CN117478791A - Ship automation system turbine operator calling system and method - Google Patents

Abstract

The invention relates to a marine automation system turbine member calling system and method, a plurality of turbine member calling devices are mutually connected in a communication mode, wherein the communication mode comprises one-to-one communication and one-to-many communication; the turbine operator calling device includes: the system comprises a data processing module, a call confirmation control module, a call sound indication module, a call light indication module, a call silencing control module, a communication module and a touch screen monitoring module. When a call is made, any one of the wheel member calling devices sends a call to the designated wheel member calling device through the touch screen monitoring module, and the called wheel member calling device sends a call confirmation instruction to all wheel member calling devices if the called wheel member calling device does not respond within a set time. The invention can realize one-to-one calling and one-to-many calling, and when the called turbine operator calling device does not respond within a set time, the calling device is used for calling all the turbine operator calling devices, so that other turbine operators are reminded to check the condition of the called turbine operator.

Description

Ship automation system turbine operator calling system and method

Technical Field

The invention relates to the field of ship automation, in particular to a system and a method for calling a turbine operator of a ship automation system.

Background

When the ship sails or works, in the situations of the cabin, the cab, the bridge wings and other vehicles or operators needing to carry out inspection, examination and fault maintenance, an immediate and reliable calling means of the vehicle operator is needed, for example, the cabin of the ship breaks down, and the centralized control room can call the relevant vehicle operator to the cabin for maintenance and fault resetting. The interior communication system of the ship generally does not cover all areas, and only a few places of the core are provided with interior communication equipment. Therefore, for the parts such as cabin areas, on-site turbine operator living cabins, public areas and the like, the turbine operators or operators often execute tasks everywhere, and when the requirements are met, the turbine operators or operators related to calling are required to reach the calling part, especially for the ships such as large-scale mail wheels, large-scale containers and the like, the functions and the reliability of the turbine operator calling system are very high due to the characteristics of large cabin areas, complex equipment layout, multiple and complex on-site pipelines, multiple on-site areas, multiple turbine operators and operators, scattered working parts and the like.

Thus, in order to meet the needs of the current situation, a call system with more functionality and reliability is needed.

Disclosure of Invention

In order to achieve the technical purpose, the invention provides a marine automation system member calling system and a marine automation system member calling method, wherein for the members or operators scattered at all positions of a marine, if the members or operators are overtime and not answered when being called, the marine automation system member calling system can send a full member calling instruction to all the member calling devices in the system, and inform all other members or operators to check the positions of the members or operators which are not answered when being called, thereby playing a certain safety protection role for the members or operators, and becoming a way for guaranteeing communication and safety of the members.

The technical purpose of the invention is realized by the following technical scheme:

a marine automation system turbine member calling system comprises a plurality of turbine member calling devices which are connected with each other in a communication mode, wherein the communication mode comprises one-to-one communication and one-to-many communication;

the turbine operator calling device includes:

the data processing module is connected with a switching value analog input/output module for data input and data output;

the call confirmation control module is connected with the switching value analog input/output module and used for inputting a call confirmation instruction;

the calling sound indication module is connected with the switching value analog quantity input/output module and used for responding to the calling of other turbine member calling devices to send out sound indication;

the calling light indication module is connected with the switching value analog input/output module and used for responding to the calls of other turbine member calling devices to send out light indication;

the call silencing control module is connected with the switching value analog quantity input/output module and used for inputting a call silencing instruction for eliminating the sound instruction of the call sound instruction module of the current turbine calling device;

the communication module is connected with the switching value analog quantity input/output module and used for calling communication and data transmission between the wheel member calling devices;

the touch screen monitoring module is connected with the data processing module and used for deploying software in the turbine operator calling device and realizing man-machine interaction selection of a communication mode, calling and cancellation of calling.

Further, the turbine operator calling device further comprises a turbine operator calling device fault light indication module, and the turbine operator calling device fault light indication module is connected with the switching value analog quantity input/output module and used for indicating the fault time of the turbine operator calling device.

Further, the wheel member calling device also comprises a brightness adjusting module, and the brightness adjusting module is connected with the switching value analog quantity input/output module and used for adjusting brightness adjustment of the calling light indicating module and the wheel member calling device fault light indicating module.

Further, the communication module is an RS-485 communication module, and each turbine operator calling device is connected with a redundant RS-485 bus A and an RS-485 bus B through the respective communication modules.

Further, the system also comprises a cabin monitoring alarm system controller module, and the cabin monitoring alarm system controller module is connected with the redundant RS-485 bus A and the redundant RS-485 bus B to monitor all the turbine operator calling devices.

Further, a dial switch is arranged on the communication module, and a communication address of a turbine operator calling device where the communication module is set in the dial switch.

The invention also provides a marine automation system turbine member calling method, which is based on the marine automation system turbine member calling system, and comprises the following steps:

step 1, any one of the turbine operator calling devices sends a call to the designated turbine operator calling device through a touch screen monitoring module, timing is started, the time for turning the unconfirmed call to the full-operator call is set as T, and the current time is set as T;

step 2, respectively carrying out sound indication and light indication by a call sound indication module and a call light indication module of the called turbine member call device according to the call confirmation instruction;

and step 3, if the called member calling device does not respond within the time t, sending a call confirmation instruction to all the member calling devices.

Further, in step 3, the method includes:

step 301, judging whether the current time meets T being more than or equal to T, if T being less than T, executing step 302; if T is greater than or equal to T, then step 305 is performed;

step 302, judging whether the called member calling device inputs a silencing instruction, if yes, stopping the sound instruction by the sound instruction module of the called member calling device; if no silencing command is input, step 303 is executed;

step 303, judging whether the called member calling device inputs a call confirmation instruction, if the call confirmation instruction is input, stopping the sound indication by the sound indication module of the called member calling device and stopping the light indication by the calling light indication module, and completing the current call; if the call confirmation command is not input, executing step 304;

step 304, judging whether the calling device of the calling wheel member cancels the calling, if the calling is cancelled, stopping the sound indication by the sound indication module of the calling device of the called wheel member, and stopping the light indication by the calling light indication module, thereby completing the current calling; if the call is not canceled, continuing to time and executing step 301;

step 305, performing sound indication and light indication by the sound indication module and the calling light indication module of all the turbine member calling devices respectively, and executing step 306;

step 306, judging whether the called turbine operator calling device inputs a call confirmation instruction or a silencing instruction; if a call confirmation instruction or a silencing instruction is input, stopping sound indication by the sound indication modules of all the wheel member calling devices and stopping light indication by the calling light indication modules, so as to complete the current call; if no call confirmation instruction or no silencing instruction is input, step 307 is executed;

step 307, it is determined whether the called member calling device (the member calling device that protects the calling) answers or the calling member calling device cancels the calling, whether the sound indication modules of all member calling devices are kept to perform sound indication and the calling light indication module performs light indication, and the timing is continued and step 301 is executed.

Compared with the prior art, the invention has the beneficial effects that:

1. the marine automation system turbine-member calling system can realize one-to-one calling among turbine-member calling devices, and can also realize one-to-many calling among the turbine-member calling devices and all the turbine-member calling devices, thereby meeting different use requirements.

2. According to the invention, each of the wheel call devices is connected with the redundant RS-485 bus A and the redundant RS-485 bus B through the respective communication modules, so that the continuity and stability of communication and data transmission between the wheel call devices are ensured.

3. According to the marine automation system turbine calling method, when the called turbine calling device does not answer or operate within a set time, all turbine calling devices are called, other turbine operators are reminded to check the conditions of the turbine operators at the called turbine calling device, and a certain protection effect is achieved on the safety of the turbine operators.

Drawings

FIG. 1 is a schematic diagram of a marine automation system turbine operator calling system configuration of the present invention.

FIG. 2 is a schematic flow chart of a marine automation system turbine operator calling method of the present invention.

FIG. 3 is a schematic diagram of the operation of the optical fault indication module of the turbine operator calling device in the present invention.

In the figure, 101, a touch screen monitoring module; 102. a call confirmation control module; 103. a call silencing control module; 104. a call light indication module; 105. a call sound indication module; 106. a data processing module; 107. a communication module; 108. the switching value analog quantity input and output module; 109. a cabin monitoring alarm system controller module; 110. RS-485 bus A; 111. RS-485 bus B; 112. a brightness adjustment module; 113. the turrets call the device fault light indication module.

Detailed Description

The technical scheme of the invention is further described below with reference to the specific embodiments:

example 1

A marine automation system turbine calling system, as shown in figure 1, comprises a plurality of turbine calling devices, wherein the turbine calling devices are in communication connection with each other, and the communication mode comprises one-to-one communication and one-to-many communication;

the turbine operator calling device includes:

the data processing module 106, the data processing module 106 is connected with the switching value analog input/output module 108 for data input and data output;

the data processing module 106 is a core instruction processing module of the turbine operator calling device, and is composed of a singlechip and peripheral core circuits such as crystal oscillator and power supply, and the like, and the description of the data processing module is omitted in the prior art. The singlechip is provided with an acquisition unit and a parsing unit for completing the call instruction, the call confirmation control instruction, the call light instruction and the call sound instruction of the turbine, and also comprises a turbine call instruction, a call light instruction and a call sound instruction output unit, and the data processing module 106 transmits the turbine call instruction, the call confirmation control instruction and the call silencing control instruction to the interface of the touch screen monitoring module 101 for display; the data processing module 106 outputs the call light indication instruction, the call sound indication instruction and the wheel member call device fault light indication instruction to the call light indication module 104, the call sound indication module 105 and the wheel member call device fault light indication module 113 through the switching value analog quantity input output module 108 respectively, so as to realize information transmission indication.

The switching value analog input/output module 108 is composed of a switching value input/output terminal strip and a peripheral circuit, wherein the terminal strip is connected with the call confirmation control module 102, the call silencing control module 103, the call light indication module 104, the call sound indication module 105, the turbine member call device fault indication module 113 and the brightness adjustment module 112, and is communicated with the data processing module 106 through an internal bus to realize input/output of switching value and analog value signals.

The call confirmation control module 102, the call confirmation control module 102 is connected with the switching value analog input output module 108 for inputting a call confirmation instruction for responding to the call; the call confirmation control module 102 is a self-resetting key, and can input a wheel member call confirmation instruction, the data processing module 106 completes the collection of key actions through the switching value analog quantity input/output module 108, judges the call confirmation instruction according to the key actions, and after the call confirmation instruction is processed by the data processing module 106, the data processing module outputs the call confirmation instruction through the switching value analog quantity input/output module 108, then controls the call sound indication module to stop sound indication and the call light indication module to stop light indication.

The call silencing control module 103, the call silencing control module 103 is connected with the switching value analog input/output module 108 to input a call silencing instruction for eliminating the sound instruction of the call sound instruction module 105 of the current turbine operator calling device; the call silencing control module 103 is a self-resetting key, can input a call silencing instruction of a turbine operator, the data processing module 106 completes the collection of key actions through the switching value analog quantity input and output module 108, judges the call silencing instruction according to the key actions, and the data processing module 106 processes the call silencing instruction and then controls the call sound indication module 105 to stop sound indication after outputting the call silencing instruction through the switching value analog quantity input and output module 108.

The call sound indication module 105 is connected with the switching value analog input/output module 108 to respond to the call of other wheel member calling devices to send out sound indication, and the call sound indication module 105 is such as a buzzer with a lamp. The data processing module 106 controls the call sound indication module 105 to perform sound indication or stop sound indication through the switching value analog input/output module 108.

The call light indication module 104 is connected to the switching value analog input/output module 108 for sending light indication in response to the call of other wheel member call devices.

The communication module 107, the communication module 107 is connected with the switching value analog quantity input/output module 108 for call communication and data transmission between the wheel member call devices; the communication module 107 is an RS-485 communication module, and each turbine operator calling device is connected with a redundant RS-485 bus A and an RS-485 bus B through respective communication modules. The system further comprises a cabin monitoring alarm system controller module 109, wherein the cabin monitoring alarm system controller module 109 is connected with the redundant RS-485 bus A110 and the redundant RS-485 bus B111 to monitor all the turbine operator calling devices, and can transmit call signals of the turbine operator calling devices and call signals of all the turbine operator calling devices to the cabin monitoring alarm system controller module 109 to carry out alarm indication. The communication module 107 is provided with a dial switch, and the dial switch is provided with a communication address of a turbine operator calling device where the communication module 107 is positioned.

The model of the RS-485 communication module is like a TIA/E IA-485, the RS-485 communication module mainly comprises an RS-485 bus control chip, a peripheral circuit, a dial switch and a bus terminal resistor, and the RS-485 communication module is connected to an RS-485 bus A and an RS-485 bus B and is used for receiving a call instruction of a turbine operator and outputting the call operation state of the turbine operator, and further the data processing module 106 is used for completing the analysis of a call instruction protocol of the turbine operator and the execution of an acousto-optic instruction control instruction. The dial switch is used for setting the communication address of the turbine member calling device and the bridging state of the bus terminal resistor. The bus termination resistance on the RS-485 communication module is typically 120 ohms. The RS-485 bus A110 and the RS-485 bus B111 are redundant RS-485 communication buses, and a plurality of turbine operator calling devices are connected in a daisy-chain mode through the RS-485 bus A110 and the RS-485 bus B111. The RS-485 communication module periodically monitors the heartbeat of the RS-485 bus A110 and the RS-485 bus B111, judges according to the heartbeat condition, and switches to the other bus for communication in real time after one bus is disconnected, so that redundant communication of a turbine operator calling system is realized.

The RS-485 bus A110 and the RS-485 bus B111 are shielding twisted pair lines and are used for realizing networking communication between the call devices of the marine automation system and with the cabin monitoring alarm system controller module of the marine automation system, and the cabin monitoring alarm system controller module of the marine automation system is a cabin monitoring alarm system controller terminal of the marine automation system and realizes the purpose of transmitting the call instruction of the marine personnel and the call instruction signal of the whole personnel to a monitoring station of the cabin monitoring alarm system for instruction. The cabin monitoring alarm system controller module 109 of the marine vessel automation system may be a maritime computer or workstation of the cabin monitoring alarm system. Or a programmable controller in the signal acquisition box of the cabin monitoring alarm system.

When the marine automation system turbine operator calling system is installed and constructed, all turbine operator calling devices and a cabin monitoring alarm system controller module 109 of the marine automation system are connected to the same site through an RS-485 bus A110 and an RS-485 bus B111, and then corresponding communication addresses of the turbine operator calling devices are respectively set through a dial switch on an RS-485 communication module with the model of TIA/E IA-485.

The touch screen monitoring module 101 is connected with the data processing module 106 for software deployment in the turbine operator calling device, and realizes man-machine interaction selection of a communication mode, calling and cancellation of calling. The touch screen monitoring module 101 is a multi-touch screen, and communicates with the data processing module 106 through an internal bus, and deployed software such as man-machine interaction software, and further includes a callable member call device list, a member call button, a member call instruction, and the like.

Preferably, the turbine operator calling device further comprises a turbine operator calling device fault light indication module 113, and the turbine operator calling device fault light indication module 113 is connected with the switching value analog quantity input/output module 108 for indicating the fault time of the turbine operator calling device. The data processing module 106 outputs the light indication instruction of the failure of the wheel member calling device to the light indication module of the failure of the wheel member calling device through the switching value analog input output module 108 to realize the lighting indication when the wheel member calling device fails.

The working process of the failure light indication module of the turbine operator calling device is as shown in fig. 3:

step 401, after the calling system is started, starting to enter a calling function of a turbine operator;

step 402, the communication module determines whether the communication of the turbine operator calling device is faulty, if so, step 403 is executed, and if not, step 406 is executed;

step 403, the light indication module of the failure of the calling device of the turbine operator performs light indication; step 404 is then performed;

step 404, judging whether the communication fault of the turbine operator calling device is reset or not through the communication module, and if so, executing step 405; if not, executing step 403;

and 405, ending the current function after the light of the fault light indication module of the wheel call device is extinguished.

Step 406, the light of the failure light indication module of the wheel machine calling device does not turn on the light to end the current function.

Preferably, the wheel caller device further comprises a brightness adjustment module 112, wherein the brightness adjustment module 112 is connected with the switching value analog input/output module 108 for adjusting brightness adjustment of the calling light indication module 104 and the wheel caller device fault light indication module 113. The brightness adjustment module 112 is composed of a resistor type potentiometer knob and a potentiometer knob acquisition circuit, the potentiometer knob is turned, the data processing module 106 acquires the knob position, and brightness values of the calling light indication module and the turrets calling device fault light indication module 113 are determined.

Example 2

A marine vessel automation system crew call method, described based on the crew call system in embodiment 1, as shown in fig. 2, comprising:

step 1, any one of the two member calling devices sends a call to the designated two member calling device through the touch screen monitoring module 101, and when the call is made, a one-to-one call mode can be selected, and a one-to-many call mode can be selected, namely, one member calling device can simultaneously call to two or more than two or even all the two member calling devices; starting timing after calling, setting the calling time of the unconfirmed call transfer full-member as T, and setting the current time as T;

step 2, the call sound indication module 105 and the call light indication module 104 of the called turbine member call device respectively perform sound indication and light indication according to the call confirmation instruction;

and step 3, if the called member calling device does not respond within the time t, sending a call confirmation instruction to all the member calling devices.

The step 3 specifically comprises the following steps:

step 301, judging whether the current time meets T being more than or equal to T, if T being less than T, executing step 302; if T is greater than or equal to T, then step 305 is performed;

step 302, judging whether the called member calling device inputs a silencing command, if yes, the calling sound instruction module 105 of the called member calling device stops the sound instruction; if no silencing command is input, step 303 is executed;

step 303, judging whether the called member calling device inputs a call confirmation command, if the call confirmation command is input, stopping the sound indication by the call sound indication module 105 and stopping the light indication by the call light indication module 104 of the called member calling device, and completing the current call; if the call confirmation command is not input, executing step 304;

step 304, judging whether the calling device of the calling member cancels the calling, if the calling is cancelled, the calling sound indication module 105 of the calling device of the called member stops the sound indication and the calling light indication module 104 stops the light indication, and the current calling is completed; if the call is not canceled, continuing to time and executing step 301;

step 305, the call sound indication module 105 and the call light indication module 104 of all the wheel member call devices respectively perform sound indication and light indication, and step 306 is executed;

step 306, judging whether the called turbine operator calling device inputs a call confirmation instruction or a silencing instruction; if a call confirmation instruction or a silencing instruction is input, the call sound indication module 105 of all the wheel member call devices stops sound indication and the call light indication module 104 stops light indication, so that the current call is completed; if no call confirmation instruction or no silencing instruction is input, step 307 is executed;

step 307, the call sound indication module 105 of all the wheel member call devices is kept to carry out sound indication and the call light indication module 104 is carried out light indication, and the timing is continued and step 301 is executed.

The present embodiment is further illustrative of the present invention and is not to be construed as limiting the invention, and those skilled in the art can make no inventive modifications to the present embodiment as required after reading the present specification, but only as long as they are within the scope of the claims of the present invention.

Claims (8)

1. The marine automation system turbine member calling system is characterized by comprising a plurality of turbine member calling devices which are connected with each other in a communication mode, wherein the communication mode comprises one-to-one communication and one-to-many communication;

the turbine operator calling device includes:

the data processing module is connected with a switching value analog input/output module used for data input and data output;

the call confirmation control module is connected with the switching value analog input/output module and used for inputting a call confirmation instruction;

the calling sound indication module is connected with the switching value analog input/output module and used for responding to the calling of other turbine operator calling devices to send out sound indication;

the calling light indication module is connected with the switching value analog input/output module and used for responding to the calling of other wheel member calling devices to send out light indication;

the call silencing control module is connected with the switching value analog input/output module and used for inputting a call silencing instruction for eliminating the sound instruction of the call sound instruction module of the current turbine calling device;

the communication module is connected with the switching value analog quantity input/output module and used for calling communication and data transmission between the wheel member calling devices;

the touch screen monitoring module is connected with the data processing module and used for deploying software in the turbine operator calling device and realizing man-machine interaction selection of a communication mode, calling and cancellation of calling.

2. The marine automation system of claim 1, wherein the marine vessel operator call device further comprises a marine vessel operator call device fault light indication module, the marine vessel operator call device fault light indication module being coupled to the switching value analog input output module for marine vessel operator call device fault time indication.

3. The marine automation system of claim 2, wherein the marine vehicle calling device further comprises a brightness adjustment module, the brightness adjustment module being connected to the switching value analog input output module for adjusting brightness adjustment of the calling light indication module and the marine vehicle calling device fault light indication module.

4. A marine automation system crew call system according to claim 1, wherein the communication module is an RS-485 communication module, and each crew call device is connected to a redundant RS-485 bus a and RS-485 bus B via respective communication modules.

5. A marine automation system crew call system according to claim 4, further comprising a cabin monitoring alarm system controller module, said cabin monitoring alarm system controller module connecting redundant RS-485 bus a and RS-485 bus B to enable monitoring of all crew call devices.

6. A marine automation system crew call system according to any of the claims 1-5, wherein the communication module is provided with a dial switch, wherein the dial switch is provided with a communication address of the crew call device where the communication module is located.

7. A marine vessel automation system crew calling method based on the crew calling system of claim 6, the method comprising:

step 1, any one of the turbine operator calling devices sends a call to the designated turbine operator calling device through a touch screen monitoring module, timing is started, the time for turning the unconfirmed call to the full-operator call is set as T, and the current time is set as T;

step 2, respectively carrying out sound indication and light indication by a call sound indication module and a call light indication module of the called turbine member call device according to the call confirmation instruction;

and step 3, if the called member calling device does not respond within the time t, sending a call confirmation instruction to all the member calling devices.

8. A marine automation system turrets calling method as claimed in claim 7, wherein in said step 3 comprises:

step 301, judging whether the current time meets T being more than or equal to T, if T being less than T, executing step 302; if T is greater than or equal to T, then step 305 is performed;

step 302, judging whether the called member calling device inputs a silencing instruction, if yes, stopping the sound instruction by the sound instruction module of the called member calling device; if no silencing command is input, step 303 is executed;

step 303, judging whether the called member calling device inputs a call confirmation instruction, if the call confirmation instruction is input, stopping the sound indication by the sound indication module of the called member calling device and stopping the light indication by the calling light indication module, and completing the current call; if the call confirmation command is not input, executing step 304;

step 304, judging whether the calling device of the calling wheel member cancels the calling, if the calling is cancelled, stopping the sound indication by the sound indication module of the calling device of the called wheel member, and stopping the light indication by the calling light indication module, thereby completing the current calling; if the call is not canceled, continuing to time and executing step 301;

step 305, performing sound indication and light indication by the sound indication module and the calling light indication module of all the turbine member calling devices respectively, and executing step 306;

step 306, judging whether the called turbine operator calling device inputs a call confirmation instruction or a silencing instruction; if a call confirmation instruction or a silencing instruction is input, stopping sound indication by the sound indication modules of all the wheel member calling devices and stopping light indication by the calling light indication modules, so as to complete the current call; if no call confirmation instruction or no silencing instruction is input, step 307 is executed;

step 307, keep the sound indication modules of all the turrets calling devices to make sound indication and call the light indication modules to make light indication, continue timing and execute step 301.