CN214375892U - Intelligent platform control device and intelligent bus system applying same - Google Patents

Abstract

The utility model relates to an intelligent platform control device and an intelligent public traffic system applying the same, which comprises a main control panel, a control panel and a control panel, wherein the main control panel is used for judging whether each device is opened or closed according to control conditions and controlling the opening or closing of each device; the network communication module is used for network communication connection between the main control panel and the server; and the server is used for sending the new control conditions to the main control board. The utility model discloses a set up network communication module for the master control board as the next machine can directly be connected with the server communication, has realized long-range data modification, reduces the number of times and the expense that maintainer scene was revised. The main control board uploads the collected running state and environment variable data of each device to the server at regular time, the data format is processed by the server and then the data format is stored in the database, and maintainers can preliminarily judge the running state of each device in the public transportation system according to the data and can replace field patrol.

Description

Intelligent platform control device and intelligent bus system applying same

Technical Field

The utility model discloses to the controller, in particular to intelligence platform controlling means and intelligent public transit system.

Background

The intelligent public transportation system mainly comprises subject parts such as electronic stop boards, intelligent stations and the like, is dispersed at each bus station and is distributed throughout the whole city. The intelligent public traffic system for effectively and uniformly controlling the whole city is bound to be independent of a network and a computer system, and the single chip microcomputer serving as a microcomputer is very suitable controller equipment.

At present, each device in the public transport system, such as a liquid crystal screen, an LED screen, an industrial personal computer and the like used for displaying, needs to be controlled to be started or closed at a fixed time point through a single chip microcomputer controller; exhaust fans, heating devices, etc. need to be turned on and off by a single-chip microcomputer controller based on temperature conditions. However, most of the single chip controllers run offline, time or temperature variables serving as judgment bases are programmed into an EEPROM of the controller in advance, operation control is performed according to a real-time clock module and a temperature sensor, and if a control variable is modified, a data value stored in the EEPROM or a set value in a code needs to be modified, which is somewhat complicated.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main objective is for solving the technical problem among the prior art, provides one kind can long-rangely modify data, reduces the intelligent platform controlling means that maintainer scene was modified.

Another main objective of the present invention is to provide an intelligent bus system using the intelligent platform control device.

In order to achieve the above purpose, the technical scheme of the utility model is that:

an intelligent platform control device comprises a main control panel, a control panel and a control panel, wherein the main control panel is used for judging whether each device is started or closed according to control conditions and controlling the start or the close of each device;

the network communication module is used for network communication connection between the main control panel and the server;

and the server is used for sending the new control conditions to the main control board.

And the database is connected with the server and used for storing the state data of each device uploaded by the main control board and the control condition instructions issued by the staff.

And the user client is connected with the server and used for providing a visual interface for remote control for the staff.

Furthermore, the main control panel includes single chip microcomputer controller, a plurality of relays that establish ties with each equipment power supply circuit, single chip microcomputer controller is with a plurality of the control end circuit connection of relay.

Further, the single chip microcomputer controller is in communication connection with the industrial personal computer through the serial port communication module.

Further, the main control board also comprises a real-time clock module which is used for transmitting real-time data to the single chip microcomputer controller;

and the real-time clock module is in circuit connection with the singlechip controller.

Furthermore, the main control panel also comprises a signal switch module which is used for connecting the single chip microcomputer controller and collecting data of each sensor to the single chip microcomputer controller.

Further, the main control panel still includes bluetooth module for remove the communication connection between end APP and the single chip microcomputer controller.

Further, the single chip microcomputer controller is used for uploading the collected data to the server at regular time.

The utility model discloses a another technical scheme is:

an intelligent bus system comprises the intelligent platform control device.

To sum up, an intelligence platform controlling means and applied this controlling means's intelligent public transit system through setting up network communication module for the master control board as the next machine can directly be connected with the server communication, has realized long-range data modification, reduces number of times and the expense that maintainer field revised. The main control board uploads the collected running state and environment variable data of each device to the server at regular time, the data format is processed by the server and then the data format is stored in the database, and maintainers can preliminarily judge the running state of each device in the public transportation system according to the data and can replace field patrol.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a complementary diagram of the intelligent station of the present invention;

fig. 3 is a schematic structural diagram of the main control panel of the present invention;

fig. 4 is a circuit diagram of the clock chip of the present invention.

As shown in fig. 1 to 4, the main control panel 1, the server 2, the database 3, the user client 4, the network communication module 5, the industrial personal computer 6, the liquid crystal display 7, the LED screen 8, the exhaust fan 9, the lighting lamp 10, the network camera 11, the router 12, the platform other equipment 13, the single chip microcomputer controller 14, the relay 15, the real-time clock module 16, the EEPROM17, the serial communication module 18, the signal switch module 19, the temperature sensor 20, the current collection module 21, the light sensor 22, the humidity sensor 23, the decibel sensor 24, the bluetooth module 25, the entrance guard signal 26, the water level information signal 27, the human body induction signal 28, the glass breakage signal 29, the smoke alarm signal 30, and the mobile terminal APP 31.

Detailed Description

The invention will be described in further detail with reference to the following detailed description and accompanying drawings:

in order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, an intelligent platform control device mainly includes a main control board 1, a server 2, a database 3, and a user client 4.

The main control board 1 is used for judging whether each device is turned on or off according to the control conditions and controlling the turning on or off of each device, and the server 2 is used for sending new control conditions to the main control board 1. The main control board 1 is connected with the server 2 through a network communication module 5. The database 3 is used for being connected with the server 2 and storing the state data of each device uploaded by the main control panel 1 and the control condition instructions issued by the staff. The user client is used for being connected with the server 2 and providing a visual interface for remote control for workers.

Before the server 2 does not issue new control conditions, the main control panel 1 judges whether to open or close each device according to the previously set control conditions as judgment basis, when the new control conditions need to be set, a worker edits the new control conditions through the user client 4, data is transmitted to the server 2, the server 2 converts the data format, forms communication data and transcodes uploading data, and then transmits the data to the main control panel 1, and the main control panel 1 takes the new control conditions as judgment basis.

Based on the technical scheme, the intelligent platform control device is provided with the network communication module, so that the main control panel serving as the lower computer can be directly in communication connection with the server, remote data modification is realized, and the frequency and cost of field modification of maintenance personnel are reduced.

As shown in fig. 2, the main control board 1 mainly controls the on/off of an industrial personal computer 6, a liquid crystal display 7, an LED screen 8, an exhaust fan 9, an illumination lamp 10, a network camera 11, a router 12, or other platform devices 13 in the intelligent platform, and the power supply of each device is controlled by the main control board 1.

As shown in fig. 3, the main control board 1 mainly includes a single chip microcomputer controller 14, a relay 15 connected to the single chip microcomputer controller 14, a real-time clock module 16, an EEPROM (Electrically Erasable and Programmable read only memory) 17, a serial communication module 18, a signal switch module 19, a bluetooth module 25, and the like.

The relays 15 are respectively connected in series in the power supply circuit of each device, and the control ends of the relays 15 are in circuit connection with the singlechip controller 14. The on-off control of each device is realized by controlling the on-off of the relay.

Taking the control of the liquid crystal screen 7 as an example, when the time reaches the time that the liquid crystal screen 7 stored in the EEPROM17 is opened for a specified time, the single chip microcomputer controller 14 controls the liquid crystal screen 7 and the relay coil of the industrial personal computer 2 to be powered on and opened, and the industrial personal computer 2 pushes information to the liquid crystal screen 7. When the liquid crystal display 7 needs to be changed for starting for a specified time, a worker sends a new control condition to the single chip microcomputer controller 14 through the server 2, the single chip microcomputer controller 14 stores the new control condition in the EEPROM17, and the original control condition that the liquid crystal display 7 is started for the specified time is covered. In this embodiment, the control conditions are not limited to time and temperature, but may be expanded according to different devices controlled by the single-chip controller 14, and are not limited to the public transportation system.

The single chip microcomputer controller 14 is in communication connection with the industrial personal computer 6 through the serial port communication module 18, and the industrial personal computer 6 is used for being connected with all devices and controlling the operation of all the devices. The single chip microcomputer controller 14 and the industrial personal computer 6 carry out necessary communication in working time, and the working state data of each device is collected.

The real-time clock module 16 is used for transmitting real-time data to the single chip microcomputer controller 14, and the real-time clock module 16 is in circuit connection with the single chip microcomputer controller 14. In this embodiment, the real-time clock module 16 is a HYM8365 clock chip, provides accurate time for the single chip microcomputer controller 14, and compares with the timer of the single chip microcomputer controller 14 itself, and the precision of the clock chip is higher. As shown in fig. 4, a super capacitor E104 of 0.2F is added to provide power for the clock chip, so as to ensure that the controller can maintain normal operation of the clock chip when the controller is powered off, and prevent the power-off clock chip from timing and clearing.

The signal switch module 19 is used for connecting the single chip microcomputer controller 14, collecting data of each sensor, performing data conversion, and transmitting the data to the single chip microcomputer controller 14. The sensors include, but are not limited to, a temperature sensor 20, a current collection module 21, a light sensor 22, a humidity sensor 23, and a decibel sensor 24. The single chip microcomputer controller 14 may also receive an access control signal 26, a water level information signal 27, a human body induction signal 28, a glass break signal 29, a smoke alarm signal 30, etc.

The single chip microcomputer controller 14 uploads the acquired data and the working state data of each device acquired from the industrial personal computer 6 to the server 2 at regular time, the data are stored by the database 3, and after-sales maintenance personnel can judge the health state of the current bus system according to the uploaded data.

Bluetooth module 25 is used for removing the communication connection between end APP31 and the single chip microcomputer controller 14, and the staff also can utilize the cell-phone to carry out the debugging setting of master control board when regularly patrolling, alleviates the portable computer as the inconvenient of debugging equipment.

An intelligent bus system comprises the intelligent platform control device.

To sum up, an intelligence platform controlling means and intelligent public transit system, through setting up network communication module for the master control board as the next machine can directly be connected with the server communication, has realized long-range data modification, reduces number of times and the expense that maintainer field modified. The main control board uploads the collected running state and environment variable data of each device to the server at regular time, the data format is processed by the server and then the data format is stored in the database, and maintainers can preliminarily judge the running state of each device in the public transportation system according to the data and can replace field patrol.

Similar solutions can be derived from the solution given in the figures, as described above. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention are still within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides an intelligent platform controlling means which characterized in that: the system comprises a main control panel, a control panel and a control panel, wherein the main control panel is used for judging whether each device is started or closed according to control conditions and controlling the starting or closing of each device;

the network communication module is used for network communication connection between the main control panel and the server;

and the server is used for sending the new control conditions to the main control board.

2. The intelligent platform control device according to claim 1, wherein: the system also comprises a database which is connected with the server and used for storing the state data of each device uploaded by the main control panel and the control condition instructions issued by the staff.

3. The intelligent platform control device according to claim 1, wherein: the system also comprises a user client which is used for being connected with the server and providing a visual interface for remote control for workers.

4. The intelligent platform control device according to claim 1, wherein: the main control panel comprises a single chip microcomputer controller and a plurality of relays connected with power supply loops of the equipment in series, and the single chip microcomputer controller is connected with the control end circuits of the relays in series.

5. The intelligent platform control device according to claim 4, wherein: the single-chip microcomputer controller is in communication connection with the industrial personal computer through the serial port communication module.

6. The intelligent platform control device according to claim 4, wherein: the main control panel also comprises a real-time clock module which is used for transmitting real-time data to the single chip microcomputer controller;

and the real-time clock module is in circuit connection with the singlechip controller.

7. The intelligent platform control device according to claim 4, wherein: the main control panel also comprises a signal switch module which is used for connecting the single chip microcomputer controller and collecting data of each sensor to the single chip microcomputer controller.

8. The intelligent platform control device according to claim 4, wherein: the main control panel still includes bluetooth module for remove the communication connection between end APP and the single chip microcomputer controller.

9. The intelligent platform control device according to claim 4, wherein: the single chip microcomputer controller is used for uploading the acquired data to the server at regular time.

10. The utility model provides an intelligence public transit system which characterized in that: comprising the intelligent platform control device according to any one of claims 1 to 9.

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