CN210199541U - Wiper controller with network interface - Google Patents
Wiper controller with network interface Download PDFInfo
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- CN210199541U CN210199541U CN201921098384.XU CN201921098384U CN210199541U CN 210199541 U CN210199541 U CN 210199541U CN 201921098384 U CN201921098384 U CN 201921098384U CN 210199541 U CN210199541 U CN 210199541U
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Abstract
The utility model provides a take wiper controller of network interface, include: wiper control module, wiper control panel, distributed controller, wiper signal output module and ethernet module, wherein wiper control module constitutes dual redundant ethernet interface with ethernet module, wiper control panel installs on the driver's cabin auxiliary control cabinet, wiper control module carries out communication connection through RS485 communication interface and wiper control panel, wiper control module passes through wiper signal output module and wiper signal connection, distributed controller installs in driver's cabin or cabin, be connected through ethernet module between distributed controller and the wiper control module. The wiper controller with the network interface is simple in structure and convenient to wire, can be connected with a comprehensive bridge control system quickly and stably, and can remotely control and control the operation, mode conversion, synchronous and asynchronous operation, water spraying, heating and other operations of the wiper.
Description
Technical Field
The utility model relates to a wiper controller, concretely relates to take wiper controller of network interface.
Background
The wiper of the ship is a necessary navigation aid for navigation of the ship, and the control of a plurality of previous wipers can control actions through various switches on a wiper combined control panel, so that the wiper is difficult to adapt to tactical requirements of modern ships. The novel ships are all equipped with a comprehensive bridge control system, and the system is a man-machine system which comprehensively integrates the navigation and control of the ships, the communication, monitoring, alarming, damage monitoring and control, guarantee and other management and control functions directly related to navigation, and realizes efficient navigation command and control. However, how to connect the control of the wiper to the bridge control system is a technical problem to be solved at present.
SUMMERY OF THE UTILITY MODEL
The utility model provides a not enough to prior art, the utility model provides a take wiper controller of network interface can realize and synthesize bridge control system's quick and stable being connected.
In order to realize the technical scheme, the utility model provides a take wiper controller of network interface, include: wiper control module, wiper control panel, distributed controller, wiper signal output module and ethernet module, wherein wiper control module and ethernet module component dual redundant ethernet interface, and wiper control panel installs on the driver's cabin auxiliary control cabinet, and wiper control module carries out communication connection through RS485 communication interface and wiper control panel, wiper control module passes through wiper signal output module and wiper signal connection, and distributed controller installs in driver's cabin or cabin, be connected through the ethernet module between distributed controller and the wiper control module.
Preferably, the wiper control module is connected with an ethernet backbone network via an ethernet module, the cab auxiliary monitoring terminal host and the bridge control system host are respectively connected with the ethernet backbone network, the cab auxiliary monitoring terminal display is connected with the cab auxiliary monitoring terminal host, and the bridge control system display is connected with the bridge control system host.
The utility model also provides a take network interface's wiper controller, include: wiper control module, wiper control panel, distributed controller, wiper signal output module, centralized control CAN-bus interface module, centralized control module, CAN-bus, navigation auxiliary control device, wiper CAN-bus interface module and centralized control Ethernet module, wherein the wiper control panel is installed on the cab auxiliary control cabinet, the wiper control module is connected to the CAN-bus through the wiper CAN-bus interface module and is in communication connection with the wiper control panel, the navigation auxiliary control device and the centralized control module are respectively connected to the CAN-bus, the centralized control module connects the wiper control module and the navigation auxiliary control device on the CAN-bus through the centralized control CAN-bus interface module, the centralized control module is connected with the bridge control system host and the cab auxiliary monitoring terminal host through the centralized control Ethernet module, the wiper control module is in signal connection with a wiper through the wiper signal output module, the distributed controller is installed in a cab or a cabin, and the distributed controller is connected with the wiper control module through a signal line.
Preferably, the wiper control module is connected with a centralized control module connected with the centralized control CAN-bus interface module on a CAN-bus through a wiper CAN-bus interface module.
The utility model provides a pair of take wiper controller of network interface's beneficial effect lies in: the wiper controller with the network interface is simple in structure and convenient to wire, can realize quick and stable connection with a comprehensive bridge control system, and the bridge control system is communicated with the wiper controller through a main information network, so that various operations such as interconnection, mutual operation, mutual backup, mutual use, remote control and control of operation, mode conversion, synchronous and asynchronous operation, water spraying, heating and the like of the wiper can be realized.
Drawings
Fig. 1 is a schematic structural connection diagram of embodiment 1.
Fig. 2 is a schematic structural connection diagram of embodiment 2.
In the figure: 1. a driver's cab auxiliary monitoring terminal display; 2. a bridge control system display; 3. a driver cab auxiliary monitoring terminal host; 4. a host Ethernet interface; 5. a keyboard and a mouse; 6. a bridge control system host; 7. an Ethernet backbone network; 8. a wiper control module; 9. a wiper control panel; 10. a distributed controller; 11. a wiper signal output module; 12. an Ethernet module; 13. a wiper; 14. a centralized control CAN-bus interface module; 15. a centralized control module; 16. a CAN-bus; 17. a navigation assistance control device; 18. a wiper CAN-bus interface module; 19. the ethernet module is centrally controlled.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by a person skilled in the art without any inventive step are within the scope of the present invention.
Example 1: a wiper controller with a network interface.
Referring to fig. 1, a wiper controller with a network interface includes: wiper control module 8, wiper control panel 9, distributed controller 10, wiper signal output module 11 and ethernet module 12, wherein wiper control panel 9 installs on the driver's cabin auxiliary control cabinet, the on-off state of steerable and display wiper 13, the working method, spray water, information such as operation track and heating, wiper control module 8 communicates with wiper control panel 9 through RS485 communication interface, wiper control module 8 gathers the on-off state of wiper control panel 9, control operation is carried out to each wiper 13 through wiper signal output module 11.
The distributed controllers 10 are installed in different positions of a cab or in different cabins, and are mainly convenient for a crewman to control the wipers 13, different distributed controllers 10 are controlled by the wiper control module 8, and when any one distributed controller 10 presses a corresponding button, the wiper control module 8 receives a command to control the corresponding wiper 13 to act.
The wiper control module 8 and the Ethernet module 12 form a dual-redundancy Ethernet interface, the wiper control module 8 packages all data state information in wiper operation into a data information message, the data information message forms the dual-redundancy Ethernet interface and the Ethernet backbone network 7 through the Ethernet module 12, the data information message is sent to the cab auxiliary monitoring terminal host 3 on the bridge control system on the platform network, and the relevant control information of a wiper 13 is displayed on the cab auxiliary monitoring terminal display 1, including the wiper stop state or the wiper running state and the like, the cab auxiliary monitoring terminal host 3 adopts the dual-redundancy Ethernet interface 4, the wiper control module 8 is connected with the Ethernet backbone network 7 through the Ethernet module 12, the cab auxiliary monitoring terminal host 3 and the bridge control system host 6 are respectively connected with the Ethernet backbone network 7, the cab auxiliary monitoring terminal display 1 is connected with the cab auxiliary monitoring terminal host 3, the bridge control system display 2 is connected with a bridge control system host 6.
The wiper control module 8 can also receive a control command from the main machine 3 of the auxiliary monitoring terminal of the self-controlled cab, and completes the input of a human-computer interaction instruction to realize the control of the wiper 13 through the operation of the keyboard mouse 5 of the auxiliary monitoring terminal of the cab on the display 1 of the auxiliary monitoring terminal of the cab.
The wiper in the control system of the wiper can be controlled by a wiper control panel 9, a distributed controller 10 and a cab auxiliary monitoring terminal host 3, and is controlled in a post-control effective mode.
The dual-redundancy Ethernet interface formed by the wiper control module 8 and the Ethernet module 12 has a communication function of 5 IP addresses, the Ethernet interface sets IP addresses (for example 192.168.1.11-15) of 5 devices on the bridge control system, 4 bridge control devices in the bridge control system and the cab auxiliary monitoring terminal host 3 are both provided with operation software for the wiper 13, and the Ethernet interface sets IP addresses (for example IP is 192.168.1.16) of the wiper controller, so that the cab auxiliary control terminal and the rest 4 bridge control devices in the bridge control system are communicated with the wiper controller through a backbone information network, and the man-machine system with interconnected operation and mutual backup and operation control can be realized.
Example 2: a wiper controller with a network interface.
Referring to fig. 1 and 2, a wiper controller with a network interface includes: a wiper control module 8, a wiper control panel 9, a distributed controller 10, a wiper signal output module 11, a centralized control CAN-bus interface module 14, a centralized control module 15, a CAN-bus 16, a navigation auxiliary control device 17, a wiper CAN-bus interface module 18 and a centralized control Ethernet module 19, wherein the wiper control module 8 is connected to the CAN-bus 16 through the wiper CAN-bus interface module 18, the navigation auxiliary control devices 17 (such as navigation lights, signal lights, fog horns, window heating controllers and the like) of other CAN-bus interfaces and the centralized control module 15 are also connected to the CAN-bus 16, the centralized control module 15 connects all control module units on the CAN-bus 16 through the centralized control CAN-bus interface module 14 for centralized monitoring, the centralized control module 15 inquires all data state information of each module in a master-slave mode, uniformly packages all the obtained data information and sends the data information to the cab auxiliary control terminal equipment on the platform network, and the centralized control module 15 can also receive a control command from the automatic control cab auxiliary monitoring terminal to realize control over each control module.
The wiper control module 8 is connected with a centralized control module 15 connected with a centralized control CAN-bus interface module 14 on a CAN-bus 16 through a wiper CAN-bus interface module 18, the centralized control module 15 CAN acquire the working state of each wiper 13, or receive commands of controlling the operation, parameters and the like of the wiper sent by a cab auxiliary monitoring terminal through a centralized control Ethernet module 19, send messages to the wiper control module 8, and receive the commands through the wiper control module 8 to control the corresponding wiper to act.
The wiper controller with the network interface is simple in structure and convenient to wire, can realize quick and stable connection with a comprehensive bridge control system, and the bridge control system is communicated with the wiper controller through a main information network, so that various operations such as interconnection, mutual operation, mutual backup, mutual use, remote control and control of operation, mode conversion, synchronous and asynchronous operation, water spraying, heating and the like of the wiper can be realized.
In the utility model, the driver's cab auxiliary monitoring terminal display 1, the bridge control system display 2, the driver's cab auxiliary monitoring terminal host 3, the host ethernet interface 4, the keyboard mouse 5, the bridge control system host 6, the ethernet backbone network 7, the wiper control module 8, the wiper control panel 9, the distributed controller 10, the wiper signal output module 11, the ethernet module 12, the wiper 13, the centralized control CAN-bus interface module 14, the centralized control module 15, the CAN-bus 16, the navigation auxiliary control device 17, the wiper CAN-bus interface module 18 and the centralized control ethernet module 19 are the existing devices which CAN be purchased in the market, the utility model does not improve the structure of the above devices, but improves the connection mode, sequence and logic of the above devices, therefore even though the concrete structure and model of the above devices are not explained, the solution according to the invention can also be implemented by a person skilled in the art from the above description.
The above description is a preferred embodiment of the present invention, but the present invention should not be limited to the disclosure of the embodiment and the accompanying drawings, and therefore, all equivalents and modifications that can be accomplished without departing from the spirit of the present invention are within the protection scope of the present invention.
Claims (4)
1. A wiper controller with a network interface, comprising: wiper control module, wiper control panel, distributed controller, wiper signal output module and ethernet module, wherein wiper control module and ethernet module component dual redundant ethernet interface, and wiper control panel installs on the driver's cabin auxiliary control cabinet, and wiper control module carries out communication connection through RS485 communication interface and wiper control panel, wiper control module passes through wiper signal output module and wiper signal connection, and distributed controller installs in driver's cabin or cabin, be connected through the ethernet module between distributed controller and the wiper control module.
2. The wiper controller with network interface of claim 1, wherein: the wiper control module is connected with an Ethernet backbone network through an Ethernet module, a cab auxiliary monitoring terminal host and a bridge control system host are respectively connected with the Ethernet backbone network, a cab auxiliary monitoring terminal display is connected with the cab auxiliary monitoring terminal host, and the bridge control system display is connected with the bridge control system host.
3. A wiper controller with a network interface, comprising: wiper control module, wiper control panel, distributed controller, wiper signal output module, centralized control CAN-bus interface module, centralized control module, CAN-bus, navigation auxiliary control device, wiper CAN-bus interface module and centralized control Ethernet module, wherein the wiper control panel is installed on the cab auxiliary control cabinet, the wiper control module is connected to the CAN-bus through the wiper CAN-bus interface module and is in communication connection with the wiper control panel, the navigation auxiliary control device and the centralized control module are respectively connected to the CAN-bus, the centralized control module connects the wiper control module and the navigation auxiliary control device on the CAN-bus through the centralized control CAN-bus interface module, the centralized control module is connected with the bridge control system host and the cab auxiliary monitoring terminal host through the centralized control Ethernet module, the wiper control module is in signal connection with a wiper through the wiper signal output module, the distributed controller is installed in a cab or a cabin, and the distributed controller is connected with the wiper control module through a signal line.
4. A wiper controller with a network interface as set forth in claim 3 wherein: the wiper control module is connected with a centralized control module connected with a centralized control CAN-bus interface module on a CAN-bus through a wiper CAN-bus interface module.
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CN201921098384.XU CN210199541U (en) | 2019-07-15 | 2019-07-15 | Wiper controller with network interface |
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CN201921098384.XU CN210199541U (en) | 2019-07-15 | 2019-07-15 | Wiper controller with network interface |
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