KR102732156B1 - Device safety management system through disturbance detection - Google Patents

Abstract

The present invention relates to a safety management system for a device through disturbance detection, and is characterized in that it comprises: a disturbance detection unit that detects disturbances such as a voltage rise or voltage drop that occurs momentarily in an electric device that operates using electricity and transmits the detection information to a disturbance detection unit; a disturbance detection unit that detects only actual disturbances among the disturbances detected by the disturbance detection unit and transmits the detected disturbance information to a disturbance output unit; and a disturbance output unit that outputs the disturbance information detected by the disturbance detection unit as an image and provides it to a manager;
The disturbance detection unit detects disturbances such as voltage rises or voltage drops that occur in electrical equipment that operates using electricity, and the disturbance detection unit detects and collects only actual disturbances among the disturbances detected by the disturbance detection unit, and the collected information is output and provided to the manager through the disturbance output unit. Therefore, the manager can clearly recognize the degree of disturbance actually occurring in the electrical equipment and respond appropriately, thereby preventing damage or failure of the electrical equipment due to the disturbance in advance, thereby preventing enormous economic losses caused by failure of the electrical equipment.
Furthermore, the disturbance judgment unit, which can more precisely detect and judge the state of electrical equipment based on the disturbance actually detected by the disturbance detection unit, allows the manager to more precisely recognize the state of electrical equipment due to disturbance, which has the effect of inducing very effective inspection and management of electrical equipment.

Description

{Device safety management system through disturbance detection}

The present invention relates to a safety management system for equipment through disturbance detection, and more specifically, to a safety management system for equipment through disturbance detection in which a disturbance detection unit detects disturbances such as a voltage rise or voltage drop that occur in an electrical equipment that operates using electricity, the disturbance detection unit detects and collects only actual disturbances among the disturbances detected by the disturbance detection unit, and the collected information is output and provided to a manager through a disturbance output unit, so that the manager can clearly recognize the degree of disturbance actually occurring in the electrical equipment and respond appropriately, thereby preventing damage or failure of the electrical equipment due to the disturbance in advance and preventing enormous economic loss caused by failure of the electrical equipment.

In general, various electrical devices that operate on electricity as a power source are exposed to external disturbances (shocks) such as voltage drops or momentary voltage increases in the power supply.

Such disturbances can cause electrical equipment to be damaged or destroyed by excessive voltages flowing in a very short period of time, and there is also the problem that the condition of the electrical equipment gradually deteriorates when repeatedly exposed to relatively low excessive voltages, leading to sudden breakdowns.

Damage or failure of electrical equipment as described above can result in enormous losses not only in repair costs due to downtime caused by repair or replacement, but also in operating costs and business effects wasted while the electrical equipment or facility is down.

Therefore, there is a need to develop a system (method) that can induce efficient management of electrical devices by detecting external disturbances generated from electrical devices and inspecting the electrical devices at an appropriate time according to the risk of the detected external disturbances.

The present invention has been proposed to solve the above-mentioned problems, and its purpose is to provide a safety management system for equipment through disturbance detection, in which a disturbance detection unit detects disturbances such as a voltage rise or voltage drop that occur in an electrical equipment that operates using electricity, the disturbance detection unit detects and collects only actual disturbances among the disturbances detected by the disturbance detection unit, and the collected information is output and provided to a manager through a disturbance output unit, so that the manager can clearly recognize the degree of disturbance actually occurring in the electrical equipment and respond appropriately, thereby preventing damage or failure of the electrical equipment due to the disturbance in advance and preventing enormous economic loss due to failure of the electrical equipment.

Furthermore, the present invention provides a safety management system for devices through disturbance detection that can induce very effective inspection and management of electrical devices by allowing managers to more precisely recognize the status of electrical devices due to disturbances through a disturbance judgment unit that can more precisely detect and judge the status of electrical devices based on disturbances actually detected by a disturbance detection unit.

In order to achieve the above purpose, the safety management system of a device through disturbance detection according to the present invention comprises: a disturbance detection unit that detects disturbances such as a voltage rise or voltage drop that occurs momentarily in an electric device that operates using electricity and transmits the detection information to a disturbance detection unit; a disturbance detection unit that detects only disturbances among the disturbance detection information detected by the disturbance detection unit and transmits the detected disturbance information to a disturbance output unit; and a disturbance output unit that outputs the disturbance information detected by the disturbance detection unit as an image and provides it to a manager;
The above disturbance detection unit measures the time for which the detected disturbance is maintained and the voltage magnitude value and transmits them to the disturbance detection unit.
The above disturbance detection unit is characterized in that a duration value for the time during which the disturbance is maintained and a detection voltage value for the voltage magnitude of the disturbance are set, and only disturbances that are maintained for less than the set duration value and at the same time a voltage exceeding the set detection voltage value are formed are detected among the disturbances detected by the disturbance detection unit.

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In addition, the disturbance detection unit is characterized in that it constructs two or more voltage sections divided according to voltage magnitude, and sets a detection voltage value corresponding to each of the constructed voltage sections.

In addition, it further comprises a disturbance judgment unit that detects and judges the risk of electrical equipment based on the disturbance detected by the disturbance detection unit;

The above disturbance judgment unit sets threshold values for each of a plurality of voltage sections constructed in the disturbance detection unit, and determines that the electrical device is dangerous when the voltage value of the disturbance detected by the disturbance detection unit exceeds the threshold value, and the judgment information is output through the disturbance output unit.

In addition, the above disturbance judgment section sets a risk detection section for a certain period of time and a critical number of times for the risk detection section.

The above disturbance detection unit counts the number of disturbances detected in a repeatedly set risk detection section, and the disturbance judgment unit determines that the electrical device is dangerous if the number of disturbances counted by the disturbance detection unit exceeds a threshold number.

As described above, according to the safety management system of a device through disturbance detection according to the present invention, the disturbance detection unit detects disturbances such as a voltage rise or voltage drop that occur in an electrical device that operates using electricity, the disturbance detection unit detects and collects only actual disturbances among the disturbances detected by the disturbance detection unit, and the collected information is output and provided to a manager through the disturbance output unit. Therefore, the manager can clearly recognize the degree of disturbance actually occurring in the electrical device and respond appropriately, thereby preventing damage or failure of the electrical device due to the disturbance in advance, thereby preventing enormous economic loss due to failure of the electrical device.

Furthermore, the disturbance judgment unit, which can more precisely detect and judge the state of electrical equipment based on the disturbance actually detected by the disturbance detection unit, allows the manager to more precisely recognize the state of electrical equipment due to disturbance, which has the effect of inducing very effective inspection and management of electrical equipment.

Figure 1 is a block diagram of a safety management system of a device through disturbance detection according to an embodiment of the present invention.
Figures 2 to 6 are drawings for explaining the safety management system of the device through disturbance detection illustrated in Figure 1.

A safety management system for a device through disturbance detection according to a preferred embodiment of the present invention is described in detail with reference to the attached drawings. Detailed descriptions of known functions and configurations that may unnecessarily obscure the gist of the present invention are omitted.

FIGS. 1 to 6 illustrate a safety management system for a device through disturbance detection according to an embodiment of the present invention. FIG. 1 is a block diagram of a safety management system for a device through disturbance detection according to an embodiment of the present invention, and FIGS. 2 to 6 are drawings each illustrating the safety management system for a device through disturbance detection illustrated in FIG. 1.

As shown in the drawing above, the safety management system (100) of a device through disturbance detection according to an embodiment of the present invention includes a disturbance detection unit (10), a disturbance detection unit (20), and a disturbance output unit (30).

As shown in Fig. 1, the disturbance detection unit (10) detects disturbances such as voltage increases or decreases that occur momentarily in an electrical device that operates using electricity, and transmits the detection information to the disturbance detection unit (20) to be installed later.

Normally, various electrical devices that operate based on electricity may experience external disturbances (abnormal voltages) in which the voltage rises or falls momentarily due to external or internal causes during the operation process. If these disturbances are repeated, they may cause problems such as damage to the electrical device or a decrease in its function.

That is, as illustrated in FIG. 3, the disturbance detection unit (10) detects a disturbance that occurs momentarily in the operating power of the electric device and transmits the detected disturbance information to the disturbance detection unit (20). At this time, the disturbance information includes information about the time that the disturbance is maintained and the magnitude of the voltage, so that the disturbance detection unit (20) can easily detect the actual disturbance.

As shown in Fig. 1, the disturbance detection unit (20) detects only actual disturbances among the disturbances detected by the disturbance detection unit (10) and transmits the detected disturbance information to the disturbance output unit (30) to be installed later.

Here, the disturbance detection unit (20) is set with a duration value for the time during which the disturbance is maintained and a detection voltage value for the voltage size of the disturbance, so that among the disturbances detected by the disturbance detection unit (10), only disturbances that are maintained for less than the set duration value and at the same time form a voltage exceeding the set detection voltage value are detected as actual disturbances.

In general, a conveyor that operates on an electric device, for example a motor, tends to form a relatively high voltage (load) when it first starts operating, as shown in Fig. 2, and then, once stabilized, it is maintained at a constant, low voltage. Then, when an item is loaded onto the conveyor, a slightly high voltage is formed and then stabilized and maintained at a constant voltage.

That is, as shown in Fig. 3, the disturbance detection unit (20) sets a duration value for which the disturbance is maintained, thereby excluding a voltage section that is formed somewhat high due to reasons such as when the conveyor is first operated or when a load is generated due to goods being loaded, so that only actual disturbances occurring in the electrical equipment are detected and collected.

For example, by setting the duration value set in the disturbance detection unit (20) to 0.5 seconds or less, the voltage section that is formed high when an electrical device is operated or a load (in the case of a conveyor, when an item is loaded) that may naturally occur for several seconds is excluded, and only actual disturbances that occur in an instant are collected.

Of course, if the condition of less than the set duration value as described above is satisfied while exceeding the set detection voltage value, the disturbance detection unit (20) recognizes it as an actual disturbance and detects and collects it.

Here, it goes without saying that the detection voltage value set in the disturbance detection unit (20) can be set separately as a detection voltage value for a voltage increase (MAX) and a detection voltage value for a voltage drop (MIN) in order to detect both a voltage increase and a voltage drop that occur momentarily in the electrical device.

In addition, the above disturbance detection unit (20) constructs two or more voltage sections divided according to voltage magnitude, and sets detection voltage values corresponding to each of the constructed voltage sections.

As shown in the voltage waveform of Fig. 2, which explains the conveyor as an example above, when the conveyor is in operation and no goods are loaded, there is almost no load and a low voltage is maintained, and when goods are loaded later, a slightly high voltage is maintained on the conveyor due to the load caused by the goods. Accordingly, it is desirable to set the detection voltage value in the case where a slightly high voltage is maintained on the conveyor somewhat higher than the detection voltage value in the case where a low voltage is maintained on the conveyor, so that a detection voltage value suitable for a variety of voltage sizes formed on the conveyor is set variably and effectively so that disturbances occurring on the conveyor are detected.

That is, as illustrated in FIG. 4, the disturbance detection unit (20) forms at least two voltage sections so that it can respond to voltages formed and maintained in various sizes in the electric device, and induces the voltages that change in various ways in the electric device to be variably set to the detection voltage value set in the corresponding voltage section, thereby enabling accurate disturbance detection from the electric device.

For example, in the present invention, a voltage range is divided into a lower voltage range below a lower limit, a middle voltage range between the lower limit and the upper limit, and an upper voltage range above the upper limit, thereby dividing the voltage range into a total of three ranges, and individual detection voltage values are set for each divided voltage range. However, the voltage ranges are not divided and constructed to be limited to this number.

Here, it goes without saying that the lower or upper limit values can be set to appropriate voltage values considering the type of electrical equipment or usage environment.

As shown in Fig. 1, the disturbance output unit (30) outputs disturbance information detected by the disturbance detection unit (20) as an image and provides it to the manager.

Therefore, the number of actual disturbances and voltage magnitude that occur while the electrical device is operating can be clearly recognized through the image provided from the disturbance output unit, thereby inducing stable management of the electrical device.

Meanwhile, as shown in Fig. 1, it further comprises a disturbance judgment unit (40) that detects and judges the risk of electrical equipment based on the disturbance detected by the disturbance detection unit (20).

The above disturbance judgment unit (40) sets threshold values for each of the plurality of voltage sections constructed in the disturbance detection unit (20), and if the voltage value of the disturbance detected by the disturbance detection unit (20) exceeds the threshold value, it determines that the electrical device is dangerous, and the judgment information is output through the disturbance output unit (30).

Here, if a high abnormal voltage flows momentarily in the electrical equipment due to an external disturbance, it can cause fatal results to the electrical equipment. In such cases, prompt inspection or management of the electrical equipment is essential.

That is, as shown in Fig. 5, if the disturbance judgment unit (40) detects a high-risk disturbance among the disturbances detected by the disturbance detection unit (20) and determines that the electrical device is at risk, it notifies the manager through the disturbance output unit (30), thereby inducing a quick inspection of the electrical device when a high-risk disturbance occurs, and inducing a quick response to damage or abnormal signs of the electrical device, thereby inducing stable management of the electrical device.

Here, it goes without saying that the threshold values can be set separately as a threshold value (MAX) for disturbances detected by a voltage rise and a threshold value (MIN) for disturbances detected by a voltage drop in order to appropriately assess the risk of disturbances such as voltage rise or voltage drop of the electrical equipment, respectively.

In addition, as shown in Fig. 6, the disturbance judgment unit (40) sets a risk detection section for a certain period of time and a threshold number of times for the risk detection section.

The above disturbance detection unit (20) counts the number of disturbances detected in a repeatedly set risk detection section, and the disturbance judgment unit (40) determines that the electrical device is dangerous if the number of disturbances counted by the disturbance detection unit (20) exceeds a threshold number.

That is, the disturbance judgment unit (40) receives the counter number of disturbance occurrences in the danger detection section from the disturbance detection unit (20), and if the counter number of disturbance occurrences does not exceed the set threshold number within the time of the danger detection section, the electrical device is recognized as being in a normal state, but if the counter number of disturbance occurrences exceeds the threshold number within the limited time of the danger detection section, the electrical device is determined to be in a dangerous state.

The judgment information of the above disturbance judgment unit (40) is immediately output to the manager through the disturbance output unit (30), enabling rapid inspection of the electrical equipment, thereby inducing stable management of the electrical equipment.

The safety management system (100) of the present invention through disturbance detection, which is configured as described above, detects disturbances such as a voltage rise or voltage drop that occur in an electrical device that operates using electricity in the disturbance detection unit (10), and the disturbance detection unit (20) detects and collects only actual disturbances among the disturbances detected in the disturbance detection unit (10), and the collected information is output and provided to the manager through the disturbance output unit (30), so that the manager can clearly recognize the degree of disturbance actually occurring in the electrical device and respond appropriately, thereby preventing damage or failure of the electrical device due to the disturbance in advance, thereby having the effect of preventing enormous economic losses caused by failure of the electrical device.

Furthermore, the manager can more precisely recognize the state of the electrical device due to the disturbance through the disturbance determination unit (40) that can more precisely detect and determine the state of the electrical device based on the disturbance actually detected by the disturbance detection unit (20), thereby inducing very effective inspection and management of the electrical device.

Although the present invention has been described with reference to the embodiments illustrated in the attached drawings, this is illustrative and not limited to the above-described embodiments, and those skilled in the art will understand that various modifications and equivalent embodiments are possible from this. In addition, it goes without saying that modifications are possible by those skilled in the art within a scope that does not infringe the spirit of the present invention. Accordingly, the scope of rights claimed in the present invention is not limited within the scope of the detailed description, but is limited by the claims described below and the technical spirit thereof.

10. Disturbance detection unit
20. Disturbance detection unit
30. External disturbance output section
40. External Disturbance Judgment Department
100. Device safety management system through external disturbance detection

Claims (5)

A disturbance detection unit (10) that detects disturbances such as voltage increases or decreases that occur momentarily in electrical equipment that operates using electricity and transmits the detection information to a disturbance detection unit (20);
A disturbance detection unit (20) that detects only disturbances among the disturbance detection information detected by the disturbance detection unit (10) and transmits the detected disturbance information to a disturbance output unit (30);
It includes a disturbance output unit (30) that outputs disturbance information detected by the disturbance detection unit (20) as an image and provides it to the manager;
The above disturbance detection unit (10) measures the time for which the detected disturbance is maintained and the voltage size value together and transmits them to the disturbance detection unit (20).
A safety management system for a device through disturbance detection, characterized in that the disturbance detection unit (20) is configured to detect only disturbances among disturbances detected by the disturbance detection unit (10) in which the disturbance is maintained for a duration less than the set duration value and a detection voltage value for the voltage size of the disturbance is formed in excess of the set detection voltage value.
delete In paragraph 1,
A safety management system for a device through disturbance detection, characterized in that the disturbance detection unit (20) constructs two or more voltage sections divided according to voltage magnitude, and sets detection voltage values corresponding to each of the constructed voltage sections.
In the third paragraph,
It is configured to further include a disturbance judgment unit (40) that detects and judges the risk of electrical equipment based on the disturbance detected by the disturbance detection unit (20).
A safety management system for a device through disturbance detection, characterized in that the disturbance judgment unit (40) sets threshold values for each of a plurality of voltage sections constructed in the disturbance detection unit (20), and determines that the electrical device is dangerous when the voltage value of the disturbance detected by the disturbance detection unit (20) exceeds the threshold value, and the judgment information is output through the disturbance output unit (30).
In paragraph 4,
In the above disturbance judgment unit (40), a risk detection section for a certain period of time and a critical number of times for the risk detection section are set,
The above disturbance detection unit (20) counts the number of disturbances detected in a repeatedly set risk detection section.
A safety management system for a device through disturbance detection, characterized in that the disturbance judgment unit (40) determines that the electrical device is dangerous when the number of disturbances counted by the disturbance detection unit (20) exceeds a threshold number.