阅读说明：本技术 一种移动式半自动售票机 (Mobile semi-automatic ticket vending machine ) 是由 周胡彬 周兴 刘亚军 伍宇 桑牧丹 刘文斌 袁嘉骏 袁明柱 徐忠迎 于 2020-05-09 设计创作，主要内容包括：本发明公开了一种移动式半自动售票机,包括主机,分别与主机相连的锂电池、摄像头、读写器、开关板、电源转换模块、触摸显示一体屏、蓝牙打印机、USB分配模块,与读写器相连的天线板,以及给主机供电的充电设备。天线板用于发射射频信号读取票卡信息并将票卡信息传输至读写器,读写器用于对票卡信息实现读出、写入和擦除的操作,并且将票卡信息反馈至主机。触摸显示一体屏用于接收主机传输的视屏信号并将触摸信号发送至主机,主机通过电源转换模块给触摸显示一体屏供电。读写器通过USB分配模块与主机连接,USB分配模块用于实现外接信号的多端口接入主机。(The invention discloses a mobile semi-automatic ticket vending machine which comprises a host, a lithium battery, a camera, a reader-writer, a switch board, a power supply conversion module, a touch display integrated screen, a Bluetooth printer, a USB distribution module, an antenna board and charging equipment, wherein the lithium battery, the camera, the reader-writer, the switch board, the power supply conversion module, the touch display integrated screen, the Bluetooth printer and the USB distribution module are respectively connected with the host, the antenna board is connected with the reader-writer. The antenna board is used for transmitting radio frequency signals to read ticket information and transmit the ticket information to the reader-writer, and the reader-writer is used for realizing reading, writing and erasing operations on the ticket information and feeding the ticket information back to the host. The touch display integrated screen is used for receiving the screen viewing signal transmitted by the host and sending the touch signal to the host, and the host supplies power to the touch display integrated screen through the power supply conversion module. The reader-writer is connected with the host through the USB distribution module, and the USB distribution module is used for realizing the multi-port access of the external signal to the host.)

1. A mobile semi-automatic ticket vending machine is characterized by comprising a host, a lithium battery, a camera, a reader-writer, a switch board, a power supply conversion module, a touch display integrated screen, a Bluetooth printer, a USB distribution module, an antenna board and charging equipment, wherein the lithium battery, the camera, the reader-writer, the switch board, the power supply conversion module, the touch display integrated screen, the Bluetooth printer and the USB distribution module are respectively connected with the host;

the Bluetooth printer is connected with the host through Bluetooth wireless communication and is used for printing a bill; the lithium battery is used for supplying power to the host; the antenna board is used for transmitting radio frequency signals to read ticket information and transmit the ticket information to the reader-writer, and the reader-writer is used for realizing reading, writing and erasing operations on the ticket information and feeding the ticket information back to the host; the touch display integrated screen is used for receiving a video signal transmitted by the host and sending the touch signal to the host, and the host supplies power to the touch display integrated screen through the power supply conversion module; the reader-writer is connected with the host through the USB distribution module, and the USB distribution module is used for realizing the multi-port access of the external signal to the host.

2. The mobile semi-automatic ticket vending machine of claim 1, wherein the reader comprises a Micro Control Unit (MCU), a PHY unit, a communication unit, a power supply unit, a clock storage unit, an expansion platelet and a secret key card assembly, wherein the PHY unit, the communication unit, the power supply unit, the clock storage unit, the expansion platelet and the secret key card assembly are connected with the Micro Control Unit (MCU);

the system comprises a micro control unit MCU, a PHY unit, a power supply unit, a key card assembly and a host, wherein the micro control unit MCU is connected with the host through a USB distribution module, the PHY unit is used for providing a physical interface, the power supply unit is used for supplying power to the micro control unit MCU through the host, and the key card assembly is used for ensuring that a ticket card key is one card and one secret key and is only used in the traffic system; the communication module is used for ticket card information interaction between the MCU and the host, the clock storage unit is used for recording the change time of the user ticket card information, and the expansion small plate is connected with the antenna and then used for reading, writing and erasing the ticket card information.

3. The mobile semi-automatic ticket vending machine according to claim 2, wherein the USB distribution module comprises a main chip, a crystal oscillator circuit, a filter circuit, an indicator light circuit and a level detection circuit connected to the main chip;

the circuit comprises a crystal oscillator circuit, a filter circuit, an indicator light circuit and a level detection circuit, wherein the crystal oscillator circuit is used for generating stable clock frequency, the filter circuit is used for filtering a specific wave band in an access signal, the indicator light circuit is used for displaying whether a USB distribution module is in a working state, and the level detection circuit is used for detecting whether the reader-writer is successfully powered on.

4. The mobile semi-automatic ticket vending machine of claim 3, wherein the master chip is G L850G.

5. The mobile semi-automatic ticket vending machine of claim 4, wherein the antenna board comprises a first capacitor C1, a second capacitor C2, a third capacitor C3, a fourth capacitor C4, a fifth capacitor C5, a first resistor R1, a second resistor R2 and an antenna coil;

the first end of the antenna coil is connected with a first resistor R1, the second end of the antenna coil is connected with a second resistor R2, and a third capacitor C3, a fourth capacitor C4 and a fifth capacitor C5 are respectively connected between the first end and the second end of the antenna coil; the first capacitor C1 and the second capacitor C2 are connected in parallel, one end of the first capacitor is connected to the first end of the antenna coil, and the other end of the first capacitor is a radio frequency signal input end.

6. The mobile semi-automatic ticket vending machine of claim 5, wherein the antenna coil is 550-650mm long.

7. The mobile semi-automatic ticket vending machine of claim 6, wherein the antenna board is a sheet 98mm long and 16mm wide.

8. The mobile semi-automatic ticket vending machine of claim 7, wherein the reader further comprises a buzzer connected to the MCU for prompting successful activation of the reader.

9. The mobile semi-automatic ticket vending machine of claim 8, wherein the charging device comprises a standby mobile power supply and a charger, the charger is used for connecting the charging port of the host computer to charge the host computer when charging, and the standby mobile power supply is used for connecting the charging port of the host computer to charge the host computer when the power is low.

Technical Field

The invention relates to the field of ticket vending machines, in particular to a mobile semi-automatic ticket vending machine.

Background

With the development of the existing transportation network, traveling is more and more convenient, as shown in fig. 1, the equipment adopted by the existing station manual ticket selling is a semi-automatic ticket selling machine, and the equipment comprises an industrial personal computer 1, a passenger display 3, an operator display screen 2, an external card reader 4, a ticket printer 5, a mouse keyboard 6, a power supply box 7, an interphone 8 and the like. The existing semi-automatic ticket vending machine can solve the passenger ticket business problem, but has some defects, such as overlarge occupied area, incapability of moving equipment, overhigh manufacturing cost and the like, and is inconvenient to flexibly solve the ticket business problem, and meanwhile, the equipment is difficult to add or disassemble and cannot be flexibly deployed according to the actual passenger flow.

Therefore, the problem of large occupied area is solved by miniaturizing and integrating the existing semi-automatic ticket vending machine equipment, and the realization of the mobility of the equipment is a technical problem to be solved in the field.

Disclosure of Invention

The invention aims to provide a mobile semi-automatic ticket vending machine, which improves the integration and miniaturization of each part and solves the problems of large occupied area and incapability of moving caused by insufficient integration of the existing semi-automatic ticket vending machine.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a mobile semi-automatic ticket vending machine is characterized by comprising a host, a lithium battery, a camera, a reader-writer, a switch board, a power supply conversion module, a touch display integrated screen, a Bluetooth printer, a USB distribution module, an antenna board and charging equipment, wherein the lithium battery, the camera, the reader-writer, the switch board, the power supply conversion module, the touch display integrated screen, the Bluetooth printer and the USB distribution module are respectively connected with the host;

the Bluetooth printer is connected with the host through Bluetooth wireless communication and is used for printing a bill; the lithium battery is used for supplying power to the host; the antenna board is used for transmitting radio frequency signals to read ticket information and transmit the ticket information to the reader-writer, and the reader-writer is used for realizing reading, writing and erasing operations on the ticket information and feeding the ticket information back to the host; the touch display integrated screen is used for receiving a video signal transmitted by the host and sending the touch signal to the host, and the host supplies power to the touch display integrated screen through the power supply conversion module; the reader-writer is connected with the host through the USB distribution module, and the USB distribution module is used for realizing the multi-port access of the external signal to the host.

Furthermore, the reader comprises a Micro Control Unit (MCU), a PHY unit, a communication unit, a power supply unit, a clock storage unit, an expansion platelet and a secret key card assembly, wherein the PHY unit, the communication unit, the power supply unit, the clock storage unit, the expansion platelet and the secret key card assembly are connected with the MCU;

the system comprises a micro control unit MCU, a PHY unit, a power supply unit, a key card assembly and a host, wherein the micro control unit MCU is connected with the host through a USB distribution module, the PHY unit is used for providing a physical interface, the power supply unit is used for supplying power to the micro control unit MCU through the host, and the key card assembly is used for ensuring that a ticket card key is one card and one secret key and is only used in the traffic system; the communication module is used for ticket card information interaction between the MCU and the host, the clock storage unit is used for recording the change time of the user ticket card information, and the expansion small plate is connected with the antenna and then used for reading, writing and erasing the ticket card information.

Furthermore, the USB distribution module comprises a main chip, a crystal oscillator circuit, a filter circuit, an indicator light circuit and a level detection circuit, wherein the crystal oscillator circuit, the filter circuit, the indicator light circuit and the level detection circuit are connected with the main chip;

the circuit comprises a crystal oscillator circuit, a filter circuit, an indicator light circuit and a level detection circuit, wherein the crystal oscillator circuit is used for generating stable clock frequency, the filter circuit is used for filtering a specific wave band in an access signal, the indicator light circuit is used for displaying whether a USB distribution module is in a working state, and the level detection circuit is used for detecting whether the reader-writer is successfully powered on.

Further, the master chip is G L850G.

Further, the antenna board comprises a first capacitor C1, a second capacitor C2, a third capacitor C3, a fourth capacitor C4, a fifth capacitor C5, a first resistor R1, a second resistor R2 and an antenna coil;

the first end of the antenna coil is connected with a first resistor R1, the second end of the antenna coil is connected with a second resistor R2, and a third capacitor C3, a fourth capacitor C4 and a fifth capacitor C5 are respectively connected between the first end and the second end of the antenna coil; the first capacitor C1 and the second capacitor C2 are connected in parallel, one end of the first capacitor is connected to the first end of the antenna coil, and the other end of the first capacitor is a radio frequency signal input end.

Further, the antenna coil length is 550-.

Further, the antenna board is a thin sheet with a length of 98mm and a width of 16 mm.

Furthermore, the reader-writer also comprises a buzzer connected with the micro control unit MCU, and the buzzer is used for prompting that the reader-writer is successfully started.

Furthermore, the charging equipment comprises a standby mobile power supply and a charger, the charger is used for connecting a charging port of the host computer to charge the host computer when charging, and the standby mobile power supply is used for connecting the charging port of the host computer to charge the host computer when the power is low.

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

(1) the semi-automatic ticketing system comprises a host, a lithium battery, a camera, a reader-writer, a switch board, a power supply conversion module, a touch display integrated screen, a Bluetooth printer, a USB distribution module, an antenna board and charging equipment, wherein the lithium battery, the camera, the reader-writer, the switch board, the power supply conversion module, the touch display integrated screen, the Bluetooth printer and the USB distribution module are respectively connected with the host, the antenna board is connected with the reader-. The host computer adopts the more miniature PCBA 8G/256G industrial computer, and the volume has been reduced greatly.

(2) The reader-writer comprises a Micro Control Unit (MCU), a PHY unit, a communication unit, a power supply unit, a clock storage unit, an expansion platelet and a secret key card assembly, wherein the PHY unit, the communication unit, the power supply unit, the clock storage unit, the expansion platelet and the secret key card assembly are connected with the MCU. The ticket card information can be read, changed and erased, and the information interaction with the host computer can be realized. The original reader-writer circuit comprises a set of circuit module for converting DC12V to 5V, wherein the circuit module comprises a 330 muf 35V capacitor which has a larger volume and a higher height of about 12 mm. The reader-writer adopts 5V direct supply, so that a circuit module for converting DC12V into 5V is not needed, and the size and the height of the reader-writer are further miniaturized.

(3) The antenna coil of the antenna plate is set to be 550-650mm, so that the miniaturization of the antenna is realized, the volume of the antenna plate is greatly reduced, and the miniaturization is realized. The length of the antenna coil with the length is matched with the integrated semi-automatic ticket vending machine to achieve the best receiving and sending effect through a plurality of experiments.

(4) The shell is a cuboid of 280 × 175 × 18mm, the length, width and height joints are designed to be rounded off, and the shell is made of aluminum alloy materials, the original semi-automatic ticket vending machine which is large in size and immovable is integrated into a handheld flat plate form, so that the floor area of the ticket vending machine is greatly reduced, the ticket vending machine can be flexibly deployed and deployed during peak passenger flow of subway passenger transport, can be placed in a ticket booth or held in the other positions of a station for ticket business processing, the problem that fixed equipment facilities cannot be moved is solved, the capability of the station in the aspects of quickly processing passenger things, selling tickets, recharging and the like in the large passenger flow is greatly improved, the time for waiting in abnormal processing of passenger tickets and queuing is shortened, and the use quality of passengers is improved.

Drawings

Fig. 1 is a schematic diagram of a conventional semi-automatic ticket vending machine.

Fig. 2 is a schematic diagram of a mobile semi-automatic ticket vending machine according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a reader/writer according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a USB distribution module main chip according to an embodiment of the present invention.

Fig. 5 is a circuit diagram of a crystal oscillator according to an embodiment of the invention.

Fig. 6 is a diagram of a filter circuit according to an embodiment of the present invention.

Fig. 7 is a circuit diagram of an indicator light according to an embodiment of the present invention.

Fig. 8 is a circuit diagram of a level detection circuit according to an embodiment of the present invention.

Fig. 9 is a circuit diagram of an antenna according to an embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a mobile semi-automatic ticket vending machine according to an embodiment of the present invention.

In the drawings, the names of the parts corresponding to the reference numerals are as follows:

1-industrial personal computer, 2-operator display screen, 3-passenger display, 4-external card reader, 5-bill printer, 6-mouse keyboard, 7-power box, 8-interphone, 100-shell, 101-screen support, 200-touch display integrated screen, 10-host computer, 20-antenna board, 21-antenna coil, 30-USB distribution module, 40-reader-writer, 50-switch board, 60-lithium battery, 70-card slot and 90-USB interface.

Detailed Description

The present invention is further illustrated by the following figures and examples, which include, but are not limited to, the following examples.

As shown in fig. 2, a mobile semi-automatic ticket vending machine includes a host 10, a lithium battery 60, a camera, a reader/writer 40, a USB distribution module 30, a switch board 50, a power conversion module, a touch display integrated screen 200, a bluetooth printer and antenna board 20, and a charging device. The lithium battery 60, the camera, the reader-writer 40, the switch board 50, the power supply 7 conversion module, the touch display integrated screen 200 and the USB distribution module 30 are all connected with the host 10.

The bluetooth printer is connected with host computer 10 through bluetooth wireless communication for print the bill, lithium cell 60 is used for supplying power for host computer 10. The antenna plate 50 is used for emitting radio frequency signals to read the ticket information and transmit the ticket information to the reader 40, and the reader 40 is used for reading, writing and erasing the ticket information and feeding the ticket information back to the host 10. The touch display integrated screen 200 is configured to receive a video signal transmitted by the host and send the touch signal to the host 10, and the host 10 supplies power to the touch display integrated screen 200 through the power conversion module. The reader 40 is connected to the host through a USB distribution module, and the USB distribution module 30 is used to realize the multi-port access of the external signal to the host. The PCAB8G/256G host is adopted, so that the size of the host is greatly reduced, and the miniaturization design of the semi-automatic ticket vending machine is facilitated.

The charging equipment comprises a standby mobile power supply and a charger, the charger is used for charging the machine through a charging port connected with the host, and the standby mobile power supply is used for charging the host through the charging port connected with the host when the standby mobile power supply is used for low electric quantity.

As shown in fig. 3, the reader/writer 40 includes a micro control unit MCU, and a PHY unit, a communication unit, a power supply unit, a clock storage unit, a USB distribution module, an expansion board, and a secret key card assembly connected to the micro control unit MCU. The micro control unit MCU is connected with the host computer 10 through the USB distribution module, the PHY unit is used for providing a physical interface, the power supply unit supplies power to the micro control unit MCU through the host computer 10, and the secret key card component ensures that the ticket card secret key is one card and one secret, and is only used in the traffic system. The communication module is used for ticket card information interaction between the MCU and the host 1010, and the clock storage unit is used for recording the change time of the user ticket card information and reading, writing and erasing the ticket card information after the expansion small plate is connected with the antenna. The original external reader-writer adopts 12V power supply, so the circuit of the original reader-writer comprises a circuit module for converting DC12V into 5V, a 330 muf 35V capacitor is arranged in the circuit module, and the capacitor has a larger volume and a higher height of about 12 mm. The reader-writer adopts 5V direct supply, so that a circuit module for converting DC12V into 5V is not needed, and the size and the height of the reader-writer are further miniaturized.

The reader-writer 40 further comprises an additional communication module, a buzzer and an SDIO, wherein the SDIO is a firmware upgrading interface of the MCU board, and the additional communication module is a USB-to-serial port module and is used for PC communication. The buzzer is connected with the micro control unit MCU and used for prompting the successful start of the reader-writer 40.

The USB distribution module 30 is used for realizing a multi-port access of an external signal to a host, and the USB distribution module 30 includes a main chip, and a crystal oscillator circuit, a filter circuit, an indicator light circuit and a level detection circuit connected to the main chip. The circuit comprises a crystal oscillator circuit, a filter circuit, an indicator light circuit and a level detection circuit, wherein the crystal oscillator circuit generates stable clock frequency, the filter circuit filters a specific waveband in an access signal to prevent interference, the indicator light circuit is used for displaying whether a USB distribution module is in a working state, and the level detection circuit is used for detecting whether a reader-writer is successfully powered on.

Referring to fig. 4, a schematic diagram of a main chip G L850G of the USB distribution module, pins 25 DP0 and 26 DM0 are USB stub input ports, and DP (1-4)/DM (1-4) is developed with 4 USB interfaces, the entire circuit power supply only needs to input 5V voltage at pin 23V 5, and the chip outputs 3.3V voltage from pin 24V 33.

Referring to fig. 4 and 5, the crystal oscillator circuit includes a chip Y1, a capacitor C11 connected between pins 1 and 2 of a chip Y1, and a capacitor C12 connected between pins 3 and 4 of a chip Y, wherein pins 2 and 4 of a chip Y1 are grounded, pin 1 of a chip Y1 is connected to pin 6X 1 of a main chip, and pin 3 of a chip Y1 is connected to pin 7X 2 of the main chip.

Referring to fig. 4 and 6, the filter circuit includes a capacitor C13, a capacitor C14, a capacitor C15, a capacitor C16, a capacitor C17, a capacitor C18, a capacitor C19, and an inductor 19, wherein the second terminals of the capacitor C19, and the capacitor C19 are all grounded, the first terminals of the capacitor C19 and the capacitor C19 are connected to one end of the 16 pin DVDD and one end of the inductor 19 of the main chip, the first terminal of the capacitor C19 is connected to the 1 pin AVDD 19 of the main chip, the first terminal of the capacitor C19 is connected to the 5 pin AVDD 19 of the main chip, the first terminals of the capacitor C19 and the capacitor C19 are connected to the 10 pin AVDD 19 of the main chip, and the first terminal of the capacitor C19 is connected to the other end of the 23 pin AVDD 19 of the inductor 19 of the main chip and is connected to the 1 pin AVDD 19, 5 pin av3672, 5 pin AVDD and AVDD 19 and AVDD 36.

Referring to fig. 4 and 7, the indicator lamp circuit includes a resistor R11, resistors R12 and L ED lamp D1 connected in sequence, one end of the resistor R11 far from the resistor R12 is connected to a 16 pin DVDD of the main chip, one end of the resistor R11 far from the resistor R12 is connected to a 24 pin V33 of the main chip, one end of the resistor R1 far from the resistor R12 is connected to the L pin gtang of the main chip, and a 18 pin PGANG of the main chip is connected between the resistor R11 and the resistor R12.

Referring to fig. 4 and 8, the level detection circuit includes a resistor R13 and a resistor R14 connected in sequence, and a capacitor C20 connected to two ends of the resistor R14, wherein one end of the capacitor C20 close to the resistor R13 is connected to the 13-pin reset # of the main chip, and the other end is grounded.

Referring to fig. 9, the antenna board 20 includes a circuit board and an antenna circuit disposed on the circuit board, and the connection described in this case refers to the connection between the circuits on the circuit board. The antenna circuit comprises a first capacitor C1, a second capacitor C2, a third capacitor C3, a fourth capacitor C4, a fifth capacitor C5, a first resistor R1, a second resistor R2 and an antenna coil 21;

a first end of the antenna coil 21 is connected with a first resistor R1, a second end of the antenna coil 21 is connected with a second resistor R2, and a third capacitor C3, a fourth capacitor C4 and a fifth capacitor C5 are respectively connected between the first end and the second end of the antenna coil 21; the first capacitor C1 and the second capacitor C2 are connected in parallel, and then one end of the first capacitor is connected to the first end of the antenna coil 21, and the other end is a radio frequency signal input end.

The length of the antenna coil 21 is 550-650mm, and the antenna coil with the length can achieve a better receiving and sending effect by matching with the integrated semi-automatic ticket vending machine through a plurality of experiments.

In order to adapt to the characteristics of lightness and thinness of the mobile semi-automatic ticket vending machine, the circular antenna with the diameter of 95mm of the original semi-automatic ticket vending machine is designed into a sheet with the diameter of 98 x 16mm, so that the occupied space of an antenna board is greatly reduced, and the miniaturization and integration of the semi-automatic ticket vending machine are facilitated.

Referring to fig. 10, for the convenience of the use of the working personnel, the housing of the mobile semi-automatic ticket vending machine is designed to be a tablet computer with a length of 280 × 175 × 18mm, the length, width and height of the connecting portions are rounded off, the mobile semi-automatic ticket vending machine is convenient for the working personnel to hand and move, the housing is made of an aluminum alloy material, and is beneficial to heat dissipation of the semi-automatic ticket vending machine, a screen support 101 is arranged on the inner peripheral side of the housing, a touch display integrated screen 200 is assembled with the housing 100 through the screen support 10, a host 10, a card slot 70, a reader-writer 40, a switch board 50, an antenna board 20, a battery 60 and a USB distribution module 30 are all arranged in the housing 100, and in addition.

The mobile semi-automatic ticket vending machine adopts a more miniature industrial personal computer, namely the host 10, thereby realizing miniaturization. The antenna board 20 is improved, the length of the antenna coil 21 is ensured to be within the range of 550-650mm, the semi-automatic ticket vending machine can achieve better receiving and sending effects, and the shape of the semi-automatic ticket vending machine is greatly reduced. The reader-writer adopts 5V direct supply, and omits the prior circuit module of converting DC12V into 5V, so the height of the reader-writer is reduced, and the miniaturization of the automatic ticket vending machine is further realized. The miniaturization of each equipment of portable semi-automatic ticket machine is convenient for integrate equipment such as external read write line, industrial computer in the past to the shell of a dull and stereotyped form that can hand, has significantly reduced semi-automatic ticket machine's volume, and the staff of being convenient for rationally arranges ticket mode and ticket selling place according to the actual traffic of each station condition.

The mobile semi-automatic ticket vending machine is also provided with a standby mobile power supply and a charger, the charger charges the battery 60 through the charging port, and when the mobile semi-automatic ticket vending machine is inconvenient to charge and the electric quantity of the battery 60 is insufficient, the mobile semi-automatic ticket vending machine is connected with the standby mobile power supply through the charging port to charge the ticket vending machine, so that the normal use of the ticket vending machine is ensured.

The mobile semi-automatic ticket vending machine can also be connected with a Bluetooth printer through Bluetooth wireless communication, and a user prints corresponding tickets when needing to print the tickets. The Bluetooth printer only needs to be placed in the signal connection range of the mobile semi-automatic ticket vending machine.

The portable semi-automatic ticket machine of present case is small and exquisite, and convenient to carry can carry out nimble allotment and deployment when subway passenger traffic peak passenger flow. The ticket business processing device can be placed at a ticket booth or held by hands at other positions of a station for ticket business processing. The problem that fixed equipment facilities cannot move can be solved. The capacity of the station in the aspects of rapid processing of passenger affairs, ticket selling, recharging and the like in the mass flow is greatly improved, the queuing waiting time of abnormal processing of passenger tickets is reduced, and the service quality of passengers is improved.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, but all changes that can be made by applying the principles of the present invention and performing non-inventive work on the basis of the principles shall fall within the scope of the present invention.