KR20160074908A - Internal wiring monitoring cabinet, monitoring system and cabinet internal wiring monitoring method - Google Patents

Abstract

The present specification relates to an internal wiring monitoring cabinet, a monitoring system, and a cabinet internal wiring monitoring method. The internal wiring monitoring cabinet according to one embodiment of the present specification comprises: a cabinet which is an accommodating space provided between an engine control system and an external device, and has one or more modules comprising an interface system between the engine control system and the external device; and a monitoring system which displays an electronic map showing one or more modules accommodated in the cabinet and a connection line between the modules on a screen, and when one module is selected on the electronic map, outputs a control signal to light a lamp indicating locations of the selected module and surrounding modules which are directly connected to the selected module as a corresponding lamp on the cabinet. According to one embodiment of the present specification, the internal wiring monitoring cabinet provides an environment where workers easily work when they assemble internal modules and check wiring, and do maintenance, thereby improving a work efficiency of workers and effectively reducing the working time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cabinet, a monitoring system,

At least some embodiments of the present disclosure relate to an internal wiring monitoring cabinet, a monitoring system, and a cabinet wiring monitoring method.

Cabinets of electronic engine control systems commonly used for marine / terrestrial power generation include one or more modules that form an interface system between an engine control system and an external device.

The cabinet transmits an engine control signal input from the engine control system to an external device (for example, a power management system (PMS) and an alarm management system (AMS)) through one or more built-in modules And transmits a signal (for example, a power control signal, an engine control signal, an alarm / shutdown signal, etc.) input from an external device to the engine control system through one or more built-in modules. In addition, the cabinet can perform the function of driving and controlling the electronic governor.

In order to smoothly perform such functions, it is necessary to check the assembling / wiring of the built-in modules of the cabinet and maintenance, and paper drawing is generally used for this purpose.

However, when using paper drawings when assembling / wiring the internal modules of cabinets and maintenance, the operator must manually check the connection lines between the modules and the modules by searching the built-in modules of the cabinet based on the paper drawings, Accordingly, there is a problem that it takes much time to check assembly and wiring and maintenance.

One embodiment of the present invention provides an environment in which a worker can easily work during assembly / wiring confirmation and maintenance of built-in modules of a cabinet, and thus an internal connection capable of increasing the work efficiency of a worker and effectively reducing work time Monitoring cabinets, monitoring systems, and cabinet internal wiring monitoring methods.

An internal wiring monitoring cabinet according to an embodiment of the present invention is a cabinet provided between an engine control system and an external device and incorporating one or more modules constituting an interface system between the engine control system and an external device. And one or more modules embedded in the cabinet and an electronic drawing showing a connection line therebetween, and when one module is selected on the electronic drawing, a position of the selected module on the cabinet and the peripheral modules directly connected thereto And a monitoring system for outputting a control signal for turning on an indicator lamp for indicating to the corresponding indicator on the cabinet.

A cabinet internal wiring monitoring method according to an embodiment of the present invention is a cabinet internal wiring monitoring method for maintenance of a cabinet containing one or more modules constituting an interface system between an engine control system and an external device, Outputting an electronic drawing representing the inter-connection lines to a screen; And outputting, when a module is selected on the electronic drawing, a control signal for turning on an indicator lamp indicating the position of the selected module and the peripheral modules directly connected to the selected module on the cabinet to a corresponding indicator on the cabinet have.

The monitoring system according to an embodiment of the present disclosure may include at least one module built in the cabinet and at least one module connected to the cabinet for maintenance of a cabinet containing one or more modules constituting an interface system between an engine control system and an external device, A display unit for outputting an electronic drawing representing a line to a screen; And a display lighting unit for outputting a control signal for lighting an indicator lamp for indicating a position of the selected module directly connected to the selected module on the cabinet to the corresponding indicator on the cabinet when one module is selected on the electronic drawing .

According to one embodiment of the present invention, it is possible to provide an environment in which an operator can easily work during assembly / wiring confirmation and maintenance of built-in modules of a cabinet, and accordingly, A wiring monitoring cabinet, a monitoring system, and a wiring monitoring method in a cabinet.

In particular, when assembling / wiring of cabinet built-in modules is confirmed and maintained, the electronic drawings are displayed on the screen through the monitoring system, the cabinet built-in modules are equipped with indicators to show the positions of the modules and the connection lines between the modules, The diagnosis of connection line breakage is displayed through the wiring failure detector and the diagnosis result is displayed on the screen. Thus, it is possible to provide an environment in which the operator can easily work during assembly / wiring confirmation and maintenance of the built-in modules of the cabinet.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an internal wiring monitoring cabinet according to an embodiment of the present invention;
2 is a device configuration diagram of an internal wiring failure detector of a cabinet constituting an internal wiring monitoring cabinet according to an embodiment of the present invention.
3 is a flow diagram of a method for monitoring intra-cabinet wiring of a monitoring system constituting an internal wiring monitoring cabinet according to an embodiment of the present disclosure.
4 is an illustration of a method for lighting a corresponding indicator on a cabinet when a module is selected on an electronic drawing in an internal wiring monitoring cabinet according to an embodiment of the present disclosure;
5 is an illustration of a method for lighting a corresponding indicator light on a cabinet when a connection line is selected on an electronic drawing in an internal wiring monitoring cabinet according to an embodiment of the present disclosure;
6 is a flowchart of a method of diagnosing a wiring condition of a cabinet internal wiring fault detector constituting an internal wiring monitoring cabinet according to an embodiment of the present invention.
FIG. 7 is an exemplary diagram illustrating a method of diagnosing a wiring condition of a cabinet internal wiring fault detector constituting an internal wiring monitoring cabinet according to an embodiment of the present invention.

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

In describing the embodiments, descriptions of techniques which are well known in the technical field to which this specification belongs and which are not directly related to this specification are not described. This is for the sake of clarity without omitting the unnecessary explanation and without giving the gist of the present invention.

For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated. Also, the size of each component does not entirely reflect the actual size. In the drawings, the same or corresponding components are denoted by the same reference numerals.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an internal wiring monitoring cabinet according to an embodiment of the present invention;

2 is a device configuration diagram of an internal wiring failure detector of a cabinet constituting an internal wiring monitoring cabinet according to an embodiment of the present invention.

Referring first to FIG. 1, an internal wiring monitoring cabinet according to one embodiment of the present disclosure includes a cabinet 100 and a monitoring system 110.

The cabinet 100 is a storage space provided between an engine control system (not shown) and an external device (not shown). The cabinet 100 includes an engine control system (not shown) and an external device One or more modules 102 that constitute an interfacing system.

One or more modules 102 built in the cabinet 100 include a relay driven through an input / output signal of an engine control system (not shown), a terminal connecting internal and external lines, Fuse for power protection of each module, Programmable Logic Controllers (PLC) I / O module for inputting and outputting internal and external signals, Driver for driving governor, Controller for controlling governor, , Each of which may receive a signal from one or more peripheral modules directly connected to the input through a connection line and output the signal to one or more peripheral modules directly connected to the output after processing. The external device (not shown) may include one of a power management system (PMS) and an alarm management system (AMS).

The monitoring system 110 outputs to the screen one or more modules built in the cabinet 100 and an electronic drawing showing the connection lines between them.

When one module is selected on the electronic drawing, the monitoring system 110 transmits a control signal for lighting an indicator lamp indicating the position of the selected module directly connected to the selected module on the cabinet 100 to a corresponding mark on the cabinet 100 And the like.

In addition, when one connection line is selected on the electronic drawing, the monitoring system 110 transmits a control signal to the cabinet 100 for lighting an indicator lamp indicating the position of peripheral modules directly connected to the selected connection line on the cabinet 100, And outputs it to the corresponding display 104 on the screen.

Here, the monitoring system 110 applies different colors to the selected module, the peripheral module directly connected to the input end of the selected module, and the peripheral module directly connected to the output end of the selected module on the electronic drawing, , The display 104 indicating the position of each of the selected module and the peripheral module directly connected thereto is controlled to emit the same light as the color applied to the display of the corresponding module on the electronic drawing.

When the module manual display menu is selected, the monitoring system 110 searches the database for a manual of the module and outputs the manual to the screen.

One or more modules (102) embedded in the cabinet (100) are equipped with indicator lights (104) indicating their respective positions. Each indicator 104 may be implemented as an LED (Light Emitting Diode) indicator and is illuminated in response to a control signal from the monitoring system 110 to indicate the location of the corresponding module.

A wiring failure detector 106 is mounted on the cabinet 100 to diagnose the connection state of the selected connection line.

When one connection line is selected on the electronic drawing, the monitoring system 110 outputs a control signal for lighting the indicator to the corresponding indicator 104 on the cabinet 100, Outputs information for diagnosing the wiring state to the wiring failure detector 106 in the cabinet 100. When the diagnosis result is inputted from the wiring failure detector 106, the input diagnosis result is displayed on the screen together with the electronic drawing Display. The connection state diagnosis information includes tag information for identifying the selected connection line and peripheral modules directly connected thereto.

The cabinet 100 internal connection failure detector 106 diagnoses the connection state of the selected connection line based on the connection state diagnosis information, displays the diagnosis result on the screen, and outputs the diagnosis result to the monitoring system 110. In detail, the connection failure detector 106 measures the magnitude of the input / output signals of the selected connection line by connecting the measurement lines to both ends of the selected connection line based on the connection state diagnosis information, Extracts reference value information mapped to tag information for identifying the selected connection line and peripheral modules directly connected to the selected connection line, and compares the measured value obtained through the measurement with the extracted reference value to determine whether or not it is disconnected.

Here, the monitoring system 110 according to an embodiment of the present invention includes a control unit 112, a display unit 114, a display lighting unit 116, and a storage unit 118, The following is an example.

The control unit 112 controls the overall operation of the monitoring system 110. In particular, the function of retrieving electronic drawings and module manuals from the internal database of the storage unit 118 and displaying them on the screen through the display unit 114 is processed.

In addition, when a module or a connection line in the electronic drawing is selected, the controller 112 controls the position of the selected module and peripheral modules directly connected to the selected module or the peripheral modules directly connected to the selected connection line, And generates a control signal for lighting the corresponding indicator on the cabinet 100 through the indicator lighting section 116 based on the generated control signal and outputs the control signal to the corresponding indicator lamp 104 on the cabinet 100 And processes the output function.

Such a control signal is transmitted to a corresponding indicator 104 on the cabinet 100 through a communication line installed in the cabinet 100. The communication line is communicated via a commercially available RS232, RS485, Ethernet communication or the like And may be variously configured according to the configuration of the control unit 112 and the hardware specification of the display unit 114. [

When the connection line on the electronic drawing is selected, the control unit 112 outputs information for diagnosing the connection state of the selected connection line to the wiring failure detector 106 in the cabinet 100 via wired / wireless communication And a function for displaying the input diagnosis result on the screen together with the electronic drawing through the display unit 114 when the diagnosis result is inputted from the wiring failure detector 106. [

The display unit 114 displays the electronic drawing, the module manual, and the connection state diagnosis result on the screen under the control of the control unit 112.

The indicator lighting section 116 generates a control signal for lighting an indicator lamp on the cabinet 100 under the control of the control section 112 and outputs the control signal to the corresponding indicator lamp 104. [

The storage unit 118 includes an electronic drawing database, a module database, a connection line database, and a module manual database. The electronic drawing database stores one or more modules embedded in the cabinet 100 and an electronic drawing showing the connection lines between them, and the module database stores information on an indicator indicating the position of peripheral modules directly connected to each module, The connection line database stores information on the indicator indicating the location of peripheral modules directly connected to each connection line, and the module manual database stores the module-specific manuals.

2, the cabinet 100 internal connection failure detector 106 according to an embodiment of the present invention includes a control unit 202, a display unit 204, a display lighting unit 206, (208), and their respective functions will be described below.

The control unit 202 controls the overall operation of the wiring failure detector 106. Particularly, information for diagnosing the connection state of the connection line between modules built in the cabinet 100 from the monitoring system 110 via wired / wireless communication is received, and the connection state diagnosis And displays the result of the connection state diagnosis on the display unit through the display unit 204 and outputs the result of the connection state diagnosis to the monitoring system 110. The display lighting unit 206) to further illuminate the display lamp 210 corresponding to the connection state diagnosis result (i.e., normal, fault, disconnection).

The display unit 204 displays the connection state diagnosis result on the screen under the control of the control unit 202. [

The indicator lighting section 206 controls the lighting of the indicator light 210 corresponding to the wiring state diagnosis result under the control of the control section 202. [

The storage unit 208 includes a database, which includes tag information for identifying peripheral modules directly connected to each connection line, input / output signal type (i.e., voltage / current) information of the peripheral modules, measurable range information, Failure, disconnection, and reference value information for determining whether or not it is normal.

All of the above-described components are not necessarily required, and some of them may be omitted.

3 is a flow diagram of a method for monitoring intra-cabinet wiring of a monitoring system constituting an internal wiring monitoring cabinet according to an embodiment of the present disclosure.

4 is an illustration of a method for lighting a corresponding indicator on a cabinet when a module is selected on an electronic drawing in an internal wiring monitoring cabinet according to an embodiment of the present disclosure;

5 is an illustration of a method for lighting a corresponding indicator light on a cabinet when a connection line is selected on an electronic drawing in an internal wiring monitoring cabinet according to an embodiment of the present disclosure;

3, in step S301, the monitoring system determines whether an electronic drawing output menu for maintenance of a cabinet containing one or more modules constituting an interface system between an engine control system and an external device is selected .

In step S301, when the electronic drawing output menu for maintenance of the cabinet is selected, the monitoring system searches the electronic drawing database for one or more modules embedded in the cabinet and an electronic drawing representing the connection line between them in step S303 The user extracts the electronic drawing of the desired page and outputs it to the screen. Here, the electronic drawing shows one or more modules built in a cabinet and a connection line between them, which are stored in an electronic drawing database and can be searched and extracted according to a user's selection and output to a screen.

In step S305, the monitoring system checks whether one module is selected on the electronic drawing according to a user operation.

In step S305, when one module is selected on the electronic drawing, the monitoring system searches the module database for information about the selected module on the cabinet and the indicator indicating the position of peripheral modules directly connected thereto, Generates a control signal for lighting an indicator lamp indicating the position of the selected module directly connected to the selected module on the cabinet based on the extracted information, and outputs the control signal to the corresponding indicator on the cabinet through the communication line between the monitoring system and the cabinet.

At this time, the monitoring system displays the selected module, the peripheral module directly connected to the input end of the selected module on the electronic drawing, and the peripheral module directly connected to the output end of the selected module by applying different colors, An indicator indicating the position of each directly connected peripheral module can output a control signal to the corresponding indicator on the cabinet for controlling the light to emit the same light as the color applied to the display of the module in the electronic drawing. In this manner, the selected module, the peripheral module directly connected to the input end of the selected module, and the peripheral module directly connected to the output end of the selected module are distinguished from each other on the electronic drawing and the cabinet through the application of different colors, So that the user can quickly and easily confirm the selected module and the input / output modules connected thereto in the electronic drawings and the cabinet during the maintenance of the cabinet.

For example, as shown in FIG. 4A, when module E is selected on the electronic drawing, the monitoring system selects module E on the electronic drawing and peripheral modules A, B, F, G, The connection line is displayed so as to be distinguished from other modules and connection lines and a control signal is sent to an indicator lamp indicating the position of the selected module E on the cabinet and peripheral modules A, B, F, G and H directly connected thereto, (b), the corresponding indicator on the cabinet can emit the same light as the color applied to the display of the module in the electronic drawing. At this time, the indicator lamps indicating the position of the selected module E on the electronic drawing and the module E on the cabinet are red, the peripheral modules A, B and F directly connected to the input of the selected module E on the electronic drawing and the modules A, B and F The indicator indicating the position of the modules G and H directly connected to the output terminal of the selected module E on the electronic drawing and the indicator indicating the positions of the modules G and H on the cabinet can emit green light.

On the other hand, if one module is not selected on the electronic drawing in step S305, the monitoring system checks in step S309 whether one connection line is selected on the electronic drawing according to a user's operation.

In step S309, if one connection line is selected on the electronic drawing, the monitoring system searches the connection line database for information about the position of the peripheral modules directly connected to the selected connection line on the cabinet, And generates a control signal for lighting an indicator lamp indicating the position of peripheral modules directly connected to the selected connection line on the cabinet based on the extracted information and outputs the control signal to the corresponding indicator on the cabinet through the communication line between the monitoring system and the cabinet.

At this time, the monitoring system displays peripheral modules directly connected to the input ends of the selected connection lines on the electronic drawing, and peripheral modules directly connected to the output ends of the selected connection lines, and is directly connected to the selected connection line on the cabinet An indicator indicating the position of each of the peripheral modules can output a control signal to the corresponding indicator on the cabinet for controlling to emit light equal to the color applied to the display of the corresponding module in the electronic drawing.

For example, as shown in FIG. 5 (a), if a connection line is selected on the electronic drawing, the monitoring system can select the connection line selected on the electronic drawing and peripheral modules A and E directly connected thereto, And sends a control signal to an indicator indicating the positions of the peripheral modules A and E directly connected to the selected connection line on the cabinet so that the corresponding indicator on the cabinet is displayed on the electronic drawing To emit the same light as the color applied to it. At this time, the selected connection line on the electronic drawing is red, the peripheral module A directly connected to the input of the selected connection line on the electronic drawing and the indicator indicating the position of module A on the cabinet are connected to the output terminal of the selected connection line on the electronic drawing An indicator light indicative of the position of the peripheral module E and the module E on the cabinet may be adapted to emit green light.

Also, in step S313, as one connection line is selected on the electronic drawing, the monitoring system outputs a control signal for lighting the indicator to the corresponding indicator on the cabinet, And information for diagnosing the connection state of the selected connection line is output to the cabinet internal connection failure detector through wired / wireless communication. Accordingly, the connection failure detector can diagnose the connection state of the selected connection line based on the connection state diagnosis information and provide the diagnosis result to the monitoring system. Here, the connection state diagnosis information includes tag information for identifying the selected connection line and tag information for identifying peripheral modules directly connected to the selected connection line.

In step S315, the monitoring system checks whether the connection state diagnosis result of the selected connection line is input from the connection failure detector.

In step S315, if the connection state diagnosis result of the selected connection line is inputted from the connection failure detector, the monitoring system displays the input diagnosis result on the screen together with the electronic drawing in step S317.

On the other hand, if it is determined in step S309 that no connection line is also selected on the electronic drawing, the monitoring system returns to step S305 and repeats the following steps.

On the other hand, if the electronic drawing output menu for maintenance of the cabinet is not selected in step S301, the monitoring system checks whether the module manual display menu is selected according to the user's operation in step S319.

In step S319, if the module manual display menu is selected, the monitoring system searches the module manual database for the manual of the module selected by the user in step S321, extracts and displays the extracted manual on the screen, .

On the other hand, if the module manual display menu is not selected in step S319, the monitoring system returns to step S301 and repeats the following steps.

Not all illustrated steps are necessarily required, and some steps may be omitted.

6 is a flowchart of a method of diagnosing a wiring condition of a cabinet internal wiring fault detector constituting an internal wiring monitoring cabinet according to an embodiment of the present invention.

FIG. 7 is an exemplary diagram illustrating a method of diagnosing a wiring condition of a cabinet internal wiring fault detector constituting an internal wiring monitoring cabinet according to an embodiment of the present invention.

Referring to FIG. 6, in step S601, a cabinet internal connection failure detector detects a connection state of a connection line between modules embedded in a cabinet together with a flag on signal from a monitoring system via wired / wireless communication Whether or not information is input. The connection state diagnosis information includes tag information for identifying a connection line to be diagnosed as a connection state and tag information for identifying peripheral modules directly connected to the connection line.

If the information for diagnosing the connection state of the connection line is input in step S601, the connection failure detector checks the power and communication state in step S603, illuminates the power and communication state confirmation lamp according to the check result, When the communication state is normal, measurement lines are connected to both ends of a connection line to be diagnosed based on the connection state diagnosis information, and the magnitude of input / output signals of the connection line is measured.

In step S605, the wiring fault detector determines whether the wiring state diagnosis information (i.e., the connection line to be diagnosed as the wiring state and the tag information for identifying peripheral modules directly connected thereto) is faulty, disconnection, And extracts reference value information for grasping. The internal database of the wiring fault detector determines tag information for identifying peripheral modules directly connected to each connection line, input / output signal type (ie, voltage / current) information of the peripheral modules, information of measurable range, failure, disconnection, And reference value information for storing the reference value.

In step S607, the connection failure detector determines whether the connection line is broken, disconnected, or normal by comparing the measured value obtained through the measurement with the extracted reference value.

In step S609, the wiring failure detector displays the wiring state diagnosis result on the screen and outputs it to the monitoring system. Here, in order that the user can more easily confirm the connection state diagnosis result, the connection failure detector may be provided with an indicator for each connection state diagnosis result so that an indicator corresponding to the connection state diagnosis result can be additionally lighted have.

For example, if the connection line 1 is selected on the electronic drawing of the monitoring system, and the monitoring system outputs the tag information for identifying the selected connection line 1 and the peripheral modules A, E directly connected thereto, to the intra-cabinet wiring failure detector , As shown in Fig. 7, the wiring failure detector detects "current" as input / output signal type information of the information mapped to the peripheral modules A and E in the internal database, "0 to 30 mA 4mA and 20mA "is extracted as reference value information to determine whether the malfunction, disconnection, or normal is present, and if the measured value is within the range of 0 to 4 mA or 20 to 30 mA, "Fault" is determined. If the measured value is 0 mA, "disconnected" is determined for connection line 1, and if the measured value is between 4 and 20 mA, connection line 1 can be determined to be "normal".

According to another embodiment of the present invention, there is provided an indicator lamp for diverging light of various colors according to a result of the wiring state diagnosis, So that the light of the corresponding color corresponding to the connection state diagnosis result can be emitted. For example, if the wiring status diagnosis result is "failure", the indicator light may be yellow, "disconnection" may be red, and if it is "normal", green light may be emitted.

Not all illustrated steps are necessarily required, and some steps may be omitted.

The internal wiring monitoring cabinet, the monitoring system, and the cabinet internal wiring monitoring method according to the embodiments described above provide an environment in which the operator can easily work during assembly / wiring confirmation and maintenance of the built-in modules of the cabinet, There is an advantage that the work efficiency can be improved and the working time can be effectively reduced.

It will be understood by those skilled in the art that the present specification may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present specification is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents are included in the scope of the present specification Should be interpreted.

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 embodiments, but, on the contrary, It is not intended to limit the scope of the specification. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: cabinet 102: module
104: Indicator 106: Wiring failure detector
110: monitoring system 112:
114: display unit 116: indicator light unit
118:

Claims (13)

A cabinet for accommodating one or more modules constituting an interface system between an engine control system and an external device, the cabinet being a storage space provided between an engine control system and an external device; And
Outputting to the screen one or more modules embedded in the cabinet and an electronic drawing showing the connection lines between them, and when one module is selected on the electronic drawing, the position of the selected modules directly connected to the selected module on the cabinet A monitoring system for outputting a control signal for turning on an indicator lamp for indicating to the corresponding indicator on the cabinet;
Internal wiring monitoring cabinets, including.
The method according to claim 1,
The monitoring system comprises:
And outputting to the corresponding indicator on the cabinet a control signal for turning on an indicator lamp indicating the position of peripheral modules directly connected to the selected connection line on the cabinet when one connection line is selected on the electronic drawing.
3. The method of claim 2,
In the cabinet,
And a connection failure detector for diagnosing a connection state of the selected connection line,
The monitoring system comprises:
Outputting a control signal for lighting the indicator to the corresponding indicator on the cabinet and for diagnosing the connection state of the selected connection line to the wiring fault detector when the one connection line is selected on the electronic drawing And when the diagnosis result is inputted from the wiring fault detector, the input diagnosis result is displayed on the screen together with the electronic drawing,
Wherein the wiring fault detector comprises:
Diagnosing the connection state of the selected connection line based on the connection state diagnosis information, displaying the diagnosis result on a screen, and outputting the result to the monitoring system.
The method of claim 3,
The connection state diagnosis information includes:
Tag information for identifying the selected connection line and peripheral modules directly connected thereto,
Wherein the wiring fault detector comprises:
Output line signal of the selected connection line by connecting measurement lines to both ends of the selected connection line based on the connection state diagnosis information, and detects the selected connection line and peripheral modules directly connected thereto from the internal database And comparing the measured value obtained through the measurement with the extracted reference value to determine whether or not disconnection of the internal connection monitoring cabinet is possible.
The method according to claim 1,
The monitoring system comprises:
A peripheral module directly connected to an input end of the selected module and a peripheral module directly connected to an output end of the selected module on the electronic drawing to display different colors on the selected module, An internal wiring monitoring cabinet that controls the indicator light for each position to emit light equal to the color applied to the display of the module in the electronic drawing.
The method according to claim 1,
One or more modules embedded in the cabinet,
A relay that is driven through input / output signals of the engine control system, a terminal that connects internal and external lines, a fuse for protecting the power of each module, a programmable logic controller (PLC) for inputting and outputting internal and external signals, Controllers Input / output modules, drivers for driving governors, controllers for controlling governors,
The external device
An internal wiring monitoring cabinet including one of a power management system (PMS) and an alarm management system (AMS).
The method according to claim 1,
The monitoring system comprises:
Module Manual Display When the menu is selected, the internal wiring monitoring cabinet retrieves the manual of the module in the database and outputs it to the screen.
In order to maintain a cabinet containing one or more modules constituting an interface system between an engine control system and an external device, one or more modules built in the cabinet and an electronic Outputting a drawing to a screen; And
Outputting, when a module is selected on the electronic drawing, a control signal for turning on an indicator lamp indicating the position of the selected module and the peripheral modules directly connected to the selected module on the cabinet to a corresponding indicator on the cabinet;
The method comprising the steps of:
9. The method of claim 8,
Outputting to the corresponding indicator on the cabinet a control signal for turning on an indicator lamp indicating a position of peripheral modules directly connected to the selected connection line on the cabinet when one connection line is selected on the electronic drawing;
Further comprising the step of monitoring the internal wiring of the cabinet.
10. The method of claim 9,
A control signal for lighting the indicator is outputted to the corresponding indicator on the cabinet and information for diagnosing the connection state of the selected connection line is sent to the cabinet internal connection failure Outputting to a detector; And
Further comprising the step of displaying the input diagnosis result on the screen together with the electronic drawing when the connection state of the selected connection line is diagnosed by the wiring fault detector based on the wiring state diagnosis information and a diagnosis result is inputted, ,
The connection state diagnosis information includes:
And tag information for identifying the selected connection line and peripheral modules directly connected thereto.
9. The method of claim 8,
The step of outputting the electronic drawing to a screen may include:
A peripheral module directly connected to an input end of the selected module, and a peripheral module directly connected to an output end of the selected module on the electronic drawing,
The step of outputting the control signal to a corresponding indicator on the cabinet,
An indicator lamp for indicating the position of each of the selected module and the peripheral modules directly connected to the selected module on the cabinet is connected to a cabinet for outputting a control signal for emitting light equivalent to a color applied to the display of the module on the electronic drawing to a corresponding indicator on the cabinet Wiring monitoring method.
9. The method of claim 8,
Retrieving a manual of the module from the database and outputting the retrieved manual to the screen when the module manual display menu is selected;
Further comprising the step of monitoring the internal wiring of the cabinet.
In order to maintain a cabinet containing one or more modules constituting an interface system between an engine control system and an external device, one or more modules built in the cabinet and an electronic A display unit for outputting a drawing to a screen; And
An indicator light unit for outputting a control signal for turning on an indicator lamp for indicating the position of the selected module directly connected to the selected module on the cabinet to the corresponding indicator on the cabinet when one module is selected on the electronic drawing;
.

Images