suspicious slope value for the average potential difference between the wires of the device's three-phase power source, which are collected in real time. It has the effect of preventing huge financial loss due to the failure of the device by inducing the timely inspection and replacement of the device.

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.

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 three-phase (R-phase, S-phase, T-phase) R wire and S wire for supplying operating power to the device while the device using AC power is driven Select at least one or more combinations of one wire and another wire among the and T wires, and collect the potential difference between the wires of the selected combination over time, while repeating collection at unit time intervals and averaging the potential difference within a unit time. It is a step of calculating and collecting the average potential difference value, and collecting slope information about the average potential difference through the slope of a straight line connecting the collected average potential difference values to each other.

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 repeatedly calculated and collected by averaging the values.

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.

As shown in Figure 2b, after the average potential difference value that is repeatedly calculated and collected as described above is displayed over time, a predetermined slope value can be obtained through the slope of a straight line connecting the average potential difference value to each other. , at this time, it can be divided into a rising slope value (positive number) where the slope is rising and a falling slope value (negative number) where the slope is falling, but all of the slope values are quantified and collected as absolute values.

Here, for clear predictive maintenance of the device, it is desirable to calculate and collect information on the slope of the average potential difference between wires for all combinations (combinations between R-S wire, R-T wire, S-T wire), but one combination selected for convenience of explanation It is described as collecting the slope information for (R-S wire), but the present invention is not limited thereto, and it is of course possible to collect and use the slope information of the average potential difference between the wires for a combination of two or more selected.

The slope information for the average potential difference measured and collected in this way becomes the basis of the suspicious slope value set to detect abnormal signs of the device in the setting step (S20), which will be described later.

As shown in FIG. 1 , the setting step ( S20 ) is a step of setting a suspicious slope value for the average potential difference based on the slope information for the average potential difference measured and collected in the information collection step ( S10 ).

Here, the suspicious slope value is preferably set based on the slope value for the average potential difference which is abnormally rather large based on the slope information about the average potential difference collected for a long period of time in the information collection step ( S10 ).

The suspicious slope value of the predictive maintenance method 100 of the device through the unbalanced voltage/current of the present invention is set by dividing the alarm slope value and the danger slope value, but it is of course not limited to these values.

Here, the alarm slope value is set to a value smaller than the danger slope value, and the warning and danger slope values will be described in detail in the detection step (S30), which will be described later.

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 It is a step of selecting one or more, repeatedly collecting the average potential difference averaging the potential difference in real time unit time of the selected combination, and checking the state of the device through the slope value of a straight line connecting the collected average potential difference.

Here, as in the information collection step (S10), the average potential difference of the unit time between R-S wires is repeatedly collected from the device driven in real time, and the collected average potential difference is connected to collect the slope value of the straight line to detect the state of the device However, it is not, of course, limited to the R-S wire combination to detect the state of the device.

That is, as shown in Fig. 2c, the average potential difference value of the unit time between R-S wires is repeatedly collected from the device driven in real time, and the slope value connecting the collected average potential difference value is the alarm and danger slope of the suspicious slope value. If the value is not exceeded, the device is detected as a normal state, if the alarm slope value is exceeded, the device is detected as an alarm state, and if the dangerous slope value is exceeded, the device is detected as a dangerous state.

Here, the alarm slope value indicates the risk of failure at a lower level than the danger slope value. The alarm state of the device is the degree to which attention and attention of the device are required, and the dangerous state of the device is the repair, inspection or replacement of the device. can be considered as required.

Therefore, by detecting abnormal signs of the equipment in advance based on the state of the equipment detected in real time by the detection means (S30), the economic loss that may occur due to the sudden equipment failure due to the overall operation of the equipment is stopped in advance. encourage you to do it

On the other hand, setting a danger detection section for a certain time in which the slope value for the average potential difference of the unit time collected from the device driven in the setting step (S20) is included at least twice or more,

Count the number of times that the slope value for the average potential difference of unit time collected from the device driven in real time in the danger detection section set in the detection step (S30) exceeds the alarm slope value of the suspicious slope value, the setting step ( If the count exceeds the arbitrary number of times set in S20), the device is recognized as a dangerous state and prompt inspection and management of the device is induced. The process is as follows.

For example, as shown in FIG. 2D , in the setting step ( S20 ), a section in which the slope value for the average potential difference value of the device includes 4 times is set as the risk detection section, and the setting number is set to 2 times.

Then, in the detection step (S30), if the slope value for the average potential difference value of the device exceeds the alarm slope value of the suspicious slope value in real time in the danger detection section, it is counted, but the number of counters is set in the setting step (S20) If it is counted more than twice a set number of times, the device is recognized as a dangerous state and prompt maintenance is induced through precise inspection or replacement of the device.

Typically, in the case of a device such as a motor using a three-phase power source, when a voltage difference between the three-phase power supply occurs, a difference in the force to rotate the motor shaft occurs, which causes uneven wear and deterioration of the motor. S30), when an abnormality of the device is detected, it is possible to prevent unexpected motor failure through rapid inspection and management in advance, thereby preventing damage that may occur because the operation of the equipment is stopped due to the failure of the motor.

The predictive maintenance method 100 of the device through the control output signal of the present invention for detecting abnormal signs of the device through the above process is the average potential difference information between the wires of the three-phase power supplying the operating power to the device while the device is driven After collecting the data and setting the suspicious slope value based on the collected information, compare the slope value and the suspicious slope value for the average potential difference between the three-phase power wires of the device that are collected in real time When the condition is satisfied, 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 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 (3)

Three-phase (R-phase, S-phase, T-phase) At least one combination of one wire and the other of the R wire, S wire, and T wire that supplies operating power to the device while the device using AC power is driven Select more than one, and collect 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 value by averaging the potential difference within a unit time, and collecting the average potential difference value with each other an information collection step of collecting information on the slope of the average potential difference through the slope of the connecting straight lines (S10);
a setting step (S20) of setting a suspicious slope value for the average potential difference based on the slope information for the average potential difference 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 the 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. A detection step (S30) of repeatedly collecting the averaged average potential difference and detecting the inspection state requiring inspection or replacement of the device when the slope value of the straight line connecting the collected average potential difference exceeds the suspicious slope value; ,
The suspicious slope value is set to be divided into an alarm slope value and a dangerous slope value, wherein the alarm slope value is set to a value less than the dangerous slope value,
When the slope value for the average potential difference of the unit time collected from the device driven in real time in the detection step (S30) exceeds the alarm slope value of the suspicious slope value, the device is recognized as an alarm state,
When the slope value for the average potential difference of the unit time collected from the device running in real time exceeds the dangerous slope value of the suspicious slope value, the device is recognized as a dangerous state with a higher risk of failure than the alarm state. Predictive maintenance method of equipment through voltage and current.
delete The method of claim 1,
Setting a danger detection section for a certain time in which the slope value for the average potential difference of the unit time collected from the device driven in the setting step (S20) is included at least twice or more,
Counting the number of times that the slope value for the average potential difference in unit time collected from the device driven in real time in the danger detection section set in the detection step (S30) exceeds the alarm slope value of the suspicious slope value,
The predictive maintenance method of the device through unbalanced voltage/current, characterized in that the device is recognized as a dangerous state when the count exceeds the arbitrary number of times set in the setting step (S20).

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