KR101709019B1 - Device and method for automatic power supply - Google Patents

Abstract

The present invention relates to a device and a method for automatically supplying power through an electromagnetic switch. The device for automatically supplying power according to the present invention includes a control unit which transmits an input signal for invalidation of an open signal to the electromagnetic switch with an entry instruction of an airport maintenance personnel to an electric facility if the open signal is generated in the electromagnetic switch by interworking with an outage in the electric facility inside an airport, and a processing unit which cancels the entry instruction if an outage retention time is within a preset reference value after the input signal is transmitted to the electromagnetic switch. Accordingly, the present invention can shorten an outage time in the electric facility inside the airport by automatically and quickly inputting the electromagnetic switch.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic power-

The present invention relates to an automatic power supply apparatus and an automatic power supply method through an electromagnetic switch.

Facilities and equipment installed inside / outside the airport passenger terminal are equipped with a number of electromagnetic switches. Such an electromagnetic switch in the prior art is manually operated by an administrator.

That is, the electromagnetic switch in the prior art must manually CLOSE the electromagnetic switch every time the input power is turned on or off according to the scheduled power interruption work. Therefore, the airport maintenance personnel must confirm the state of input of a plurality of electromagnetic switches individually, so that there is a disadvantage that labor and time are considerably consumed.

In addition, the electromagnetic switch in the prior art may have a problem that some electromagnetic switches are opened even during a momentary power failure, causing inconveniences in operating facilities and equipment, and inconveniencing users using the airports .

For example, an electronic switch may be installed in an air conditioner of a passenger terminal, security of an outside area, power supply facilities, and the like. These facilities are directly connected with passenger service and airport security. If the electronic switch is opened, electricity problems such as blackouts can cause problems in passenger service, safety and security.

Accordingly, there is a need for an apparatus and method capable of automatically restarting the power supply quickly when the electromagnetic switch is opened due to electrical characteristics such as electrostatic or harmonic waves.

SUMMARY OF THE INVENTION It is an object of the present invention to shorten a power failure time in an electric facility in an airport by automatically inputting an electromagnetic switch more quickly than when manually operating.

In addition, the present invention can prevent a safety accident by measuring the insulation resistance of the electric facility when the electromagnetic switch is automatically turned on.

In addition, the present invention has another purpose of preventing the occurrence of faults due to frequent power-on by limiting the number of times of passing of the input signal and transmitting an instruction to enter the airport maintenance personnel.

In order to achieve the above-mentioned object, when an opening signal is generated in an electromagnetic switch interlocked with a power failure in an electric facility in an airport, the automatic power supply device instructs an airport maintenance person to enter the electric facility, And a processor for canceling the entry instruction when the time for which the power interruption is maintained is within a predetermined reference value after transferring the input signal to the electromagnetic switch.

As a technical method for accomplishing the above object, an automatic power input method is a method in which, when an open signal is generated in an electromagnetic switch interlocked with a power failure in an electric facility in an airport, And transmitting an input signal for invalidating the open signal to the electromagnetic switch, and after the transfer of the closing signal to the electromagnetic switch, if the time for which the power interruption is maintained is within a predetermined reference value, canceling the entry instruction As shown in FIG.

According to an embodiment of the present invention, by automatically inputting the electromagnetic switch more quickly than when operating manually, it is possible to shorten the power failure time in the electric facility in the airport, thereby contributing to non-stop operation.

In addition, according to the embodiment of the present invention, it is possible to prevent the occurrence of faults due to frequent power-on by limiting the number of times of passing of the input signal and transmitting an instruction to enter the airport maintenance personnel.

1 is a view for explaining a power automatic input system using an automatic power-on apparatus according to an embodiment of the present invention.
2 is a block diagram illustrating an automatic power-on device according to an embodiment of the present invention.
FIG. 3 is a view for explaining a validity determination process in the automatic power-on device according to an embodiment of the present invention.
4 is a view for explaining the operation of the automatic power-on apparatus according to an embodiment of the present invention.
5 is a view for explaining an example of the configuration of a circuit included in the automatic power-on apparatus of the present invention.
6 is a flowchart illustrating a method of automatically applying power according to an exemplary embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

The automatic power input device and the automatic power input method described herein determine whether the power source side, the electromagnetic switch and the load side are legitimate when the electromagnetic switch is opened, and when there is no legitimacy, If it is determined that there is no special condition to keep, the power can be automatically turned on and the electromagnetic switch can be switched to close. In addition, the power supply automatic power-on device and the power supply automatic power-off method of the present invention can cancel the entrance instruction of the airport maintenance personnel to the electric facility or the electromagnetic switch simultaneously generated by the opening of the electromagnetic switch.

1 is a view for explaining a power automatic input system using an automatic power-on apparatus according to an embodiment of the present invention.

The power automatic input system 100 may include a power automatic input device 110, a power supply device 120, an electromagnetic switch 130 and an electric facility 140.

The power automatic insertion device 110 may be connected to the electromagnetic switch 130 by wire or wirelessly. Further, the electromagnetic switch 130 may be connected to the power supply unit 120 and the electric facility 140.

When the electromagnetic switch 130 is closed, the electric power supplied from the power supply unit 120 can be supplied to the electric facility 140. In addition, when the electromagnetic switch 130 is opened, the power supplied from the power supply unit 120 may not be supplied to the electric facility 140. That is, when the electromagnetic switch 130 is opened, power supply from the power supply unit 120 to the electric facility 140 can be cut off.

The electromagnetic switch 130 may be opened according to the power interruption, the momentary interruption or the switching on / off effect in the power supply device 120 or may be opened according to the generation of harmonics in the power supply device 120 or the electric facility 140.

At this time, when the electromagnetic switch 130 is opened, the automatic power-on device 110 can automatically transmit the turn-on signal so that the electromagnetic switch 130 can turn on the power. That is, the automatic power-on device 110 may transmit an input signal so that the electromagnetic switch 130 can be connected to the power supply device 120 and the electric facility 140.

A more detailed description of the power automatic insertion device 110 will be described with reference to FIG.

2 is a block diagram illustrating an automatic power-on device according to an embodiment of the present invention.

The automatic power-on apparatus 200 of the present invention may include a control unit 210 and a processing unit 220. Also, according to the embodiment, the automatic power-on device 200 may be configured by adding a counting unit 230. [

When an open signal is generated in the electromagnetic switch interlocked with the power failure in the electric facility in the airport, the control unit 210 instructs the airport maintenance personnel to enter the electric facility, and transmits a closing signal for invalidating the open signal to the electronic Transfer to switch. That is, when the electromagnetic switch is opened according to the open signal (OFF), the control unit 210 can transmit the closing signal (ON) for inputting the electromagnetic switch while informing that the airport maintenance personnel is required to enter. For example, when an electromagnetic switch in an electric facility is opened due to a momentary power failure, the control unit 210 transmits an input signal to the electromagnetic switch, and can transmit an entry instruction to the airport maintenance personnel to check the electromagnetic switch or the electric facility have.

Here, the control unit 210 may transmit an entry instruction indicating that an airport maintenance agent is required to enter through a lamp, a speaker, and a monitor connected to the automatic power-on device 200. For example, the automatic power-on device 200 can turn off the LED lamp notifying the entry instruction and transmit the entry instruction. As another example, the automatic power-on device 200 can output an incoming instruction by outputting a warning sound through a speaker.

Also, the controller 210 determines the validity of the open signal, and if it is determined that the open signal is not valid, the control unit 210 may generate the transmit signal and transmit the signal to the electromagnetic switch. In other words, when the open signal is generated in the electromagnetic switch, the control unit 210 can determine whether the environmental condition of the device / facility related to the electromagnetic switch in which the open signal occurs can be opened or inserted.

For example, the control unit 210 can judge that the power is not supplied if it is not supplied. Further, if the insulation resistance value to the electric wire between the electromagnetic switch and the electric facility is less than 0.2 M OMEGA, the control unit 210 judges that there is a legitimacy, so that the electromagnetic switch can maintain the open signal. On the contrary, when the electromagnetic switch is opened, power is supplied, and the insulation resistance value to the electric wire is equal to or higher than the insulation resistance reference value, the controller 210 determines that the electromagnetic switch is not valid, .

In other words, the control unit 210 checks whether the power supplied to the electromagnetic switch matches the power supply reference value, and measures the insulation resistance value in the electric facility to check whether it is equal to or higher than the insulation resistance reference value. And if the insulation resistance value is greater than or equal to the insulation resistance reference value, it can be determined that the above-mentioned validity is not satisfied. For example, when the power source of 220 V is supplied to the electromagnetic switch and the reference value (in the case of 220 V) is supplied to the control unit 210, the insulation resistance value to the electric wire connected to the electric facility is measured as 0.3 M? ), It can be judged that there is no justification.

For reference, in the present specification, the insulation resistance reference value is described as being 0.2 M [Omega], but is not limited thereto. That is, the insulation resistance reference value can be changed by the airport maintenance personnel.

The concept of determining the legitimacy of the control unit 210 will be described with reference to FIG.

FIG. 3 is a view for explaining a validity determination process in the automatic power-on device according to an embodiment of the present invention.

The automatic power-on device 300 can check whether the power supplied from the primary power 310 matches the power reference value as the open signal OPEN is generated by the electromagnetic switch 320. Also, the automatic power-on device 300 can re-check whether the electromagnetic switch 320 is opened. When it is confirmed that the power source matches the power supply reference value and the electromagnetic switch 320 is opened, the power automatic insertion device 300 switches the insulation resistance value of the electric switch 330 from the electromagnetic switch 320 to the electric facility Can be measured. Also, the automatic power-on device 300 can check whether the measured insulation resistance value at the electric wire 330 is equal to or higher than the insulation resistance reference value. If the insulation resistance value is equal to or greater than the insulation resistance reference value, the automatic power-on device 300 determines that it is not valid, and can transmit the closing signal ON to the electromagnetic switch 320.

Referring again to FIG. 2, the control unit 210 may determine the validity of the open signal by further considering the type of the electric facility or the attribute of the power failure. For example, the control unit 210 may determine that the importance of the electric facility is reasonable based on the importance of the electric facility. Further, when the controller 210 determines that the power failure is a planned power failure (for example, a short power failure for a test), it can be determined that there is no legitimacy.

Also, if the control unit 210 judges that there is a legitimacy, the transmission of the input signal to the electromagnetic switch may be omitted. That is, if the control unit 210 judges that the electronic switch is valid, it can omit the transmission of the closing signal so that the electromagnetic switch maintains the blocking state. For example, if the insulation resistance value is 0.1 MΩ and the electrical installation has a high level of importance, the controller 210 determines that the insulation resistance value is valid and does not transmit the input signal.

At this time, if the entry instruction of the airport maintenance personnel is not canceled, the control unit 210 may receive the entry result of the electric maintenance facility or the electromagnetic switch from the airport maintenance personnel. That is, the control unit 210 can maintain an instruction to enter the airport maintenance personnel to the electric facility, if necessary, separately from the legitimacy judgment. Also, the control unit 210 may receive an entry result as to whether the airport maintenance person has directly checked the electronic switch for generating the open signal. For example, the control unit 210 can be informed of the entry result by turning off the lit LED lamp indicating the entry instruction.

In addition, after the transfer of the closing signal to the electromagnetic switch, the control unit 210 may omit transfer of the closing signal to the electromagnetic switch when the opening signal is reoccurred in the electromagnetic switch. That is, when the input signal is transmitted and the open signal is reproduced within a predetermined time, the controller 210 determines that the input signal is legitimate, so that the input signal can be omitted. For example, when the opening signal is generated again within one second in the electromagnetic switch to which the closing signal is transmitted, the control unit 210 can omit the closing signal transmission and can only forward the entry instruction of the airport maintenance personnel.

The processing unit 220 cancels the entry instruction when the time for which the power interruption is maintained is within a predetermined reference value after transferring the input signal to the electromagnetic switch. That is, as the closing signal is transmitted to the electromagnetic switch, the processing unit 220 can measure the time during which the electromagnetic switch is turned on to maintain the blackout. At this time, if the time for which the power failure is maintained is within the reference value, the processor 220 regards that the electromagnetic switch normally transmits the power to the electric facility, and can cancel the entry instruction of the airport maintenance personnel. For example, if the power failure is within 3 seconds after the transmission of the input signal, the processing unit 220 regards the power failure as canceled and can cancel the entry instruction of the airport maintenance personnel.

The counting unit 230 may count the number of times the signal is transmitted. That is, the counting unit 230 can calculate the number of transmissions in which the input signal is transmitted from the control unit 210 to the electromagnetic switch.

At this time, the control unit 210 may omit transmission of the input signal to the electromagnetic switch when the number of times of transmission of the closing signal exceeds the preset reference number. For example, when the reference number of times is set to one, the control unit 210 may omit transmission of the second input signal when the counted number of transmissions from the counting unit 230 is the second time.

When the electromagnetic switch is opened, the power automatic injector 200 can automatically shorten the power interruption time in the electric facility in the airport by automatically switching on the electromagnetic switch more quickly than when manually operating the switch.

In addition, the automatic power-on device 200 can prevent a safety accident by measuring the insulation resistance of the electric facility when the electromagnetic switch is automatically turned on.

In addition, the automatic power-on device 200 can prevent the occurrence of faults due to frequent power-on by limiting the number of turn-on signal transmissions and transmitting an instruction to enter the airport maintenance personnel.

4 is a view for explaining the operation of the automatic power-on apparatus according to an embodiment of the present invention.

When the primary power source 410 supplied to the electromagnetic switch 420 is normal, the relay may be the contact a, and when the electromagnetic switch 420 is opened, the relay may be the contact b. In such a relay state, the automatic power-on device 400 can detect an open signal.

Also, the automatic power-on device 400 can measure the insulation resistance value of the electric line 430 between the electromagnetic switch 420 and the secondary side load. If the measured insulation resistance value is equal to or higher than the insulation resistance reference value (for example, 0.2 MΩ or more), the power supply automatic insertion device 400 may generate a signal indicating that the insulation resistance value is normal. At this time, the automatic power-on device 400 may be one in which the relay b contact is normal and a signal is transmitted.

When the input signal condition for the normal power supply 410, the open switch 420, and the insulation resistance value of 0.2 M OMEGA or more is satisfied, the automatic power-on device 400 receives the primary power 410 And transmits the input signal 220V to the electromagnetic switch 420 so that the electromagnetic switch 420 can be turned on. Therefore, the automatic power-on device 400 can cause the power to be supplied again to the load. At this time, the automatic power-on device 400 can transmit a closing signal within a limited range of one second.

5 is a view for explaining an example of the configuration of a circuit included in the automatic power-on apparatus of the present invention.

5 shows an example in which a power failure or the like occurs in the electric facility, and accordingly, the electromagnetic switch PB1 is opened under the control of the MCC (motor control center) to generate an open signal.

In the automatic power-on device of the present invention, when a red light (RL) indicating an actual abnormality is turned on in the electric facility, the switch MCC-a can be closed to instruct entry of an airport maintenance person into the electric facility. At this time, the automatic power-on device may determine that the generated open signal is legitimate, close the switch MCC-a to the electromagnetic switch PB1, and maintain the open control of the electromagnetic switch PB1 by the MCC. In addition, the automatic power-on device can open the switch MCC-b of the MG (motor generator) related to the transmission of the input signal so that the input signal is not transmitted to the electromagnetic switch PB1.

On the other hand, when the green light (GL) is turned on because there is no abnormality in the electric facility, the automatic power supply device closes the switch MCC-b to instruct the maintenance personnel to enter the electric facility, T), the switch MCC-b is closed so that the closing signal for invalidating the open signal is transmitted to the electromagnetic switch PB1.

According to the embodiment, the electromagnetic switch PB1 may be constituted by an ELD (Eardh Leakage Detector) for one circuit which determines whether or not the electromagnetic switch PB1 is opened by an open / close combination of a plurality of terminals (for example, three terminals in Fig. 5) .

5, when the electromagnetic switch is opened, the power automatic switching device judges whether there is a legitimacy of the power source side, the electromagnetic switch and the load side, and if there is no justification, that is, If it is judged that there is no power, the power can be automatically turned on and the electromagnetic switch can be switched to the closed state. In addition, the power supply automatic power-on device and the power supply automatic power-off method of the present invention can cancel the entrance instruction of the airport maintenance personnel to the electric facility or the electromagnetic switch simultaneously generated by the opening of the electromagnetic switch.

6 is a flowchart illustrating a method of automatically applying power according to an exemplary embodiment of the present invention.

First, the automatic power-on method according to the present embodiment may be performed by the automatic power-on device 200 described above.

First, the automatic power-on device 200, when an open signal is generated in an electromagnetic switch interlocked with a power failure in an electric facility in an airport, instructs an airport maintenance person to enter the electric facility, And transmits an input signal to the electromagnetic switch (610). That is, the step 610 may be a process of transmitting an input signal (ON) for inputting the electromagnetic switch when the electromagnetic switch is opened according to the open signal (OFF), while informing that the maintenance of the airport maintenance is required. For example, when the electromagnetic switch in the electric facility is opened due to a momentary power failure, the automatic power-on device 200 transmits an input signal to the electromagnetic switch, and when an airport maintenance person checks the electromagnetic switch or the electric facility .

Here, the automatic power-on device 200 may transmit an entrance instruction indicating that an airport maintenance agent needs to be entered through a lamp, a speaker, and a monitor connected to the automatic power-on device 200. For example, the automatic power-on device 200 can turn off the LED lamp notifying the entry instruction and transmit the entry instruction. As another example, the automatic power-on device 200 can output an incoming instruction by outputting a warning sound through a speaker.

In addition, step 610 may be a process for judging the legitimacy of the open signal. In other words, when the open signal is generated in the electromagnetic switch, the power automatic insertion device 200 can determine whether the environmental condition of the device / facility related to the electromagnetic switch in which the open signal occurs can be opened or inserted. For example, the power automatic insertion device 200 can judge that the power is not supplied, if the power is not supplied.

At this time, the automatic power-on device 200 checks whether the power supplied to the electromagnetic switch matches the power supply reference value, and measures the insulation resistance value in the electrical installation to check whether the power supply is equal to or higher than the insulation resistance reference value. And if the insulation resistance value is equal to or greater than the insulation resistance reference value, it can be determined that the insulation resistance value is not valid. For example, the automatic power-on device 200 is supplied with 220 V power as an electromagnetic switch and corresponds to the reference value (220 V), and the insulation resistance value to the electric wire connected to the electric facility is measured as 0.3 M? 0.2 M?), It can be judged that the voltage is not valid.

For reference, in the present specification, the insulation resistance reference value is described as being 0.2 M [Omega], but is not limited thereto. That is, the insulation resistance reference value can be changed by the airport maintenance personnel.

Further, in step 610, the automatic power-on device 200 may determine the validity of the open signal by further considering the type of the electric facility or the attribute of the power failure. For example, the automatic power-on device 200 may determine that the importance of the electric facility is reasonable based on the importance of the electric facility. Further, when the automatic power-on apparatus 200 determines that the power failure is a planned power failure (for example, a short power failure for testing), it can be determined that there is no legitimacy.

If it is determined that there is no legitimacy, step 610 may be a step of generating and transmitting the input signal to the electromagnetic switch. For example, the automatic power-on device 200 may judge that the insulation resistance value to the electric wire between the electromagnetic switch and the electric facility is less than 0.2 M OMEGA, so that the electromagnetic switch can maintain the open signal. On the contrary, if the electromagnetic switch 200 is opened and power is supplied and the insulation resistance value to the electric wire is greater than or equal to the insulation resistance reference value, the automatic power switch 200 is judged to be unjustified and the electromagnetic switch may be closed The input signal can be transmitted.

In addition, if it is determined that there is a legitimacy, step 610 may be a process for omitting the transmission of the input signal to the electromagnetic switch. That is, if the automatic power-on device 200 judges that the power is on, the input signal transmission may be omitted so that the electromagnetic switch maintains the cut-off state. For example, the automatic power-on device 200 may not transmit an input signal because the device has an insulation resistance value of 0.1 MΩ and it is determined that the device has a high degree of importance.

At this time, the automatic power-on device 200 can receive the entry result of the electric maintenance facility or the electromagnetic switch from the airport maintenance person if the instruction to enter the airport maintenance person is not canceled. That is, the automatic power-on device 200 can maintain an instruction to enter the airport maintenance personnel into the electric facility, if necessary, separately from the legitimacy judgment. Also, the automatic power-on device 200 may receive an entry result as to whether the airport maintenance person directly confirmed the electromagnetic switch that generated the open signal. For example, the automatic power-on device 200 can be informed of the entry result by turning off the lit LED lamp indicating the entry instruction.

In addition, the automatic power-on device 200 cancels the entry instruction when the time for which the power failure is maintained is within a predetermined reference value after the input signal is transmitted to the electromagnetic switch (620). That is, as the closing signal is transmitted to the electronic switch, the automatic power-on device 200 can measure the time during which the electronic switch is turned on to maintain the blackout. At this time, if the time for which the power failure is maintained is within the reference value, the step 620 may be a process for canceling the entry instruction of the airport maintenance person, considering that the electronic switch normally transmits power to the electric facility. For example, when the automatic power-on device 200 receives a power-on signal and the power failure is within 3 seconds, the power-on device 200 regards the power failure as canceled and can cancel the entry instruction of the airport maintenance personnel.

According to the embodiment, after the power on signal is transmitted to the electromagnetic switch, when the open signal is generated again in the electromagnetic switch, the power supply automatic input device 200 may omit transmission of the input signal to the electromagnetic switch. In other words, the power automatic insertion device 200 can judge that the input signal is valid and the open signal is re-generated within a predetermined time, so that the input signal transmission can be omitted. For example, when the opening signal is generated again within one second in the electromagnetic switch to which the closing signal has been transmitted, the power automatic closing device 200 can omit the closing signal transmission and transmit only the entrance instruction of the airport maintenance person.

According to the embodiment, the automatic power-on device 200 may count the number of times of transmission of the input signal. That is, the automatic power-on device 200 can calculate the number of transmissions in which the closing signal is transmitted to the electromagnetic switch.

At this time, the automatic power-on device 200 may omit the transmission of the closing signal to the electromagnetic switch when the number of times of transmission of the closing signal exceeds the preset reference number. For example, when the reference number of times is set to one, the automatic power-on device 200 can omit the second input signal if the counted number of transmissions is the second time.

Such automatic power input method can shorten the power failure time in the electric facility in the airport by automatically switching on the electromagnetic switch more quickly than when manually operating the electromagnetic switch when the electromagnetic switch is opened.

In addition, the automatic power-on method can prevent a safety accident by measuring the insulation resistance of the electric facility when the electromagnetic switch is automatically turned on.

In addition, the automatic power-on method can prevent the occurrence of faults due to frequent power-on by limiting the number of turn-on signal transmissions and transmitting an instruction to the airport maintenance personnel.

The method according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

200: Automatic power supply
210:
220:
230:

Claims (16)

When an open signal is generated in the electromagnetic switch interlocked with the power failure in the electric facility in the airport,
A controller for transmitting an input signal for invalidating the open signal to the electromagnetic switch, together with an entrance instruction of an airport maintenance person to the electric facility; And
When the time for which the power interruption is maintained is within a predetermined reference value after transferring the input signal to the electromagnetic switch,
Lt; / RTI >
Wherein,
Determining the validity of the open signal,
If the power supplied to the electromagnetic switch matches the power supply reference value and the insulation resistance value measured by the electric facility is greater than or equal to the insulation resistance reference value, it is determined that there is no validity, and the generation signal is generated and transmitted to the electromagnetic switch
Automatic power input device. delete delete The method according to claim 1,
Wherein,
The type of the electric facility or the attribute of the power failure to further judge the legitimacy of the open signal
Automatic power input device. The method according to claim 1,
Wherein,
If it is judged that there is a legitimacy, the transmission of the input signal to the electromagnetic switch is omitted
Automatic power input device. The method according to claim 1,
If the entry instruction of the airport maintenance personnel is not canceled,
Wherein,
And receives an entry result of the electric facility or the electromagnetic switch from the airport maintenance person
Automatic power input device. The method according to claim 1,
Wherein,
When the open signal is re-generated in the electromagnetic switch after transferring the closing signal to the electromagnetic switch,
And the transmission of the closing signal to the electromagnetic switch is omitted
Automatic power input device. The method according to claim 1,
And a counting unit
Further comprising:
Wherein,
When the number of times of transmission of the closing signal exceeds the preset reference number, the transmission of the closing signal to the electromagnetic switch is omitted
Automatic power input device. When an open signal is generated in the electromagnetic switch interlocked with the power failure in the electric facility in the airport,
Determining a validity of the open signal;
Transmitting an input signal for invalidating the open signal to the electromagnetic switch together with an entrance instruction of an airport maintenance person to the electric facility if it is judged that there is no legitimacy; And
Canceling the entry instruction when the time for which the power interruption is maintained is within a predetermined reference value after transferring the input signal to the electromagnetic switch,
Lt; / RTI >
Wherein the step of judging the validity comprises:
Checking whether the power supplied to the electromagnetic switch matches the power supply reference value;
Measuring an insulation resistance value in the electric facility and confirming whether the insulation resistance value is equal to or higher than an insulation resistance reference value; And
Determining that there is no validity if the power source matches the power supply reference value and the insulation resistance value is greater than or equal to the insulation resistance reference value
Wherein the power supply is turned on. delete delete 10. The method of claim 9,
Wherein the step of judging the validity comprises:
Determining the legitimacy of the open signal by further considering the type of the electric facility or the attribute of the power failure;
Wherein the power supply is turned on. 10. The method of claim 9,
Wherein the step of transmitting the input signal to the electromagnetic switch comprises:
If it is judged to be valid, the step of omitting the transmission of the input signal to the electromagnetic switch
Further comprising the steps of: 10. The method of claim 9,
If the entry instruction of the airport maintenance personnel is not canceled,
Receiving an entry result of the electric facility or the electromagnetic switch from the airport maintenance person
Wherein the power supply is turned on. 10. The method of claim 9,
When the open signal is re-generated in the electromagnetic switch after transferring the closing signal to the electromagnetic switch,
A step of omitting the transmission of the input signal to the electromagnetic switch
Further comprising the steps of: 10. The method of claim 9,
Counting the number of transmissions of the input signal; And
If the number of times of transmission of the closing signal exceeds a preset reference number, omission of the transmission of the closing signal to the electromagnetic switch
Further comprising the steps of:

Images