KR101450112B1 - Connecting Device for Communication between Sensors in a Engine and an Alarm Monitoring Device in Control Room of Ship - Google Patents

Abstract

The present invention minimizes connection wiring work by using a communication method for signal transmission between an engine and a control room apparatus for monitoring or controlling the engine and an alarm monitoring apparatus in a control room for a large ship or the like, The present invention relates to a communication connection device between an engine of a ship and an alarm monitoring device of a control room,
A sensor for monitoring the engine 20 and an alarm monitoring device of the control room 30 between the engine 20 of the ship and the alarm monitoring device of the control room 30, A plurality of main terminal boxes 50 are distributed around the engine so that the sensors and the switches in the vicinity of the terminal box 50 are connected to each other. And at least two main terminal boxes 50 are connected to the alarm monitoring device of the control room 30 through a separate cable communication line.

Description

[0001] The present invention relates to an alarm monitoring device, and more particularly,

The present invention relates to a connection technique between an engine and a control room apparatus for a large-sized ship or the like, and particularly relates to an engine and a control room apparatus for monitoring or controlling the engine and a control room apparatus for monitoring or controlling the engine, To a communication connection device between an engine of a ship and a control room apparatus, which can minimize the work of establishing a connection line by using a communication method between the control room apparatuses and facilitate maintenance.

In general, the ship is, for example, as shown in FIG. 1, in which the engine 20 driving the propeller 40 generating the propulsion force is disposed adjacent to the propeller 40 below the ship, The ship control room 30 for the ship is constructed on the upper part of the ship.

Accordingly, the engine 20 and the control room 30 apparatus, and more particularly, the alarm monitoring apparatuses of the control room 30 may be spaced a large distance depending on the size of the vessel, while monitoring or controlling the engine Are connected to each other. These wirings are connected when the ship is manufactured at the shipyard. First, after the engine 20 is seated, the junction box 10 is installed near the engine 20, To the control room 30 device, that is, the alarm monitoring device.

In the meantime, various kinds of sensors and switches are usually present in the engine 20. These are devices attached to an engine for measuring, monitoring or controlling the operation state of the engine. For example, the sensors include a pressure switch, a pressure transmitter, a temperature switch, , A magnetic switch, a temperature sensor, a flow rate sensor, and a limit switch. Devices attached to these engines, sensors and switches, are wired from the sensor and switch to the junction box (10). The junction box 10 is again connected to the control room 30 of the ship, that is, the alarm monitoring device of the control room 30 through wiring. The wiring work for connecting the sensors and switches, which are devices attached to the engine 20, to the alarm monitoring device, which is the control room 30 device, includes as many wire cables as the number of devices attached to the engine, And auxiliary materials such as a cable tray for preventing escape are considerably required.

For this reason, there is a problem that labor and material costs are excessively consumed for installing electrical and electronic wiring in the shipyard. Furthermore, in the case of poor contact or disconnection of the cable during operation of the ship, the maintenance time is lengthened and the operation must be stopped until the completion of the maintenance. In this case, there has been a problem that a large accident may occur in the ship.

Accordingly, by switching the signal transmission method between the engine and the control room device that monitors or controls the engine to the communication method, it is possible to minimize the installation work of the connection wiring by removing most of the connection wiring connecting the engine and the control room, A device has been developed to communicate with a central processing unit (CPU) mounted on the engine to quickly identify the location of a problem and to make maintenance easier. In the registration utility model 20-0447766 (entitled " And a communication device between the room devices).

As shown in FIGS. 1 and 2, the communication connection device between the devices attached to the engine of the ship and the control room device disclosed in the above-mentioned registration utility model publication includes an engine 20 and a control room 30, Includes a junction box for interconnecting control signals from a control room apparatus having sensor signals and one input / output only from devices attached to the engine to the engine through the two-line cable line for transmission and reception .

Here, the junction box 10 transmits sensor sensing, that is, a monitoring signal or a control signal, to the other side of the cable gland 13 of the cable line for transmitting a sensing signal, that is, a monitoring signal or a control signal, A case 11 having a lead-out cable gland 12 for a cable line for carrying out a test; The sensor cable is connected to the cable for the sensor sensing signal and the communication signal through the cable glands (12, 13), and is connected in the case (11) And an input / output (I / O) module 15 for outputting the control signal to the control room device in the other direction and for transmitting the control signal to the control room device, And a communication CPU (16) for controlling the transmission of the control signal received from the control room apparatus to the input / output module.

The registered utility model includes a large-sized ship such as a large-sized ship in which, when a control room apparatus for monitoring or controlling the engine is remotely located, the signal transmission between the engine and the control room apparatus, which is a device for monitoring or controlling the engine, It is possible to minimize the work for installing the connection wiring, and the maintenance can be made easier.

However, in the conventional communication connection device between the engine of the ship and the control room device, various sensors and switches, which are devices attached to various kinds of engines for measuring, monitoring or controlling the operation state of the engine, And connected to the control room 30 through a two-line cable line for transmission and reception from the one junction box 10 to the one junction box 10, The wiring structure is dense and complicated and there is only one junction box 10, so that if there is an abnormality such as a noise or a bug in the junction box 10, the operation state of the marine engine is controlled in the control room 30, There is a problem that the entire ship can not be grasped in real time in the device and thus the entire ship is exposed to danger. In addition, the conventional junction box 10 has a problem in that the control room 30, If there is a noise or abnormality (cut, damaged or old) in one of the two lines of cable for transmission and reception connected to the cable line, the control room (30) It is not possible to secure the safety of the ship because it can not receive the signal from the box 10 in real time and it is difficult to cope with the real time in case of an emergency,

In addition, a large part of the connection wiring is removed between the junction box 10 installed in the engine and the control room 30 of the ship, thereby minimizing the wiring work and facilitating maintenance. However, The junction box 10 has a problem that the size of the junction box 10 is large because all the sensor signals inputted to the junction box 10 are input to one junction box 10 attached to the engine side, It was necessary to install a separate junction box for signals transmitted to other devices. Therefore, when there are many signals transmitted to other devices, separate junction boxes take up a lot of space around the engine, And the workability is poor.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for controlling an apparatus for controlling the operation of an engine, A plurality of main terminal boxes communicating with the engine side devices are provided at different positions of the engine to distribute the wiring structure on the engine side to simplify the installation and maintenance of the wiring, A plurality of main terminal boxes provided at different positions of the engine are provided to simplify the configuration of one main terminal box itself and reduce the area occupied by one main terminal box itself to attach a plurality of main terminal boxes to the engine Between the alarm monitoring device of the engine and the control room facilitating layout in And to provide a communication connection device of the present invention.

The present invention also provides a communication function for enabling communication between an engine and a control room apparatus and for performing multiple communication sharing data among a plurality of main terminal boxes on the engine side, An engine and a control room which enable communication connection between the engine side and the control room apparatus through another main terminal box sharing mutual data even if an abnormality occurs in one of the boxes, It is an object of the present invention to provide a communication connection device between devices.

Further, the present invention is characterized in that a redundant communication in which at least two boxes among a plurality of main terminal boxes installed on the engine side are communicated with a control room apparatus (alarm monitoring apparatus) of a ship having a plurality of inputs and outputs by a separate cable line It is possible to measure, monitor, or control the operation state of the engine through another cable line so that an accident can be prevented or prevented, and an engine And a communication connection device between the control room device and the control room device.

In addition, the present invention protects a circuit for processing various signals generated by engine-side devices from vibrations of a ship, separates the signals according to characteristics, receives, multiplexes, digitally converts and processes the signals, And to provide a communication connection device between the engine and the control room apparatus.

It is another object of the present invention to provide a communication connection device between an engine and a control room apparatus, which can self-diagnose errors and failures during operation and inform the user.

It is another object of the present invention to provide a communication connection device between an engine and a control room apparatus which is protected from sudden power fluctuations and static electricity.

In order to achieve the above object, a main terminal box for connecting control signals from an alarm monitoring device of an engine room to an engine and sensor signals of an engine side between an engine of a ship and an alarm monitoring device of a control room A plurality of main terminal boxes are distributed in the vicinity of the engine so that the sensors and the switches in the position are connected to each other and each main terminal box shares data with each other through multiple communication with another main terminal box, Which is connected to the alarm monitoring device of the control room through a separate cable line.

According to the communication connection device between the engine of the ship and the alarm monitoring device of the control room of the present invention, the main terminal box includes an inlet cable gland for inputting sensor sensing or monitoring signals and control signals, A case having a square cross section with a lead-out cable gland for outputting a signal and a control signal, and a grounding bolt on each side; A cable duct and a terminal block installed inside the case; A cable for sensing or monitoring signals and a control signal is connected to both sides of the cable gland through the cable gland to receive a sensor detection signal on the engine side in one direction and convert it into a communication signal in a one direction, And a communication input / output module having both an input / output function of receiving a communication signal and outputting and switching it to a control signal, and a communication function for communicating with an alarm monitoring device of a control room .

According to the communication connection device between the engine of the ship of the present invention and the alarm monitoring device of the control room, the communication input / output module can perform RS-232, RS-422, RS-485 standard serial communication and CAN multi- Both of which are supported.

According to another aspect of the present invention, there is provided a communication connection device between an engine of a ship and an alarm monitoring device of a control roll room, wherein the communication input / output module includes a multiplexer for multiplexing various signals received from the engine- A signal processing MCU (Master Control Unit) for converting the converted multiplexed signal into a digital signal and processing it, and a main terminal box and a control room device A mother board including a shared (multi) communication (CAN) terminal block and a dual communication terminal block for communicating with each other, and a status display portion indicating various operating states; A resistor terminal RTD for current output, a current terminal for current output, and a binary terminal for switch output are mounted on one side of the motherboard to provide various signals to the multiplexer, ≪ / RTI > And an aluminum frame structure surrounding the outer periphery of the sub board and protecting the mother board and the sub board from the vibration of the ship.

According to another aspect of the present invention, there is provided a communication connection device for an alarm monitoring system in a control room, the system comprising: an alarm display unit for displaying an alarm, .

According to the communication connection device between the engine of the ship and the alarm monitoring device of the control room of the present invention, the communication input / output module includes a power stabilization circuit and an electrostatic discharge protection circuit.

The communication connection device between the engine of the present invention and the alarm monitoring device of the control room is provided with engine side devices for measuring, monitoring or controlling the operation state of the engine such as a sensor or a switch attached to the engine of the ship, Unlike the case where a main terminal box is provided on the engine side in the related art, a plurality of main terminal boxes communicating with the engine side devices are provided at different places, The wiring structure between the devices on the engine side and the main terminal box is distributed and arranged so that wiring connection and maintenance are simplified and the configuration of one main terminal box itself is simplified and the area occupied by one main terminal box itself To reduce the layout of the main terminal box when attaching multiple main terminal boxes to the engine. , Which is laying operation of a cable and cable tray is optimized has the effect that the operation cost and improved airborne.

According to the communication connection device between the engine side apparatuses of the present invention and the alarm monitoring apparatus of the control room, a plurality of main terminal boxes distributed to the engine perform mutual communication sharing mutual data, Even if the main terminal box is abnormal (noise, bug, etc.), it is possible to transmit the operation status of the engine to the alarm monitoring device of the control room in real time through the other main terminal box sharing the data. There is another effect that the safety of the ship can be continuously improved by quickly identifying and replacing the main terminal box in which the abnormality occurs with a new one.

According to the communication connection device between the engine-side devices of the present invention and the alarm monitoring device of the control room, an alarm monitoring device of a control room having a plurality of (for example, two) inputs and outputs is provided, The alarm monitoring device and the plurality of main terminal boxes distributed on the engine side perform redundant communication with at least two of the boxes via a separate cable line, (Noise, cut, damage, aging, etc.) to any one of a plurality of cable lines connecting the plurality of cable lines connecting the plurality of cable lines to each other to monitor or control the operation state of the engine through another line It is possible to detect accidents caused by inability to monitor or control the engine, Prevention in advance or can be quickly added to cope with the effects of this.

According to the communication connection device between the engine and the alarm monitoring device of the control room of the present invention, a circuit for processing various signals generated in the engine-side devices is protected from the vibration of the ship, Receiving, multiplexing, and digitally converting and processing the signal, thereby processing the signal at a high speed with a compact configuration.

In addition, according to the communication connection device between the engine and the alarm monitoring device of the control room of the present invention, an error and a fault are automatically diagnosed during operation, and the user is warned through the LED and the user is informed of the error and the faulty position through the LCD , There is an effect that an immediate response to this can be made.

Further, according to the communication connection device between the engine and the alarm monitoring device of the control room of the present invention, a power stabilization circuit is provided to cope with a sudden fluctuation of the power source, and an electrostatic discharge protection circuit is provided to protect the device from static electricity .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram schematically showing a communication connection device between a conventional engine and an alarm monitoring device in a control room. FIG.
2 is a configuration diagram of a junction box which is a conventional recess configuration;
3 is a block diagram schematically showing a communication connection device between an engine of the present invention and an alarm monitoring device in a control room.
4 is a block diagram schematically illustrating a communication connection structure of the present invention;
Fig. 5 is a schematic view showing a main terminal box which is a main constituent of the present invention. Fig.
6 is an enlarged view of the communication input / output module in the main terminal box of Fig.
7 is an exploded view of the communication input / output module of Fig.
8 is a connection configuration diagram of a signal processing circuit and its peripheral circuit arranged on the motherboard of FIG.
Fig. 9 is a flow chart of operation steps performed in the signal processing circuit of Fig. 8 and its peripheral circuits; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In the drawings, the same reference numerals denote the same or similar components.

3 and 4, the communication connection device between the engine and the alarm monitoring device of the control room 30 according to the present invention is connected between the engine 20 of the ship and the alarm monitoring device of the control room 30, A main terminal box 50 for connecting various sensor signals coming from the engine side devices such as sensors and switches attached to the control room 30 or a control signal from the alarm monitoring device of the control room 30 to the engine 20 A plurality of, for example, three or more, distributedly installed around the engine so that the sensors and switches located in proximity thereto are connected to each other, and each main terminal box 50 is connected to another main terminal box 50 through multiple communications 31 And at least two main terminal boxes 50 are connected to the alarm monitoring device of the control room 30 by a redundant communication in which they communicate with each other via a separate cable line .

3 and 4, the main terminal box 50 is distributed to three different places of the engine, and each main terminal box 50 is connected to an engine side such as a sensor and a switch located adjacent thereto It is preferable that the devices are disposed in the vicinity of the dense places. In this way, unlike all the sensor signals in the conventional one junction box 10, the present main terminal box 50 is dispersedly disposed in three different places in the engine and only the sensor signals of the neighboring sensors are collected, It is possible to reduce the size and to secure a space that can be installed in the engine. In addition, a plurality of main terminal boxes 50 are dispersedly arranged to optimize the cable installation and cable tray installation work, thereby improving the cost and the work flow.

Here, the multiple communication 31 refers to communication between the main terminal boxes 50 to mutually share the digital data processed by the plurality of main terminal boxes 50, whereby each main terminal box 50 transmits all the sensor signals of the engine- And can be shared and held. This multiplex communication 31 is performed through a physical communication line connection to the shared (multiple) communication terminal block 66 (see FIGS. 6 to 7) of the communication input / output module 60 in each main terminal box 50, Examples of the multiple communication 31 include CAN communication, Ethernet communication, and DeviceNet communication. In this way, each main terminal box 50 shares all the sensor signals of the engine-side apparatuses. At least two main terminal boxes 50, as shown in FIG. 4 among the plurality of main terminal boxes 50, When the communication line is short-circuited, disconnected, or a communication error occurs in any one of the two cable lines, it is possible to perform redundant communication through another line It is possible to monitor or control the operating state of the engine. In this case, the communication between the plurality of main terminal boxes 50 and the alarm monitoring apparatus of the control room 30 can use all the MODBUS RTU protocols of RS-232, RS-422, RS-485 standard, Communication, device net communication, and the like.

As shown in FIG. 5, each of the main terminal boxes 50 may include a sensor sensing or monitoring signal from the engine-side devices and an input of a control signal A pull-out cable gland 54 for outputting a sensing signal or a monitoring signal and a control signal, and a case 51 having a square cross-section with a grounding bolt 52 provided on each side thereof, ; A cable duct (55) and a terminal block (56) installed inside the case (51); A cable for sensor sensing or monitoring signals and control signals is connected to both sides of the case 51 via the cable glands 53 and 54. In one direction, Output function for converting and outputting a communication signal in a different direction to a control signal and a communication function for communicating with an alarm monitoring device of the control room 30 And a communication input / output module 60.

Here, the communication input / output module 60 is for collecting and processing signals transmitted from the engine-side devices to the alarm monitoring device of the control room 30, and the terminal block 56 is a control room 30 device And to collect signals transmitted to devices other than the alarm monitoring device. Accordingly, it is possible to reduce the size of the main terminal box itself by dispersing and arranging a plurality of main terminal boxes 50 at different positions of the engine, It is possible to collect not only the signal transmitted to the monitoring device but also the signals transmitted to the devices other than the alarm monitoring device, so that the cables installed in the engine can be installed at the shortest distance according to the destination, .

6 is an enlarged view of the communication input / output module 60 in the main terminal box 50 of FIG. 5, and FIG. 7 is a layered exploded view of the communication input / output module 60 of FIG. 6 and 7, the communication input / output module 60 includes a motherboard 70 having a signal processing circuit (see FIG. 8) for processing various signals, And an aluminum structure 82 which covers the sub board 80 and protects the sub board 80 and the mother board 70 from vibrations, physical impacts or external electrical influences of the ship, .

The sub-board 80 includes an RTD (Resistance Temperature Detector) terminal block 61 for resistance output and a current terminal block 62 for current output in order to receive various signals from the engine- And a binary terminal block 63 for outputting a switch.

Among the signals output from various sensors and switch devices attached to the engine, a resistance output signal is connected to an RTD (Resistance Temperature Detector) terminal 61 for resistance output of the sub-board 80, Is connected to a current terminal block 62 for current output of the board 80 and a binary output signal is connected to a binary terminal block 63 for switch output of the sub board 80. [ When the various signals from the engine-side apparatus are classified and classified according to their signal characteristics, i.e., resistance, current, and binary, the characteristics of the divided signals are the same, which is advantageous for multiplexing the divided signals thereafter, It is advantageous that the signal processing can be performed at a high speed even with a compact configuration (see FIG. 8).

The motherboard 70 is provided with an area for mounting the sub-board 80 in order to receive various signals from the sub-board 80 according to their signal characteristics, i.e., resistance, current and binary, A signal processing circuit (see Fig. 8) for multiplexing and digitally converting various signals from the sub-board 80 and performing data processing, and a signal processing circuit (CAN) terminal block 66 for communicating with the communication input / output module of the other main terminal box 50 and sharing the processed data, and a shared (multi) communication terminal (MODBUS) terminal blocks (67, 68, 69) for communicating with the alarm monitoring device and duplexly communicating the processed data to a separate cable line, and a power line terminal block (79).

The power line terminal block 79 supplies power required for the operation of the signal processing circuit of the motherboard 80 (see FIG. 8), and the status display section displays various operation states of the signal processing circuit, And an LED 65 for indicating whether an abnormality has occurred or not and an LCD 64 and an LED 65 for self-diagnosing the abnormality, By displaying the position on the screen, the user can make an immediate response.

The signal processing circuit disposed on the motherboard 70 of FIG. 7 will now be described with reference to FIG. 8, the signal processing circuit disposed on the motherboard 70 divides various signals coming from the engine-side device by the signal characteristics, that is, by the resistance, the current, and the binary, Multiplexers (Muxes 71, 72, and 73) for receiving and multiplexing signals through a current terminal block 62 and a binary terminal block 63, And a signal processing MCU (Master Control Unit) 75 for converting the converted multiplexed signal into a digital signal at a high speed and processing the signal.

 With this configuration, RTD (resistance), current (current), and binary (binary) output signals can be input according to the signal characteristics of the analog signals coming from the engine side devices, and a plurality of analog output signals In order to process them simultaneously, they are multiplexed according to the input order defined by the MUX, then converted into voltage signals having the same characteristics, and then digitized by the MCU. Thus, signals can be processed at high speed.

As described above, the signal processing circuit includes a converter for converting the RTD (resistance) output, the current output, and the binary (switch) output signal into one and the same voltage level, , I, B) into an output (V) of the same characteristic so that all the signals can be collected in the MCU 75 (see STEP 1 in FIG. 9). The digitized and mutually collected data is converted into a database by the MCU 75 and output through communication through various communication interfaces 66, 67, 68, and 69 (see FIG. 8).

Now, the overall operation of the plurality of main terminal boxes 50 and the control room 30 apparatus will be described.

The main terminal box 50 configured as described above is distributed to three different places of the engine and the shared (multiple) communication terminal block 66 of the communication input / output module 60 in the main terminal box 50 is connected to another main terminal box And the redundant communication terminal blocks 67, 68 and 69 of at least two main terminal boxes 50 among the plurality of main terminal boxes 50 are connected to the control room 30 of the ship, To the alarm monitoring device by a redundant communication line by a separate cable line.

When the engine 20 of the ship is operated in this state, various sensor signals from engine-side devices such as sensors and switches installed on the engine side are transmitted to the motherboard (not shown) via the sub- Output module 60 disposed in the communication I / The various sensor signals thus inputted are classified according to their signal characteristics and input to the multiplexers (Mux) 71, 72 and 73 (see FIG. 8) in the signal processing circuit built in the communication input / output module 60, The signal is converted into a voltage signal of one and the same characteristic by a converter, then converted into a digital form in the MCU 75, processed and then stored in a database (STEP 1 of FIGS. 8 and 9).

The digital data processed by the MCU 75 is transmitted to the other main terminal box 50 via the shared (multi) communication terminal block 66 in the communication input / output module 60 of the plurality of main terminal boxes 50, Here, each of the communication input / output modules 60 is connected to the other communication input / output module 60 via the bidirectional CAN 31 communication and shares signals with each other, The input / output module 50 has signal information of virtually all of the engine-side apparatuses.

These digital data processed by the MCU 75 are supplied to a separate cable for connecting the redundant communication terminal blocks 67, 68, 69 of at least two main terminal boxes 50 to the alarm monitoring device of the control room 30 of the ship And is transmitted to the alarm monitoring apparatus of the control room 30 by the line 32 as redundant communication (STEP 3 in FIGS. 8 and 9).

That is, in the normal operation in which there is no abnormality in the plurality of main terminal boxes 50 and the two cable lines 32, the two main terminal boxes 50 on the left and right of the three main terminal boxes 50 shown in FIG. Transmits the digital data processed by the alarm monitoring device of the control room 30 in a redundant communication at the same time via a separate cable line 32.

However, during the operation of the engine, if the left main terminal box 50 malfunctions, the center and right main terminal boxes 50 recognize this and use the right cable line of the two cable lines 32 to control the control room And transmits the data to the alarm monitoring device of the terminal 30. At this time, the LED or LCD of the left main terminal box 50 is flickered or illuminated to display the alarm state, and the alarm monitoring device of the control room 30 also indicates that the left main terminal box 50 is malfunctioning, Thereby informing the operator that there is a failure or an error in the terminal box 50, so that it can be quickly replaced.

If the central main terminal box 50 malfunctions, the left and right main terminal boxes 50 can transmit data to the alarm monitoring device of the control room 30 via the left or right cable line 32 Therefore, even if an error occurs in one main terminal box, there is no influence on the overall system operation of the alarm monitoring apparatus, so that there is no problem in real time monitoring of the operation state of the engine in the control room 30, ), It is possible to quickly identify an error, so that an accident can be prevented or promptly addressed.

In addition, the plurality of main terminal boxes 50 communicate with the alarm monitoring device of the control room 30 through at least two separate cable lines so that the operation status of the engine can be grasped in real time as long as the two lines are not damaged at the same time The reliability of the communication connection between the main terminal box 50 and the alarm monitoring device of the control room 30 can be greatly improved and stability can be greatly improved.

To this end, the communication input / output module 60 in each main terminal box 50 is connected to an RS-232, RS-422, RS-485 standard serial communication and another input / output module 60 And a CAN (Controller Area Network) type multiple communication between the base station and the base station.

Further, the communication input / output module 60 preferably includes a power stabilizing circuit and an electrostatic discharge protection circuit, which are commonly known for stable operation of the signal processing circuit.

The communication connection device between the engine of the ship of the present invention and the alarm monitoring device of the control room having the above-described structure is provided with a plurality of main terminal boxes 50, for example three main terminal boxes 50, At least two of the main terminal boxes 50 communicate with each other via a separate cable line from the alarm monitoring device of the control room so that the engine side is communicated via the separate redundant communication 32 in the control room 30 to any place There is an advantage that it can be monitored or controlled in real time even if an accident occurs.

Since the main terminal boxes 50 share data through the multiple communication 31, no matter which main terminal box 50 is connected to the control room 30 by communication, there is no need to monitor or control the engine The problem does not occur.

Further, a plurality of, for example, three main terminal boxes 50 are distributed on different sides of the engine, and a plurality of sensors and switches provided on the engine side are installed in the main terminal box 50), compared to the case where all the sensors and switches are connected to one junction box as in the conventional case, the wiring structure of the engine side is simplified and the installation work of the cable and the cable tray is optimized, thereby improving the cost and the work flow have.

In addition, since one junction box is divided into three main terminal boxes 50, the size of the main terminal box 50 is reduced as compared with the junction box, thereby facilitating the securing of the installation space. On the other hand, the conventional junction box has a structure in which a communication CPU is connected to the input / output module, so that it can communicate only with the control room and a separate junction box is required to connect with other devices. .

In addition, the signals of various sensors and switches provided on the engine side are distributed to three main terminal boxes and received, so that the main terminal box 50 can be downsized. Since the terminal block 56 is mounted in addition to the communication input / output module 60 in the main terminal box 50, it is possible to collect and process signals connected to other devices other than the communication with the control room 30 .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Changes will be possible.

30 ... control room
31 ... multiple communication
32 ... redundant communication
50 ... Main Terminal Box (MTB)
51 ... case
52 ... grounding bolt
53 ... incoming cable gland
54 ... Extraction cable gland
55 ... cable duct
56 ... terminal block
60 ... Communication I / O module
61 ... RTD (Resistance Temperature Detector) terminal block
62 ... Current terminal block
63 ... Binary terminal block
64 ... LCD
65 ... LED
66 ... Shared (multiple) communication terminal block
67,68,69 ... Redundant communication terminal block
70 ... motherboard
71,72,73 ... Multiplexer (Mux)
75 ... MCU
79 ... power line
80 ... Subboard
82 ... Aluminum structure

Claims (6)

Various sensor detection or monitoring signals from devices for detecting the operating state of the engine 20 attached to the engine 20 between the engine 20 of the ship and the alarm monitoring device of the control room 30, A main terminal box 50 for connecting a control signal from the alarm monitoring device of the engine 20 to the engine 20 is distributed and installed around the engine so that the sensors and the switches located close thereto are connected,
Each main terminal box 50 shares data with another main terminal box 50 through multiple communications 31. At least two main terminal boxes 50 are connected to the alarm monitoring device 30 of the control room 30, And is connected to a redundant communication which communicates with a separate cable line ,
The main terminal box (50)
A lead-in cable gland 53 for inputting a sensor sensing or monitoring signal and a control signal, a lead-out cable gland 54 for outputting a sensor sensing or monitoring signal and a control signal, and a grounding bolt 52, A case 51 having a square cross section;
A cable duct (55) and a terminal block (56) installed inside the case (51);
Cables for sensor sensing or monitoring signals and control signals are connected through the cable glands 53 and 54 to the both sides of the case 51. In one direction, Output function for converting and outputting a communication signal in a different direction to a control signal and a communication function for communicating with an alarm monitoring device of the control room 30 And a communication input / output module (60)
The communication input / output module (60)
A multiplexer (Mux) 71, 72, 73 for receiving and multiplexing various signals from the engine-side apparatus according to characteristics, a converter for converting the multiplexed signal, a signal for converting and processing the converted multiplexed signal into digital A shared (multi) communication (CAN) terminal block 66 and a redundant communication (MODBUS) terminal block 67, 68, and 68 for communicating with the processing MCU 75 and the other main terminal box 50 and the control room 30, 69, and a status display unit indicating various operating states; Resistor Temperature Detector (RTD) terminal blocks for resistance output are mounted on one side of the motherboard 70 to provide various signals from the engine side devices to the multiplexers 71, A current terminal block 62 for current output and a binary terminal block 63 for switch output; And an aluminum structure (82) surrounding an outer periphery of the sub board and protecting the mother board and the sub board from the vibration of the ship. The apparatus for communication connection between an engine of a ship and an alarm monitoring apparatus of a control room. delete The method according to claim 1,
The communication input / output module 60 supports both RS-232, RS-422, and RS-485 standard serial communication and CAN (Controller Area Network) multiple communication. Communication connection device between monitoring devices. delete The method according to claim 1,
Wherein the status display unit comprises at least one of an LCD (64) or an LED (65) that indicates whether an error or a malfunction has occurred during operation and indicates an abnormality. The communication between the engine and the alarm monitoring apparatus of the control room Connection device. The method according to claim 1 or 3,
The communication input / output module (60) is provided with a power stabilizing circuit and an electrostatic discharge protection circuit. The communication connection device between the engine of the ship and the alarm monitoring device of the control room.

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