CN211015489U - Electronic stop board - Google Patents

Abstract

The embodiment of the application discloses an electronic stop board. The station board comprises a station board main body, wherein the station board main body is provided with an integrated controller, a first function module using an RS485 bus protocol, a second function module using a corresponding standard protocol and a patch panel; the centralized controller is directly butted with the first functional module through an RS485 bus; the centralized controller passes through the first end of RS485 bus butt joint keysets, and the second end butt joint of keysets is the second function module, and the keysets is used for the conversion of RS485 bus protocol and corresponding standard protocol to make centralized controller and second function module communicate. The technical scheme that this application embodiment provided can make centralized control ware and various function module realize communication compatibility to this when using different communication protocol's function module access control circuit, can avoid the adjustment repeatedly of centralized control ware embedded program, and through using the keysets, avoid carrying out numerous and diverse adjustment to control circuit's wiring, make things convenient for the access of function module with this, reduce the cost.

Description

Electronic stop board

Technical Field

The embodiment of the application relates to the technical field of public transport equipment, in particular to an electronic stop board.

Background

The bus station is a public facility specially constructed for waiting passengers, provides a waiting place for people, and provides convenience for the passengers to wait. In order to facilitate passengers to know the bus information in real time, an electronic bus stop board is arranged at the bus stop and used for displaying the bus arrival information. Currently, each functional component of the electronic stop board is controlled by an integrated controller. Typically, each component is in signal connection with the centralized controller using a conventional star connection. Due to different functional requirements on the electronic stop board, when a certain functional module is required to be newly added, due to the difference of communication protocols, the wiring of the control circuit of the integrated controller inside the electronic stop board needs to be adjusted, and the embedded program of the integrated controller is adjusted at the same time, so that the wiring of the integrated controller is complicated, and the cost is increased.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an electronic stop board, which can be convenient for the access of functional components and avoid complex wiring.

The embodiment of the application provides an electronic stop board, which comprises a stop board main body, wherein the stop board main body is provided with an integrated controller, a first function module using an RS485 bus protocol, a second function module using a corresponding standard protocol and a patch panel;

the centralized controller is directly butted with the first functional module through an RS485 bus;

the centralized controller is in butt joint with a first end of the adapter plate through an RS485 bus, a second end of the adapter plate is in butt joint with the second function module, and the adapter plate is used for conversion between an RS485 bus protocol and a corresponding standard protocol, so that the centralized controller is communicated with the second function module.

Preferably, the first function module comprises an L CD player, a temperature control system and a L ED display screen.

Preferably, the second function module comprises a lighting system, a battery pack and a smart meter.

Preferably, the adapter board comprises an MCU, an RS485 bus protocol interface module and a corresponding standard protocol interface module;

the MCU is in butt joint with the RS485 bus protocol interface module and the standard protocol interface module and is used for communication protocol conversion; the RS485 bus protocol interface module is also in butt joint with the first end of the adapter plate, and the standard protocol interface module is also in butt joint with the second end of the adapter plate.

Preferably, the standard protocol interface module includes an IO interface, an RS232 interface, and/or a CAN interface.

Preferably, the adapter plate further comprises an RS485 interface, a first end of the RS485 interface is in butt joint with the MCU, and a second end of the RS485 interface is used for butt joint with a new access function module using an RS485 bus protocol.

Preferably, the adapter board further comprises a coding switch, and the coding switch is used for defining address bits for accessing the functional modules so as to distinguish the accessed functional modules.

Preferably, the system further comprises a voice playing module, wherein the voice playing module is in butt joint with the centralized controller and is used for performing voice playing of the arrival information.

Preferably, the system further comprises a ZigBee module, wherein the ZigBee module is in signal connection with the centralized controller and is used for transmitting station-to-station information of adjacent stations.

Preferably, the system further comprises a video acquisition module, wherein the video acquisition module is in butt joint with the centralized controller and is used for acquiring video data according to the control signal of the centralized controller.

The electronic station board that this application embodiment provided, it is direct with first function module butt joint through the RS485 bus with centralized control ware to through the first end of RS485 bus butt joint keysets, the second end butt joint second function module of keysets, carry out the conversion of RS485 bus agreement and corresponding standard protocol through the keysets, so that centralized control ware and second function module communicate. By adopting the technical means, the communication compatibility of the integrated controller and various functional modules can be realized, so that when the functional modules with different communication protocols are accessed to the control circuit, the repeated adjustment of the embedded program of the integrated controller can be avoided, and the complicated adjustment of the wiring of the control circuit is avoided by using the adapter plate, so that the access of the functional modules is facilitated, and the cost is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an electronic stop board provided in an embodiment of the present application;

fig. 2 is an external structural schematic view of an electronic stop board main body provided in an embodiment of the present application;

FIG. 3 is a schematic diagram illustrating the connection of an electronic bus stop board function module according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of another electronic stop board structure provided in the embodiments of the present application;

fig. 5 is a schematic structural diagram of an interposer provided in an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, specific embodiments of the present application will be described in detail with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present application are shown in the drawings. The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that all other embodiments obtained by a person of ordinary skill in the art without any creative work belong to the scope of the present invention. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate. Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art. Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The application provides an electronic station board aims at through setting up the keysets between centralized control ware and function module, and the keysets is used for carrying on the standard protocol that the function module used and the protocol conversion between the RS485 bus protocol to this realizes the communication between centralized control ware and the function module. When a new function module is needed, if the function module of the RS485 bus protocol is used, the RS485 bus can be directly accessed, if the corresponding standard protocol is used, the adapter plate can be used for protocol conversion and accessing the RS485 bus, so that the situation that the embedded program is repeatedly adjusted when the function module is accessed by the centralized controller can be avoided, and complicated wiring of an internal circuit is reduced. Compared with the existing electronic stop board, the internal centralized control circuit is generally wired by adopting a fixed embedded program and a star-type wiring mode when being set. Like this when the new access function module of needs, need adjust circuit wiring, mounting hole, embedded program etc. multiple aspect, whole process is loaded down with trivial details consuming time, increases time and human cost on foot. Based on this, provide an electron station board of this application embodiment to solve the loaded down with trivial details technical problem of traditional electron station board access function module flow.

Example (b):

fig. 1 shows a schematic structural view of an electronic stop board provided in an embodiment of the present application, referring to fig. 1, the electronic stop board specifically includes a stop board main body, and the stop board main body is as shown in fig. 2, and the stop board main body is provided with an integrated controller 110, a first function module 120 using an RS485 bus protocol, a second function module 130 using a corresponding standard protocol, and an adaptor board 140; the centralized controller 110 is directly connected with the first functional module 120 through an RS485 bus; the centralized controller 110 is connected to a first end of the adapter board 140 through an RS485 bus, a second end of the adapter board 140 is connected to the second function module 130, and the adapter board 140 is used for converting an RS485 bus protocol and a corresponding standard protocol, so that the centralized controller 110 communicates with the second function module 130.

By providing the adapter board 140, the circuit of the adapter board 140 is configured with a chip for protocol conversion, and converts the standard protocol used by the second functional module 130 into an RS485 bus protocol suitable for RS485 bus transmission. For example, when the second function module 130 corresponding to the RS232 communication protocol uploads data (such as device status information) to the centralized controller 110, the data of the RS232 communication protocol is converted into data of an RS485 bus protocol by the chip of the adapter board 140, and is uploaded to the centralized controller 110 through the RS485 bus. Similarly, when the centralized controller 110 issues data (such as control information) to the second functional modules 130, the adapter board 140 converts the data of the RS485 bus protocol into data using the RS232 communication protocol, and issues the data to the corresponding second functional modules 130. Therefore, the electronic stop board can be flexibly connected into various functional modules, the connection operation is simple, and the unified control of the centralized controller 110 is realized.

In the embodiment of the present invention, the first functional module 120 is a functional module that uses the RS485 bus protocol for data transmission, and may be directly connected to the RS485 bus and directly connected to the centralized controller 110, while the second functional module 130 is a functional module that uses a standard communication protocol for data transmission, and therefore, the protocol conversion is performed using the adapter board 140 to achieve communication compatibility, wherein the L CD player host directly interfaces the centralized controller 110 via the RS485 bus, and may accept the RS485 command sent by the centralized controller 110 to control the playing host of the battery pack 54 CD to start and stop, and upload operating state information to the centralized controller 110 in real time, and the temperature control system directly interfaces the centralized controller 110 via the RS485 bus, may accept the RS485 command sent by the centralized controller 110 to control the system to start and stop, and may also reduce overhead of the battery pack acquisition by directly uploading the adapter controller 110, and may be added to the centralized controller 110 in a manner that the adapter board 110 is compatible with the master bus, and only need to increase the operating data acquisition rate of the adapter board 110, and reduce the overhead of the master controller 110, and add to the master controller 110, and to the master a master controller 110.

It should be noted that, in practical applications, the lighting system, the L CD player host, the temperature control system, and the L ED display screen are usually functional modules that are required by the electronic stop board, and they are used as standard slave devices to interface with the host centralized controller 110, and correspond to functional modules such as a battery pack and a smart meter, which are unnecessary functional modules of the electronic stop board.

In one embodiment, the electronic station board further comprises a solar photovoltaic panel group, and the solar photovoltaic panel group generates electricity through solar energy and stores electric energy in the battery pack, so that the energy-saving and environment-friendly effects of the electronic station board are achieved.

In one embodiment, the electronic stop board is further provided with an alarm module, and the alarm module can be used for monitoring and alarming in power failure, short circuit, module damage and the like so as to facilitate better operation and maintenance of the electronic stop board.

In one embodiment, referring to fig. 4, a switch board 140 may be disposed corresponding to all newly connected functional modules, so as to further facilitate the wiring of the newly connected functional modules of the electronic bus stop. It should be noted that, in practical applications, if a plurality of protocol conversion programs are burned into a chip of the interposer 140 and a plurality of corresponding communication interfaces are provided, the interposer 140 can be accessed to a plurality of functional modules.

Further, referring to fig. 5, a schematic structural diagram of the interposer 140 is provided, wherein the interposer 140 includes an MCU, an RS485 bus protocol interface module, and a corresponding standard protocol interface module; the MCU is in butt joint with the RS485 bus protocol interface module and the standard protocol interface module, the RS485 bus protocol interface module is also in butt joint with the first end of the adapter plate 140, and the standard protocol interface module is also in butt joint with the second end of the adapter plate 140.

When the functional module needs to upload data to the centralized controller 110, the MCU of the adapter board 140 accesses the data uploaded by the corresponding functional module through the standard protocol interface module, further performs communication protocol conversion on the data through the MCU to obtain data of the RS485 bus protocol, and uploads the data to the centralized controller 110 by docking the RS485 bus through the RS485 bus protocol interface module. When the centralized controller 110 issues the control data to the corresponding functional module, the MCU of the adapter board 140 interfaces the RS485 bus to access the control data through the RS485 bus protocol interface module, converts the data of the RS485 bus protocol into the corresponding standard protocol data, and issues the data to the corresponding functional module through the standard protocol interface module.

Furthermore, the standard protocol interface module comprises an IO interface, an RS232 interface and/or a CAN interface. It CAN be understood that the IO interface, the RS232 interface, and the CAN interface are common interfaces for communication between devices, and by setting the interfaces, the communication compatibility between the corresponding functional module and the centralized controller 110 CAN be achieved. Moreover, according to actual needs, the adapter board 140 may further be provided with other corresponding interfaces to adaptively access the functional module using the related communication protocol, so as to implement the conversion of the communication protocol.

In addition, the adapter board 140 further includes an RS485 interface, a first end of the RS485 interface is in butt joint with the MCU, and a second end is used for butt joint with a new access function module using an RS485 bus protocol. It is understood that, in practical applications, if the newly-accessed function module uses the RS485 communication protocol, it can be directly accessed to the RS485 bus to establish a signal connection with the centralized controller 110. However, in order to avoid the modification of the RS485 bus interface, an RS485 interface may be provided on the adapter board 140, and the function module is connected to the RS485 network through the adapter board 140.

On the other hand, the adapter board 140 further includes a coding switch, and the coding switch is used for defining address bits for accessing the functional modules, so as to distinguish each accessed functional module. By setting the coding switch, when the MCU of the adapter board 140 uploads or issues data, the data is issued to the corresponding functional module or is protocol-converted using the corresponding protocol conversion program and uploaded to the centralized controller 110 through the RS485 bus according to the address bit of the functional module.

In one embodiment, the electronic stop board further includes a voice playing module, and the voice playing module is connected to the centralized controller 110 for playing the arrival information in voice. Through setting up the voice broadcast module, when backstage (public transport management platform) issued line information or propaganda information to electronic stop borad centralized control ware 110, electronic stop borad centralized control ware 110 started this voice broadcast module, carries out voice broadcast to the vehicle information or the propaganda information that are about to arrive at the station.

In one implementation, the electronic station board further includes a ZigBee module, and the ZigBee module is in signal connection with the centralized controller 110 and is used for transmitting station-to-station information of adjacent stations. It can be understood that the electronic stop board generally corresponds to the bus stop, and two adjacent bus stops are generally within 3000 meters, use zigBee module can realize the electronic stop board communication between two adjacent bus stops. The bus stop system corresponds to the front bus stop and the rear bus stop, the running position condition of the current bus can be obtained by receiving the arrival information of the rear bus stop, so that passengers can know the current position condition of the bus in real time, and the riding experience is optimized. For example, when a certain bus arrives at a next stop, the corresponding electronic stop board publishes the arrival information on the electronic stop board screen, and further sends the information to the electronic stop board of the previous bus stop, and after the electronic stop board receives the information, "XX is still a stop away from the current stop" can be displayed on the display screen of the electronic stop board. Furthermore, the arrival information jumps among the stations through the ZigBee module, so that the electronic station boards can broadcast the position information of each bus in real time. It can be understood that, in practical use, reporting of the vehicle position information by using GSM, 4G network, etc. may be relatively accurate, but the network is relatively unstable and the cost is relatively high. Therefore, the embodiment of the application adopts ZigBee to transmit the station reporting information, so that the cost can be further saved.

In an embodiment, the system further includes a video capture module, where the video capture module is interfaced with the centralized controller 110 and configured to capture video data according to a control signal of the centralized controller 110. The video acquisition module can monitor the real-time operation condition of the station, and is convenient for operation and maintenance personnel to monitor and manage.

As described above, the RS485 bus is directly connected to the first functional module 120, and the RS485 bus is connected to the first end of the adapter plate 140, the second end of the adapter plate 140 is connected to the second functional module 130, and the adapter plate 140 converts the RS485 bus protocol and the corresponding standard protocol, so that the centralized controller 110 communicates with the second functional module 130. By adopting the technical means, the integrated controller 110 can realize communication compatibility with various functional modules, so that when the functional modules with different communication protocols are accessed to the control circuit, repeated adjustment of an embedded program of the integrated controller 110 can be avoided, and complicated adjustment of the wiring of the control circuit is avoided by using the adapter plate 140, so that the access of the functional modules is facilitated, and the cost is reduced.

The foregoing is considered as illustrative of the preferred embodiments of the invention and the technical principles employed. The present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.

Claims (10)

1. An electronic stop board is characterized by comprising a stop board main body, wherein the stop board main body is provided with an integrated controller, a first function module using an RS485 bus protocol, a second function module using a corresponding standard protocol and a patch panel;

the centralized controller is directly butted with the first functional module through an RS485 bus;

the centralized controller is in butt joint with a first end of the adapter plate through an RS485 bus, a second end of the adapter plate is in butt joint with the second function module, and the adapter plate is used for conversion between an RS485 bus protocol and a corresponding standard protocol, so that the centralized controller is communicated with the second function module.

2. The electronic stop board of claim 1, wherein the first function module comprises an L CD player, a temperature control system and a L ED display screen.

3. The electronic stop sign according to claim 1, wherein the second functional module comprises a lighting system, a battery pack and a smart meter.

4. The electronic stop board according to claim 1, wherein the adapter board comprises an MCU, an RS485 bus protocol interface module and a corresponding standard protocol interface module;

the MCU is in butt joint with the RS485 bus protocol interface module and the standard protocol interface module and is used for communication protocol conversion; the RS485 bus protocol interface module is also in butt joint with the first end of the adapter plate, and the standard protocol interface module is also in butt joint with the second end of the adapter plate.

5. An electronic stop board according to claim 4, characterized in that the standard protocol interface module comprises an IO interface, an RS232 interface and/or a CAN interface.

6. The electronic stop board according to claim 4, wherein the adapter board further comprises an RS485 interface, a first end of the RS485 interface is in butt joint with the MCU, and a second end of the RS485 interface is used for being in butt joint with a new access function module using an RS485 bus protocol.

7. The electronic stop board according to claim 4, wherein the adapter board further comprises a coding switch, and the coding switch is used for defining address bits of the accessed functional modules so as to distinguish the accessed functional modules.

8. The electronic stop board according to claim 1, further comprising a voice playing module, wherein the voice playing module is docked with the centralized controller for performing voice playing of arrival information.

9. The electronic stop board according to claim 1, further comprising a ZigBee module, wherein the ZigBee module is in signal connection with the centralized controller, and is used for transmitting station-to-station information of adjacent stations.

10. The electronic stop board according to claim 1, further comprising a video capture module, wherein the video capture module is docked with the centralized controller for capturing video data according to a control signal of the centralized controller.

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