CN110913367A - Special device for bus management - Google Patents

Abstract

The invention discloses a special device for bus management, which comprises a host and a prompter; the host comprises a vehicle-mounted 12V power supply, a charging management module, a standby lithium battery, a hardware watchdog power supply management module, a host control module, a GSM control module, a GPS control module, a prompter Bluetooth control module, an acceleration sensor, an indicator lamp control module and a mobile phone Bluetooth control module; the prompter comprises a solar charging panel, a USB charging port, a prompter power management module, a prompter main control module, an indicator lamp control module, a buzzer control module, a battery electric quantity monitoring module and a Bluetooth control module. The invention has low hardware cost, and the driver can realize the functions of automatically identifying the identity of getting on the bus and automatically removing the identity identification of getting off the bus as long as the Bluetooth switch of the mobile phone is not turned off. The prompter is used as an auxiliary product, and reminds a driver to turn on a mobile phone Bluetooth switch in an audible and visual alarm mode.

Description

Special device for bus management

Technical Field

The invention relates to bus management equipment, in particular to a special device for bus management.

Background

The management of the bus is always a relatively troublesome work of a unit, firstly, because the using personnel of the bus is not fixed, drivers who trace the violation are relatively troublesome when the vehicle breaks rules and regulations, and the phenomenon that the drivers tear skins mutually easily occurs. Secondly, because the driver is not fixed, the action of driving the vehicle roughly and violently often happens, leads to the loss that the bus uses for one year and is equal to the private car and uses for three years. Therefore, how to easily identify the driver identity is very important for products that can possess the bus management that the vehicle is responsible for the person and the poor driving behavior is responsible for the person.

The existing products for identifying the identity of the driver have the scheme that the problems are solved in a mode of swiping a card by the driver getting on the vehicle and a mode of identifying by fingerprints or a camera. Although the hardware cost of the scheme of swiping the card on the bus of the driver is low, the problem that the driver forgets to carry the identification card and the management (card supplementing and card opening) of the identification card is complex is solved. The scheme of identifying the identity of the driver by the fingerprint or the camera has the problems of high hardware cost and difficult commercial popularization.

Disclosure of Invention

The invention aims to provide a special device for bus management, which is simple in operation, low in cost and comprehensive in function.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows: the special bus management device comprises a host and a prompter; the host comprises a vehicle-mounted 12V power supply, a charging management module, a standby lithium battery, a hardware watchdog power supply management module, a host control module, a GSM control module, a GPS control module, a prompter Bluetooth control module, an acceleration sensor module, an indicator lamp control module and a mobile phone Bluetooth control module; the vehicle-mounted 12V power supply is electrically connected with the charging management module, the charging management module is electrically connected with the standby lithium battery, the vehicle-mounted 12V power supply and the standby lithium battery are also electrically connected with the hardware watchdog power supply management module respectively, the hardware watchdog power supply management module is electrically connected with the host control module, the GSM control module, the GPS control module and the prompter Bluetooth control module are arranged in the host control module, and the host control module is also electrically connected with the acceleration sensor, the indicator lamp control module and the mobile phone Bluetooth control module; the vehicle-mounted 12V power supply is used for converting the vehicle-mounted power supply into a 4.2V power supply to be supplied to the back-end circuit; the charging management module is used for charging management for the standby lithium battery; the standby lithium battery is used for providing power for the host under the condition that the vehicle-mounted power supply is disconnected so as to support the host to continue working and complete the power failure alarm function; the hardware watchdog power supply management module is used for realizing hardware reset and restart when the program of the host control module is abnormal; the host control module is used for realizing main logic control and exception handling of the host; the GSM control module is used for being connected with the operation server to realize a data communication function; the GPS control module is used for completing ephemeris loading and providing real-time GPS positioning data; the prompter Bluetooth control module is used for being connected with a prompter and controlling the prompter to alarm and remind; the acceleration sensor module is used for detecting an acceleration value and realizing the detection of the motion state of the vehicle by combining the positioning data of the GPS control module; the indicating lamp control module is used for indicating a master control working state, namely a connection server state and a GPS positioning state; the mobile phone Bluetooth control module is used for carrying out Bluetooth automatic connection pairing with a mobile phone so as to realize entrance identification;

the prompter comprises a solar charging panel, a USB charging port, a prompter power management module, a prompter main control module, an indicator lamp control module, a buzzer control module, a battery electric quantity monitoring module and a Bluetooth control module; the solar charging panel and the USB charging port are respectively and electrically connected with the prompter power management module, the power management module is electrically connected with the prompter main control module, and the prompter main control module is respectively and electrically connected with the indicator lamp control module, the buzzer control module, the battery electric quantity monitoring module and the Bluetooth control module; the solar charging panel is used for charging the prompter with solar energy; the USB charging port is used for providing a USB charging function for the prompter, and the USB charging function is used in an emergency under the environment without solar irradiation for a long time; the power supply management module is used for managing the power supplies of the solar charging panel and the USB charging port and providing a 3.3V power supply for the main control of the prompter; the prompter main control module is internally provided with a Bluetooth control module and is used for communicating with the host prompter Bluetooth control module, receiving and sending instructions with the host, realizing the logic control and exception handling of the main body of the device and carrying out Bluetooth data communication with the host through the Bluetooth control module; the indicator lamp control module and the buzzer control module are used for indicating the working state of the equipment and warning; the battery electric quantity detection module is used for monitoring the electric quantity of the battery and reporting the electric quantity to the host through Bluetooth.

Further, the main body logic control and exception handling comprises a server connection task, a GPS positioning task, a prompter control task and a Bluetooth connection driver mobile phone task.

Further, the main body logic control and exception handling comprises a task of connecting the host through Bluetooth and receiving an instruction of the host to prompt a driver to turn on a Bluetooth switch of the mobile phone. The Bluetooth is used as a communication mode with the host, and other low-power short-distance communication modes such as zigbee, wifi, low-frequency awakening and the like can also be used.

Further, the vehicle-mounted 12V power supply also has a normal power supply and standby power supply switching function.

The invention has low hardware cost, and the driver can realize the functions of automatically identifying the identity (entering identification) when getting on the bus and automatically removing the identity identification when getting off the bus as long as the Bluetooth switch of the mobile phone is not turned off. Through the built-in GPS location of hardware and GSM communication module, combine server software platform and cell-phone APP function, not only realize the record of vehicle location and orbit, also realized the record function of driver's driving orbit. And data basis is provided for vehicle violation accountability and poor driving behavior accountability of the driver in the unit day. In order to avoid the situation that a driver forgets to turn on the Bluetooth switch when getting on the bus through a mobile phone, the prompter is used as an auxiliary product and reminds the driver to turn on the mobile phone Bluetooth switch in an audible and visual alarm mode. The built-in battery is used for power supply and solar charging, and the wiring with the original vehicle is not needed.

Drawings

Fig. 1 is a schematic flow chart of a prompter in embodiment 1 of the present invention.

Fig. 2 is a flowchart of the host in embodiment 1 of the present invention.

Fig. 3 is a schematic structural diagram of a prompter in embodiment 1 of the present invention.

Fig. 4 is a schematic structural diagram of a host in embodiment 1 of the present invention.

Fig. 5 is a schematic circuit diagram of a prompter in embodiment 1 of the present invention.

Fig. 6 is a schematic circuit diagram of the bluetooth control module of the prompter in fig. 5.

Fig. 7 is a schematic circuit diagram of the indicator lamp control module of fig. 5.

Figure 8 is a schematic circuit diagram of the buzzer control module of figure 5.

Fig. 9 is a schematic circuit diagram of the battery level monitoring module shown in fig. 5.

Fig. 10 is a schematic circuit diagram of the power management module of fig. 5.

Fig. 11 is a schematic circuit diagram of the solar charging panel module in fig. 5.

Fig. 12 is a schematic circuit diagram of the USB charging port module of fig. 5.

Fig. 13 is a schematic circuit diagram of the hardware watchdog power management module of fig. 4.

Fig. 14 is a schematic circuit diagram of the vehicle-mounted 12V power module of fig. 4.

Fig. 15 is a schematic circuit diagram of the charge management module and the spare lithium battery module in fig. 4.

Fig. 16 is a schematic diagram of the main control, GSM control, GPS control, and host bluetooth control circuits in fig. 4.

Fig. 17 is a schematic circuit diagram of the lamp control module of fig. 4.

Fig. 18 is a schematic circuit diagram of the acceleration sensor module of fig. 4.

Fig. 19 is a schematic circuit diagram of the bluetooth control module of the host of fig. 4.

Detailed Description

Example 1

Referring to fig. 1-19, the special device for bus management comprises a host and a prompter; the host comprises a vehicle-mounted 12V power supply, a charging management module, a standby lithium battery, a hardware watchdog power supply management module, a host control module, a GSM control module, a GPS control module, a prompter Bluetooth control module, an acceleration sensor module, an indicator lamp control module and a mobile phone Bluetooth control module; the vehicle-mounted 12V power supply is electrically connected with the charging management module, the charging management module is electrically connected with the standby lithium battery, the vehicle-mounted 12V power supply and the standby lithium battery are also electrically connected with the hardware watchdog power supply management module respectively, the hardware watchdog power supply management module is electrically connected with the host control module, the GSM control module, the GPS control module and the prompter Bluetooth control module are arranged in the host control module, and the host control module is also electrically connected with the acceleration sensor, the indicator lamp control module and the mobile phone Bluetooth control module; the vehicle-mounted 12V power supply is used for converting the vehicle-mounted power supply into a 4.2V power supply to be supplied to the back-end circuit; the charging management module is used for charging management for the standby lithium battery; the standby lithium battery is used for providing power for the host under the condition that the vehicle-mounted power supply is disconnected so as to support the host to continue working and complete the power failure alarm function; the hardware watchdog power supply management module is used for realizing hardware reset and restart when the program of the host control module is abnormal; the host control module is used for realizing main logic control and exception handling of the host; the GSM control module is used for being connected with the operation server to realize a data communication function; the GPS control module is used for completing ephemeris loading and providing real-time GPS positioning data; the prompter Bluetooth control module is used for being connected with a prompter and controlling the prompter to alarm and remind; the acceleration sensor module is used for detecting an acceleration value and realizing the detection of the motion state of the vehicle by combining the positioning data of the GPS control module; the indicating lamp control module is used for indicating a master control working state, namely a connection server state and a GPS positioning state; the mobile phone Bluetooth control module is used for carrying out Bluetooth automatic connection pairing with a mobile phone so as to realize entrance identification;

the prompter comprises a solar charging panel, a USB charging port, a prompter power management module, a prompter main control module, an indicator lamp control module, a buzzer control module, a battery electric quantity monitoring module and a Bluetooth control module; the solar charging panel and the USB charging port are respectively and electrically connected with the prompter power management module, the power management module is electrically connected with the prompter main control module, and the prompter main control module is respectively and electrically connected with the indicator lamp control module, the buzzer control module, the battery electric quantity monitoring module and the Bluetooth control module; the solar charging panel is used for charging the prompter with solar energy; the USB charging port is used for providing a USB charging function for the prompter, and the USB charging function is used in an emergency under the environment without solar irradiation for a long time; the power supply management module is used for managing the power supplies of the solar charging panel and the USB charging port and providing a 3.3V power supply for the main control of the prompter; the prompter main control module is internally provided with a Bluetooth control module and is used for communicating with the host prompter Bluetooth control module, receiving and sending instructions with the host, realizing the logic control and exception handling of the main body of the device and carrying out Bluetooth data communication with the host through the Bluetooth control module; the indicator lamp control module and the buzzer control module are used for indicating the working state of the equipment and warning; the battery electric quantity detection module is used for monitoring the electric quantity of the battery and reporting the electric quantity to the host through Bluetooth. The main body logic control and exception handling comprises a server connection task, a GPS positioning task, a prompter control task and a Bluetooth connection driver mobile phone task. The main body logic control and exception handling comprises a task of connecting the host through Bluetooth and receiving an instruction of the host to prompt a driver to turn on a Bluetooth switch of the mobile phone. The Bluetooth is used as a communication mode with the host, and other low-power short-distance communication modes such as zigbee, wifi, low-frequency awakening and the like can also be used. The vehicle-mounted 12V power supply also has a normal power supply and standby power supply switching function.

The host is responsible for three main functions: firstly, positioning a vehicle. And secondly, controlling a prompter to give an alarm. And thirdly, automatically connecting the mobile phone to realize driver identification. The prompter has the main function of alarming and reminding the abnormal state of the host.

After the host is installed for the first time, the Bluetooth name of the host needs to be modified through app to be the name of the license plate of the installed vehicle.

The driver gets on the bus for the first time and searches the Bluetooth device with the corresponding license plate name by using the app to carry out connection pairing. The host stores the pairing information of the mobile phone of the driver, and simultaneously sends the acquired Bluetooth MAC address and the acquired mobile phone number of the mobile phone to the server for storage. Because the host is connected with the mobile phone as an HID (human interface device), when the driver carries out Bluetooth communication again, the mobile phone of the driver can be automatically connected with the host no matter whether the app is started or not, the host sends the acquired Bluetooth MAC address of the mobile phone to the server, and the server identifies the corresponding driver according to the stored Bluetooth MAC address information table, so that the automatic identification of the identity of the driver is realized. And the host computer informs the prompting device that the vehicle and the robot are matched through the APP, and the state is normal.

If the host does not identify the driver (namely is not connected with the mobile phone of the driver) in the motion state of the vehicle, the host sends alarm information to the prompter through Bluetooth communication to inform the prompter to make corresponding alarm prompt and remind the driver to turn on the Bluetooth switch of the mobile phone, and the driver does not turn on the Bluetooth of the mobile phone after the specified time, the host sends illegal driving alarm information to the server which is slowly turned on.

In the running process of the vehicle, the host continuously detects whether the driver has bad driving behaviors, namely, the bad driving behaviors of rapid acceleration, rapid deceleration and rapid turning, reminds the driver to keep good driving behaviors through the prompter, sends a bad driving behavior message to the server which is slowly opened, and records the bad driving behaviors of the driver. The host computer actively reports the vehicle position information to the server every 10 seconds, simultaneously detects whether the vehicle enters a curve, and uploads the vehicle position information every time the vehicle direction angle changes a certain angle when the vehicle enters the curve, so that the running track is not abrupt. When the vehicle enters the GSM information blind area, the vehicle position information is automatically stored, and the vehicle position information is transmitted after the GSM network is normal.

Claims (4)

1. A special device for bus management comprises a host and a prompter;

the host comprises a vehicle-mounted 12V power supply, a charging management module, a standby lithium battery, a hardware watchdog power supply management module, a host control module, a GSM control module, a GPS control module, a prompter Bluetooth control module, an acceleration sensor module, an indicator lamp control module and a mobile phone Bluetooth control module;

the vehicle-mounted 12V power supply is electrically connected with the charging management module, the charging management module is electrically connected with the standby lithium battery, the vehicle-mounted 12V power supply and the standby lithium battery are also electrically connected with the hardware watchdog power supply management module respectively, the hardware watchdog power supply management module is electrically connected with the host control module, the GSM control module, the GPS control module and the prompter Bluetooth control module are arranged in the host control module, and the host control module is also electrically connected with the acceleration sensor, the indicator lamp control module and the mobile phone Bluetooth control module;

the vehicle-mounted 12V power supply is used for converting the vehicle-mounted power supply into a 4.2V power supply to be supplied to the back-end circuit;

the charging management module is used for charging management for the standby lithium battery;

the standby lithium battery is used for providing power for the host under the condition that the vehicle-mounted power supply is disconnected so as to support the host to continue working and complete the power failure alarm function;

the hardware watchdog power supply management module is used for realizing hardware reset and restart when the program of the host control module is abnormal;

the host control module is used for realizing main logic control and exception handling of the host;

the GSM control module is used for being connected with the operation server to realize a data communication function;

the GPS control module is used for completing ephemeris loading and providing real-time GPS positioning data;

the prompter Bluetooth control module is used for being connected with a prompter and controlling the prompter to alarm and remind;

the acceleration sensor module is used for detecting an acceleration value and realizing the detection of the motion state of the vehicle by combining the positioning data of the GPS control module;

the indicating lamp control module is used for indicating a master control working state, namely a connection server state and a GPS positioning state;

the mobile phone Bluetooth control module is used for carrying out Bluetooth automatic connection pairing with a mobile phone so as to realize entrance identification;

the prompter comprises a solar charging panel, a USB charging port, a prompter power management module, a prompter main control module, an indicator lamp control module, a buzzer control module, a battery electric quantity monitoring module and a Bluetooth control module;

the solar charging panel and the USB charging port are respectively and electrically connected with the prompter power management module, the power management module is electrically connected with the prompter main control module, and the prompter main control module is respectively and electrically connected with the indicator lamp control module, the buzzer control module, the battery electric quantity monitoring module and the Bluetooth control module;

the solar charging panel is used for charging the prompter with solar energy;

the USB charging port is used for providing a USB charging function for the prompter;

the power supply management module is used for managing the power supplies of the solar charging panel and the USB charging port and providing a 3.3V power supply for the main control of the prompter;

the prompter main control module is internally provided with a Bluetooth control module and is used for communicating with the host prompter Bluetooth control module, receiving and sending instructions with the host, realizing the logic control and exception handling of the main body of the device and carrying out Bluetooth data communication with the host through the Bluetooth control module;

the indicator lamp control module and the buzzer control module are used for indicating the working state of the equipment and warning;

the battery electric quantity detection module is used for monitoring the electric quantity of the battery and reporting the electric quantity to the host through Bluetooth.

2. The bus management dedicated device host according to claim 1, wherein: the main body logic control and exception handling comprises a server connection task, a GPS positioning task, a prompter control task and a Bluetooth connection driver mobile phone task.

3. The prompter of special bus management device of claim 1, wherein: the main body logic control and exception handling comprises a task of connecting the host through Bluetooth and receiving an instruction of the host to prompt a driver to turn on a Bluetooth switch of the mobile phone.

4. The prompter of special bus management device of claim 1, wherein: the vehicle-mounted 12V power supply also has a normal power supply and standby power supply switching function.

Images