KR20120031614A - Apparatus for connection monitoring of cable between cabinet and method thereof - Google Patents

Abstract

PURPOSE: A cable connection monitoring apparatus and method of a generating plant facility cabinet are provided to rapidly and accurately confirm a cable connection state through a check program. CONSTITUTION: A cable connection monitoring apparatus(100) comprises a controller(110), an input unit(120), a communications unit(150), a connection state monitoring unit(170), and a storing unit(180). The storing unit stores cable connection information about an interface cabinet, a marshalling cabinet, and a control cabinet which is inputted in the input unit. The controller checks an error of the cable connection information between cabinets by simulating operation of the interface cabinet, the marshalling cabinet, and the control cabinet. The controller gives a start signal to the interface cabinet in case the cable connection information has no error. The communications unit respectively communicates with the interface cabinet, the marshalling cabinet, and the control cabinet. The connection state monitoring unit monitors cable connection state between the cabinets based on pin information inputted from the marshalling cabinet and the control cabinet.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a monitoring apparatus for cable connection between a plant cabinet and a cabinet,

The present invention relates to an apparatus and a method for monitoring cable connection between power plant equipment cabinets and, more particularly, to a power plant facility for checking the connection state of cables connecting cabinets, such as when constructing or modifying a control facility for controlling a power plant To a cabinet-to-cabinet cable connection monitoring apparatus and method thereof.

Various signaling signals for on-site facilities to control power plants range from thousands to tens of thousands depending on the size of the power plant. The signals of these on-site facilities are connected via cable to the interface cabinets, marshaling cabinets and control cabinets of the electronics room of the power plant.

Until now, connection errors have inevitably arisen as a result of the operators placing all the cables directly in the cabinet and manually connecting the cables one by one.

Therefore, even though a lot of manpower and time are put in the process of installing and connecting cables in each cabinet and checking the connection state thereafter, a cable error occurs in the commissioning process in the future, thereby generating power generation loss due to air delay.

It is an object of the present invention to provide a monitoring program for checking the cable connection between cabinets and to automatically provide an electric signal to each pin of the interface cabinet terminal by radio to provide a marshalling cabinet to which the cable is connected and a control cabinet The present invention provides a cable connection monitoring apparatus and method in a power plant cabinet that allows a pin to recognize a cable connection state between cabinets accurately and quickly through a check program by wirelessly receiving the result from the monitoring device.

Another object of the present invention is to shorten manpower input and construction time, to prevent expensive control card damage due to cable connection error and to prevent a trial run delay, thereby shortening the entire process time and increasing the power generation profit And to provide a cable connection monitoring apparatus and method therefor.

It is another object of the present invention to provide a system and a method for checking cable connection information between cabinets in advance before starting construction so as to check errors in advance and automatically check the cable connection status between cabinets according to input cable connection information And to provide a cable connection monitoring apparatus and method therefor.

According to an aspect of the present invention, there is provided an apparatus for monitoring cable connection between a power plant and a cabinet, the apparatus comprising: an interface cabinet, a marshaling cabinet, and a control cabinet; A control unit for controlling the interface cabinet, the marshalling cabinet, and the control cabinet, wherein the monitoring unit includes: a storage unit for storing cable connection information for each of the interface cabinet, the marshaling cabinet, and the control cabinet input to the input unit; A controller for simulating the operation of the cabinets to check whether there is an error in the cable connection information between the cabinets and to issue a start signal to the interface cabinets if there is no error in the cable connection information between the cabinets; A communication unit that communicates with the cabinet, and a controller that monitors a cable connection state between the cabinets based on pin information input from the marshalling cabinet and the control cabinet after a start signal is issued from the controller to the interface cabinet And a connection state monitoring unit.

The cable connection information between the respective cabinets is cable connection information corresponding to each of the plurality of input / output pins provided for the interface cabinet, the marshaling cabinet, and the control cabinet.

The control unit notifies the simulation result to the manager and corrects the error information if it is confirmed that the cable connection information between the respective cabinets is erroneous as a result of the simulation.

And a communication state verifying unit for checking and verifying the communication state with the interface cabinet, the marshaling cabinet, and the control cabinet.

And the control unit issues the start signal to the interface cabinet when the communication state verifying unit confirms that the communication state of each of the cabinets is good.

The control unit transmits cable connection information between the interface cabinet and the marshalling cabinet to the marshalling cabinet and cable connection information between the marshalling cabinet and the control cabinet to the control cabinet before issuing the start signal .

The start signal includes output pin information of any one of the output pins of the interface cabinet to be checked for a cable connection state.

The control unit issues a start signal for an output pin of the next sequence to the interface cabinet when the cable connection status check of any one of the output pins of the interface cabinet is completed.

Wherein the connection status monitoring unit compares the input pin information when the signal output from the corresponding output pin of the interface cabinet is input to the marshalling cabinet to the cable connection information between the respective cabinets when the start signal is issued to the interface cabinet, And the erroneous wiring state of the corresponding pin is confirmed.

Wherein the connection state monitoring unit monitors the connection state of the signal output from the corresponding output pin of the interface cabinet to the control cabinet while outputting the signal input to the input pin of the marshalling cabinet to the corresponding output pin, The input pin information to which the signal is input is compared with the cable connection information between the respective cabinets to check the misconnection state of the corresponding pin.

According to another aspect of the present invention, there is provided a method of monitoring cable connection between power plant equipment cabinets, comprising the steps of: interfacing power cabinets, a marshalling cabinet, and a control cabinet, A method of monitoring a cable connection, the method comprising: storing cable connection information for each of the interface cabinet, the marshaling cabinet, and the control cabinet; simulating operations between the interface cabinet, the marshalling cabinet, and the control cabinet from the cable connection information; A step of checking whether there is an error in the cable connection information between the respective cabinets; if there is no error in the cable connection information between the respective cabinets, issuing a start signal to the interface cabinet; In, characterized in that on the basis of the marshalling cabinets and pin information that is input from the control cabinet, including the step of monitoring a cable connection between each of the cabinets.

The cable connection information between the respective cabinets is cable connection information corresponding to each of the plurality of input / output pins provided for the interface cabinet, the marshaling cabinet, and the control cabinet.

And the checking step includes the step of notifying the manager of the simulation result and correcting the error information if it is confirmed that the cable connection information between the cabinets is erroneous as a result of the simulation.

And checking and verifying the state of communication with the interface cabinet, the marshaling cabinet, and the control cabinet.

And when the communication state verification unit confirms that the communication state of each of the cabinets is good, the step of issuing the start signal is to issue the start signal to the interface cabinet.

And transmitting the cable connection information between the interface cabinet and the marshaling cabinet to the marshalling cabinet and the cable connection information between the marshalling cabinet and the control cabinet to the control cabinet, respectively, prior to issuing the start signal .

The start signal includes output pin information of any one of the output pins of the interface cabinet to be checked for a cable connection state.

When the checking of the cable connection state to any of the output pins of the interface cabinet is completed, a start signal for the next output pin is issued to the interface cabinet .

The monitoring of the cable connection status may include input pin information when a signal output from a corresponding output pin of the interface cabinet is input to the marshalling cabinet when a start signal is issued to the interface cabinet, And confirming the misconnection state of the corresponding pin.

Wherein the step of monitoring the cable connection state comprises the steps of: when a signal output from a corresponding output pin of the interface cabinet is input to the marshalling cabinet, a signal input to the input pin of the marshalling cabinet is output to a corresponding output pin Comparing the input pin information for inputting a signal to the control cabinet with the cable connection information between the respective cabinets, and checking the misconnection state of the corresponding pin.

According to the present invention, a monitoring program for checking the cable connection state between the respective cabinets is mounted on the monitoring apparatus, and an electric signal is automatically given to each pin of the interface cabinet terminal by wirelessly connecting it to the marshalling cabinet to which the cable is connected, And the result is received by the monitoring device again by radio, there is an advantage that the state of the cable connection between the cabinets can be accurately and quickly confirmed through the check program.

Further, the present invention has the advantage of shortening the time required for input of manpower, shortening the construction period, preventing the expensive control card damage due to the cable connection error, and delaying the commissioning, thereby shortening the entire process time and increasing the power generation profit.

The present invention is also advantageous in that cable connection information between respective cabinets is input to the computer in advance before construction starts to check errors in advance and the cable connection status between the cabinets can be automatically checked according to the inputted cable connection information have.

1 is a diagram illustrating a system configuration to which a cable connection monitoring apparatus for a plant facility cabinet according to the present invention is applied.
2 is a block diagram for explaining a configuration of a cable connection monitoring apparatus for a plant facility cabinet according to the present invention.
3 is a view showing a configuration of a check means connected to an interface cabinet;
4 is a view showing a configuration of a check means connected to a marshaling cabinet.
5 is a view showing the configuration of a check means connected to a control cabinet.
6 and 7 are flowcharts illustrating an operation flow of a cable connection monitoring method between a plant facility cabinet according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a system configuration to which a cable connection monitoring apparatus for a plant facility cabinet according to the present invention is applied.

1, an interface cabinet 10 connected to the field facility, a marshalling cabinet 20 receiving signals from the interface cabinet 10, and a marshalling cabinet 10 for receiving signals from the interface cabinet 10, And a control cabinet 30 for receiving a signal from the controller 20. The control cabinet 30 is connected externally with a driving operation interface 2 for an administrator to confirm various signals and control states and to input necessary commands accordingly.

Here, the field facility 1 transmits control signals such as pressure, temperature, speed, flow rate, etc. from the field to the interface cabinet 10. The interface cabinet 10 collects all control signals from the field facility 1. The marshaling cabinet (20) reconfigures the various signals collected in the interface cabinet (10) for a control purpose. In the control cabinet 30, a control card in which a control program is installed is installed for each site facility, and a cable of the marshaling cabinet 20 is installed in the control cabinet 30 and connected to each card.

The control card installed in the control cabinet 30 is used to control the steam pressure, temperature, air amount, fuel amount, water supply amount, turbine speed, etc. suitable for the power generation output in accordance with the command inputted by the power generation operator And the operation result is transmitted to the field facility through the control cabinet 30 to control the facility.

A cable connection monitoring apparatus (hereinafter referred to as a monitoring apparatus) 100 between power plant cabinets communicates with an interface cabinet 10, a marshaling cabinet 20, and a control cabinet 30 in an electronic equipment room, respectively. And transmits and receives signals. Therefore, the monitoring apparatus 100 monitors the connection state of the cables between the respective cabinets based on signals received from the interface cabinets 10, the marshaling cabinets 20, and the control cabinets 30.

The detailed structure of the monitoring apparatus 100 and the respective cabinets refer to the embodiments of Figs. 2 to 5.

2 is a block diagram for explaining a configuration of a monitoring apparatus according to the present invention. 2, the monitoring apparatus 100 according to the present invention includes a controller 110, an input unit 120, a display unit 130, an alarm unit 140, a communication unit 150, a communication state verification unit 160 A connection state monitoring unit 170, and a storage unit 180.

The control unit 110 controls each sub-operation.

The input unit 120 is a means for receiving a control command from an administrator. The input unit 120 receives connection information of cables between the cabinets from an administrator. The connection information of the inter-cabinet cable input by the input unit 120 is stored in the storage unit 180. At this time, the connection information of the cable between the cabinets is cable connection information corresponding to each of the plurality of input / output pins provided for each cabinet.

Here, the control unit 110 may simulate the operation between cables in advance based on the connection information of the cable between the cabinets input through the input unit 120, and check whether there is an error as a result of the simulation. At this time, if there is an abnormality in the connection information of the cable between the cabinets inputted as a result of the simulation, the controller 110 notifies the administrator of the simulation result so that the error information can be corrected.

The display unit 130 is a means for indicating an operation screen of the monitoring apparatus 100 and displays the verification result of the communication state verification unit 160 and the monitoring result of the connection state monitoring unit 170. [

The alarm unit 140 outputs an alarm signal to notify the administrator if the communication state of the verification result of the communication state verification unit 160 is defective or if it is determined that the monitoring result cable of the connection state monitoring unit 170 is erroneously wired do.

The communication unit 150 is wirelessly connected to the interface cabinet 10, the marshaling cabinet 20, and the control cabinet 30 to transmit and receive signals. In particular, the communication unit 150 transmits a control signal to the interface cabinet 10, and receives a result signal corresponding to the control signal from the marshalling cabinet 20 and the control cabinet 30.

The communication state verifying unit 160 transmits and receives radio signals to and from the interface cabinet 10, the marshaling cabinet 20, and the control cabinet 30, respectively, and checks and verifies the communication state of each cabinet.

If the communication state verification unit 160 determines that the communication state of each cabinet is good, the control unit 110 transmits cable connection information corresponding to each cabinet to each cabinet.

Then, when a response signal is received from each cabinet, the control unit 110 transmits a start signal for confirming the connection state of the cable to the interface cabinet 10. At this time, the control unit 110 may call the inter-cabinet pin information for monitoring the connection state from the cable connection information between the respective cabinets, and may transmit a start signal corresponding to the corresponding pin. At this time, the start signal includes output pin information of any one of the output pins of the interface cabinet 10 to be checked for a cable connection state.

The connection state monitoring unit 170 monitors the signal output from the output pins PIN # 1, PIN # 2, ..., PIN # N of the interface cabinet 10 after the start signal is transmitted to the interface cabinet 10 The pin information input to the marshalling cabinet 20 and the pin information input to the cable by the signal output from the output pin of the marshalling cabinet 20 are monitored.

At this time, the connection status monitoring unit 170 monitors whether input / output of signals is performed according to cable connection information between cabinets initially input.

For example, if the cable connection information between the interface cabinet 10, the marshaling cabinet 20, and the control cabinet 30 is PIN # 1> PIN # 4: PIN # 4> PIN # 2, The control unit 170 checks whether the signal output through the PIN # 1 of the interface cabinet 10 is input through the PIN # 4 of the marshalling cabinet 20 and outputs the signal through the PIN # 4 of the marshalling cabinet 20 And confirms whether or not the signal transmitted through the PIN # 2 of the control cabinet 30 is outputted.

If a signal is detected at the input pin of the marshalling cabinet 20 corresponding to the output pin of the interface cabinet 10, the connected pin information is stored in the storage unit 180. Further, when a signal is detected at the input pin of the control cabinet 30 corresponding to the output pin of the marshaling cabinet 20, the connected pin information is stored in the storage unit 180.

The connection status monitoring unit 170 monitors the connection pins of the input pins of the marshalling cabinet 20 corresponding to the output pins of the interface cabinet 10 and the input pins of the control cabinet 30 corresponding to the output pins of the marshalling cabinet 20. [ It is determined that the signal is not correctly connected and the miswiring information is stored in the storage unit 180. [

At this time, the connection status monitoring unit 170 monitors the connection status of all pins provided in each cabinet in this manner. Of course, it is preferable to check downwardly from the upper output pin of the interface cabinet 10 for convenience of inspection, but it is not limited thereto.

The storage unit 180 stores connection information of cables between the cabinets. Here, the connection information of the cable between the cabinets may include a cabinet number, a column number, a pin number, and the like. In addition, the storage unit 180 stores pin connection information and mis-wiring information received from the marshalling cabinet 20 and the control cabinet 30. [

3 is a diagram showing the configuration of a check means connected to an interface cabinet;

3, the check unit 11 connected to the interface cabinet 10 is connected to the communication unit 150 of the monitoring apparatus 100 by the first communication unit 15. Although not shown in the figure, when the first communication unit 15 and the communication unit 150 of the monitoring apparatus 100 are communicatively connected, the LED installed outside the interface cabinet 10 may be turned on.

When the start signal from the monitoring apparatus 100 is received through the first communication unit 15, the first control unit 13 outputs a signal to the photocoupler corresponding to the first terminal pin.

At this time, as the signal is outputted by the photocoupler, a power of 24V is applied to the first terminal pin. Here, by using the photocoupler, it is possible to prevent the power from flowing from the outside and damaging the device when the cable is miswired.

The power applied to the first terminal pin is outputted to the first output pin PIN # 1 of the interface cabinet 10 and the power is supplied to the corresponding marshaling cabinet 20 through the cable connected to the first output pin PIN # To be applied to the input pin.

At this time, the second communication unit 25 can transmit the signal output information to the monitoring apparatus 100 when the signal is output to the input pin of the marshalling cabinet 20 corresponding to the first output pin PIN # 1.

Thereafter, when a start signal is received from the monitoring device 100 through the first communication unit 15, the first control unit 13 outputs a signal to the photocoupler corresponding to the next terminal pin pin in the order of the terminal pin pin So that a 24 V power supply is applied to the next terminal pin pin.

Similarly, the power applied to the next terminal pin is output to the second output pin (PIN # 2) of the interface cabinet 10, and through the cable connected to the second output pin PIN # 2, the corresponding marshaling cabinet 20 As shown in FIG.

In this manner, whenever a start signal is received from the monitoring device 100 through the first communication unit 15, the first control unit 13 supplies power of 24 V to the interface cabinet 10 To the corresponding marshaling cabinet 20 through the output pins of the corresponding marshalling cabinets 20.

3 may be integrated into the interface cabinet 10 and may be implemented separately from the interface cabinet 10 according to the embodiment so that the interface cabinet 10 may be connected to the interface cabinet 10. [ (Not shown).

4 is a diagram showing the configuration of a check means connected to a marshaling cabinet.

4, the check unit 21 connected to the marshaling cabinet 20 is connected to the communication unit 150 of the monitoring apparatus 100 by the second communication unit 25. Although not shown in the drawing, when the second communication unit 25 is communicatively connected to the communication unit 150 of the monitoring apparatus 100, the LED installed outside the marshaling cabinet 20 may be turned on.

When the standby signal is received from the monitoring device 100 through the second communication unit 25, the second control unit 23 waits until the power is supplied through the input pin of the marshalling cabinet 20.

The marshaling cabinet 20 is connected to the marshalling cabinet 20 corresponding to the first output pin PIN # 1 when a signal is output through the first output pin PIN # 1 of the interface cabinet 10 as shown in FIG. Lt; / RTI >

At this time, when a signal is applied to any one of the input pins of the marshaling cabinet 20, the photocoupler connected to the input pin operates, and the 24V power is applied to the second control unit 23.

Accordingly, the second control unit 23 transmits the information of the corresponding input pin to which the power is applied, to the monitoring device 100 through the second communication unit 25. [

If power is not applied to the input pin of the marshalling cabinet 20 so that a predetermined time elapses after the wait signal is received through the second communication unit 25, the error information may be transmitted to the monitoring apparatus 100.

The second communication unit 25 receives the cable connection information from the monitoring apparatus 100 in advance between the interface cabinet 10 and the marshaling cabinet 20 and outputs a signal The output pin information of the interface cabinet 10 to be output.

The second control unit 23 controls the second control unit 23 based on the cable connection information between the interface cabinet 10 and the marshaling cabinet 20 so that the input pin of the marshalling cabinet 20, It is possible to confirm whether or not it corresponds to the output pin of the cabinet 10 and transmit the result to the monitoring apparatus 100. [

For example, when the input pin of the marshalling cabinet 20 to which the signal is applied corresponds to the output pin of the interface cabinet 10 received from the monitoring apparatus 100, the second controller 23 transmits the pin information of the cable connection completed And transmits it to the monitoring apparatus 100. The second control unit 23 receives the signal from the monitoring device 100 if the input pin of the marshalling cabinet 20 to which the signal is applied does not correspond to the output pin of the interface cabinet 10 received from the monitoring device 100 To the monitoring apparatus 100, the miswiring information for the output pin of the interface cabinet 10,

Although not shown in the drawing, the second control unit 23 may turn on an LED installed outside the marshalling cabinet 20 upon completion of cable connection or detection of miswiring.

A signal applied to the input pin of the marshalling cabinet 20 is output to the control cabinet 30 through the output pin of the marshalling cabinet 20. At this time, through the cable connected to the corresponding output pin of the marshalling cabinet 20, it is outputted to the input pin of the corresponding control cabinet 30.

The second control unit 23 outputs a signal to the input pin of the control cabinet 30 in the same manner as the first control unit 13 and then receives a wait signal from the monitoring device 100 via the second communication unit 25 . Then, the second controller 23 confirms whether power is applied through the input pin of the marshalling cabinet 20 when the standby signal is received through the second communication unit 25. If power is supplied through the other input pin of the marshalling cabinet 20, the second controller 23 transmits the input pin information, which is supplied via the second communication unit 25, to the monitor 100 ). Of course, the signal applied to the input pin of the marshalling cabinet 20 is output to the control cabinet 30 through the output pin of the marshalling cabinet 20.

4 may be integrated into the marshalling cabinet 20 and may be implemented separately from the marshalling cabinet 20 according to an embodiment of the present invention, (Not shown).

5 is a diagram showing a configuration of a check means connected to a control cabinet.

5, the check unit 31 connected to the control cabinet 30 is connected to the communication unit 150 of the monitoring apparatus 100 by the third communication unit 35. [ Although not shown in the drawing, when the third communication unit 35 is communicatively connected to the communication unit 150 of the monitoring apparatus 100, an LED installed outside the control cabinet 30 may be turned on.

When the standby signal is received from the monitoring device 100 through the third communication unit 35, the third control unit 33 waits until power is applied through the input pin of the control cabinet 30. [

When a signal is output through the output pin of the marshaling cabinet 20 as shown in FIG. 4, the control cabinet 30 receives a signal from the input pin of the cable corresponding to the output pin.

At this time, when a signal is applied to any one of the input pins of the control cabinet 30, the photocoupler connected to the input pin operates, and the power of 24V is applied to the third control unit 33.

Accordingly, the third control unit 33 transmits the information of the corresponding input pin to which the power is applied, to the monitoring device 100 through the third communication unit 35.

If power is not applied to the input pin of the control cabinet 30 so that a predetermined time elapses after the waiting signal is received through the third communication unit 35, the error information may be transmitted to the monitoring apparatus 100.

The third communication unit 35 may receive the cable connection information from the monitoring apparatus 100 in advance between the marshalling cabinet 20 and the control cabinet 30, The output pin information of the marshalling cabinet 20 to be output.

In this case, the third control unit 33 controls the third control unit 33 based on the cable connection information between the marshalling cabinet 20 and the control cabinet 30 so that the input pin of the control cabinet 30, to which the signal is applied, It is possible to confirm whether or not it corresponds to the output pin of the cabinet 20 and transmit the result to the monitoring apparatus 100. [

For example, when the input pin of the control cabinet 30 to which the signal is applied corresponds to the output pin of the marshalling cabinet 20 received from the monitoring apparatus 100, the third control unit 33 transmits the pin information And transmits it to the monitoring apparatus 100. On the other hand, if the input pin of the control cabinet 30 to which the signal is applied does not correspond to the output pin of the marshalling cabinet 20 received from the monitoring apparatus 100, the third controller 33 receives from the monitoring apparatus 100 To the monitoring apparatus 100, miswiring information on the output pin of the marshalling cabinet 20.

Although not shown in the drawing, the third control unit 33 may turn on an LED installed outside the control cabinet 30 upon completion of cable connection or in the case of a false connection detection.

The third controller 33 outputs a signal to the input pin of the control cabinet 30 and then waits until the standby signal is received from the monitoring apparatus 100 via the third communication unit 35. [ Then, the third controller 33 confirms whether power is applied through the input pin of the control cabinet 30 when the standby signal is received through the third communication unit 35. [

If power is supplied through the other input pin of the control cabinet 30, the third control unit 33 transmits the input pin information, which is supplied with power through the third communication unit 35, to the monitor 100 ).

5 may be integrated into the control cabinet 30 and may be implemented separately from the control cabinet 30 according to an embodiment so that the control cabinet 30 may be connected to the control cabinet 30 through a connector, (Not shown).

6 and 7 are flowcharts illustrating an operation flow of a cable connection monitoring method between a plant facility cabinet according to the present invention.

As shown in FIG. 6, when cable connection information between the cabinets is input to the monitoring apparatus 100 (S100), the monitoring apparatus 100 confirms the communication state between the cabinets (S120). At this time, the communication state verifying unit 160 verifies the communication state of each cabinet.

If the communication state with each cabinet is good, the monitoring apparatus 100 transmits the cable connection information to each cabinet (S130). At this time, if a response signal is not received from each cabinet until a predetermined time elapses (S140), the processes of S120 and S130 are performed again.

When a response signal is received from each cabinet (S140), the monitoring apparatus 100 transmits a start signal for checking the connection state of the output pin, that is, the PIN #N, to the interface cabinet 10 (S150).

When the power is supplied to the PIN #N of the interface cabinet 10, the mails of the mating cabinet 20 and the corresponding pin of the control cabinet 30 corresponding to the PIN #N of the interface cabinet 10 among the respective cabinet- Is applied (S160).

Here, N is initially set to '1' (S110). Accordingly, when power is supplied to the PIN # 1 of the interface cabinet 10, the connection status monitoring unit 170 monitors the marshalling cabinet 20 corresponding to the PIN # 1 of the interface cabinet 10 among the cabinet connection information It is confirmed whether power is applied to the corresponding pin of the control cabinet 30. [

If power is applied to the corresponding pins of the marshalling cabinet 20 and the control cabinet 30 corresponding to the PIN # 1 (S170), the pin information of the inter-cabinet connection to the PIN # 1 is stored (S180) , Monitors the connection to the next pin.

On the other hand, if power is not applied to the corresponding pins of the marshalling cabinet 20 and the control cabinet 30 corresponding to the PIN # 1 (S170), the process goes to step 'A' in FIG.

At this time, when the monitoring apparatus 100 is powered by the PIN # 1 of the interface cabinet 10, the monitor apparatus 100 controls the marshalling cabinet 20 and the control cabinet 30, not the pins corresponding to the PIN # 1 of the interface cabinet 10, (S210). Then, it is checked whether the power is applied to another pin of the PIN # 1 (S230), and the cable miswiring information for the PIN # 1 is stored (S240).

Then, the monitoring apparatus 100 enters the process after 'B' in FIG. 6 again to check the cable connection state to the next pin.

At this time, the monitoring apparatus 100 increments N by 1 every time it monitors the connection state of the next pin (S200).

Therefore, the monitoring apparatus 100 transmits a start signal for the PIN # 2 to the interface cabinet 10 (S150). When power is applied to the PIN # 2, the monitoring apparatus 100 transmits the start signal to the interface cabinet 10 It is checked whether power is applied to the corresponding pin of the control cabinet 30 and the marshalling cabinet 20 corresponding to PIN # 2 (S160).

If power is applied to the corresponding pins of the marshalling cabinet 20 and the control cabinet 30 corresponding to the PIN # 2 (S170), the PIN # 2 information of the cable connection between the cabinets is stored (S180) To monitor the connection status.

Then, the monitoring apparatus 100 repeats 'S150' to 'S240' until connection monitoring work for all pins of the interface cabinet 10 is completed.

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, Can be applied within the range.

10: interface cabinet 13: first control section
15: first communication unit 20: marshaling cabinet
23: second control unit 25: second communication unit
30: control cabinet 33: third control section
35: third communication unit 100: monitoring device
110: control unit 120: input unit
130: Display unit 140: Alarm unit
150: communication unit 160: communication state verification unit
170: connection state monitoring unit 180: storage unit

Claims (20)

A cabinet-to-cabinet cable monitoring system that monitors the cable connections between each cabinet connected in the order of an interface cabinet, a marshaling cabinet, and a control cabinet in a plant,
A storage unit for storing cable connection information for each of the interface cabinet, the marshaling cabinet, and the control cabinet input to the input unit;
The cabinets, and the control cabinets are simulated based on the cable connection information to check whether there is an error in the cable connection information between the cabinets, and if there is no error in the cable connection information between the cabinets, A control unit for issuing a start signal;
A communication unit communicating with the interface cabinet, the marshaling cabinet, and the control cabinet, respectively; And
And a connection state monitoring unit monitoring the cable connection state between the cabinets based on the pin information input from the control cabinet and the marshalling cabinet after the start signal is issued from the control unit to the interface cabinet Cable connection monitoring between plant cabinets. The method according to claim 1,
The cable connection information between the respective cabinets may include,
Wherein the cable connection information is cable connection information corresponding to each of a plurality of input / output pins provided for the interface cabinet, the marshaling cabinet, and the control cabinet. The method according to claim 1,
Wherein,
Wherein the simulation result is notified to the manager to correct the error information if it is determined that the cable connection information between the cabinets is erroneous as a result of the simulation. The method according to claim 1,
Further comprising a communication state verifying unit for checking and verifying a communication state between the interface cabinet, the marshaling cabinet, and the control cabinet. The method of claim 4,
Wherein,
And when the communication state verifying unit confirms that the communication state of each of the cabinets is good, transmits the start signal to the interface cabinet. The method according to claim 1,
Wherein,
And transmits cable connection information between the interface cabinet and the marshalling cabinets to the marshalling cabinet and cable connection information between the marshalling cabinet and the control cabinets to the control cabinet before issuing the start signal. Cable connection monitoring between equipment cabinets. The method according to claim 1,
Wherein the start signal comprises:
And the output pin information of any one of the output pins of the interface cabinet to be checked for cable connection status. The method according to claim 1,
Wherein,
Wherein the control unit issues a start signal for an output pin of the next sequence to the interface cabinet when the checking of the cable connection status to one of the output pins of the interface cabinet is completed, . The method according to claim 1,
The connection state monitoring unit,
Comparing the input pin information when the signal output from the corresponding output pin of the interface cabinet is input to the marshalling cabinet, when the start signal is issued to the interface cabinet, with the cable connection information between the respective cabinets, Wherein the power supply unit cabinet-to-cabinet-connection monitoring unit comprises: The method according to claim 1,
The connection state monitoring unit,
A signal input from the output pin of the interface cabinet is input to the marshalling cabinet, a signal input to the input pin of the marshalling cabinet is output to a corresponding output pin, Information between the cabinets is compared with the cable connection information between the respective cabinets, and the misconnected state of the corresponding pin is checked. A method of monitoring cable connections between plant cabinets that monitors cable connections between power cabinets, marshalling cabinets, and control cabinets,
Storing cable connection information for the interface cabinet, the marshaling cabinet, and the control cabinet, respectively;
Simulating an operation between the interface cabinet, the marshaling cabinet, and the control cabinet from the cable connection information to check whether there is an error in cable connection information between the cabinets;
Issuing a start signal to the interface cabinet if there is no error in the cable connection information between the respective cabinets; And
And monitoring the cable connection state between the cabinets based on pin information input from the marshalling cabinet and the control cabinet after issuing a start signal to the interface cabinet Cable connection monitoring method. The method of claim 11,
The cable connection information between the respective cabinets may include,
Wherein the cable connection information is cable connection information corresponding to each of a plurality of input / output pins provided for the interface cabinet, the marshaling cabinet, and the control cabinet. The method of claim 11,
Wherein the inspecting comprises:
And if it is determined that there is an error in the cable connection information between the respective cabinets as a result of the simulation, notifying the simulation result to the manager and correcting the error information. The method of claim 11,
Further comprising: checking and verifying a communication state with the interface cabinet, the marshalling cabinet, and the control cabinet. 15. The method of claim 14,
The step of issuing the start signal comprises:
And if the communication state verifying unit confirms that the communication state of each of the cabinets is good, transmits the start signal to the interface cabinet. The method of claim 11,
Before the step of issuing the start signal,
And transmitting cable connection information between the interface cabinet and the marshalling cabinets to the marshalling cabinet and cable connection information between the marshalling cabinet and the control cabinets to the control cabinet, Cable connection monitoring method. The method of claim 11,
Wherein the start signal comprises:
And output pin information of any one of output pins of the interface cabinet to be checked for a cable connection state. The method of claim 11,
When the checking of the cable connection state to any of the output pins of the interface cabinet is completed, a start signal for the next output pin is issued to the interface cabinet To monitor cable connections between plant cabinets. The method of claim 11,
Wherein the monitoring of the cable connection state comprises:
Comparing the input pin information when the signal output from the corresponding output pin of the interface cabinet is input to the marshalling cabinet, when the start signal is issued to the interface cabinet, with the cable connection information between the respective cabinets, And checking the cable connection between the power plant equipment cabinets. The method of claim 11,
Wherein the monitoring of the cable connection state comprises:
A signal input from the output pin of the interface cabinet is input to the marshalling cabinet, a signal input to the input pin of the marshalling cabinet is output to a corresponding output pin, Comparing the information with the cable connection information between the respective cabinets, and checking a misplaced state of the corresponding pin.

Images