CN110933655A - Thing networking charging box based on Linux system - Google Patents

Abstract

The invention belongs to the technical field of charging equipment, and particularly relates to an internet of things charging box based on a Linux system. The invention can monitor the state information of the box end in real time, realize the real-time positioning of the box end, has the characteristics of anti-disassembly and anti-theft, can monitor the temperature of the mainboard of the toll box in real time, and can utilize a fan to quickly dissipate heat when the temperature exceeds a limit value, thereby ensuring the safe and stable operation of the equipment.

Description

Thing networking charging box based on Linux system

Technical Field

The invention relates to the technical field of charging equipment, in particular to an internet of things charging box based on a Linux system.

Background

The current parking lot charging system on the market adopts a one-car one-rail parking charging mode, utilizes a radio frequency identification technology to collect car information of an IC card, and carries out timing charging according to collected parking time data. However, the conventional parking lot charging system still has the following defects:

1. the device has the defects of poor functionality and poor anti-theft performance, cannot ensure the stable operation of the device, and has low use safety;

2. the information processing efficiency is low, the stability is poor, data loss is easy to cause, and the comprehensive management performance is poor.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the internet of things charging box based on the Linux system, and solves the problems that the traditional parking lot charging system has defects in equipment functionality, poor anti-theft performance, incapability of ensuring stable operation of equipment, low use safety, low information processing efficiency and poor stability, is easy to cause data loss and poor in comprehensive management performance.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: an internet of things charging box based on a Linux system comprises an embedded data processing unit, a data acquisition unit, a charging server and a mobile terminal, the embedded data processing unit is connected with the data acquisition unit and the mobile terminal through the charging server, the data acquisition unit is used for acquiring the environment and vehicle information in the parking lot in real time and carrying out primary processing, the data acquisition unit transmits the primarily processed information to the embedded data processing unit through a Zigbee network, the embedded data processing unit carries out secondary processing analysis on the received information, and the data after analysis and processing is transmitted to a charging server, the charging server performs timing charging according to the vehicle information and sends the charging information to a mobile terminal of a user, and the embedded data processing unit specifically comprises the following components:

an embedded data processing unit, which comprises a central processing unit based on a Linux system, a power management module, an input interface, an output interface, a Zigbee module, a first alarm module, an anti-theft module, a heat dissipation module, a GPIO expansion interface, a large-capacity storage module and an audio input module, wherein the central processing unit is respectively electrically connected with the power management module, the input interface, the output interface, the Zigbee module, the first alarm module, the anti-theft module, the heat dissipation module, the GPIO expansion interface, the large-capacity storage module and the audio input module, the input interface comprises a multi-path input circuit, the output interface comprises a multi-path output circuit, the illumination sensor is used for monitoring the illumination value of a parking lot in real time, the LED lamp is used for illuminating when the illumination value of the parking lot is lower than a limit value, and the anti-theft module is, the heat dissipation module is used for heat dissipation of the toll collection box.

The data acquisition unit specifically comprises the following components:

the data acquisition unit comprises a controller, an IC card reading module, a Zigbee transmission module, a storage module, a printer driving module, an illumination sensor, an LED lamp, a touch screen, a keyboard interface, an identity authentication module and a second alarm module, wherein the controller is respectively and electrically connected with the IC card reading module, the Zigbee transmission module, the storage module, the printer driving module, the illumination sensor, the LED lamp, the touch screen, the keyboard interface, the identity authentication module and the second alarm module.

As a preferred technical solution of the present invention, the input circuits on the input interface are respectively connected to a ground sensing coil and a vehicle detector in the parking lot for detecting vehicle information, and the output circuits on the output interface are respectively connected to a barrier machine in the parking lot for controlling the passing and clearance of the vehicle.

As a preferred technical solution of the present invention, the first alarm module and the second alarm module both employ buzzers.

As a preferred technical scheme of the invention, the anti-theft module comprises an anti-dismantling unit and a GPS positioning module which are respectively connected with the central processing unit, wherein the anti-dismantling unit consists of a vibration sensor and an infrared correlation sensor and is used for monitoring the state of the toll collection box in real time, and the GPS positioning module is used for positioning the toll collection box.

As a preferred technical solution of the present invention, the heat dissipation module includes a heat dissipation fan and a temperature sensor respectively connected to the central processing unit, the temperature sensor is used for monitoring the temperature of the motherboard of the toll collection box in real time, and the heat dissipation fan is used for performing air-cooling heat dissipation when the temperature of the motherboard is higher than a limit value.

As a preferred technical scheme of the invention, the large-capacity storage module comprises a Flash module, an SDRAM module and an SRAM module which are respectively connected with the central processing unit.

As a preferred technical scheme of the invention, the central processing unit adopts an ARM Cortex-A9 processor.

As a preferable technical scheme of the invention, the controller adopts an 80C51 singlechip.

As a preferred embodiment of the present invention, the illumination sensor is an HA2003 photosensor.

As a preferred technical scheme of the invention, the identity authentication module adopts one or more combinations of iris recognition, identity card recognition, fingerprint recognition and face recognition.

(III) advantageous effects

Compared with the prior art, the invention provides an internet of things charging box based on a Linux system, which has the following beneficial effects:

1. this thing networking charge box based on Linux system through the setting of theftproof module, can real-time supervision box end state information, realizes the real-time location to the box end, possesses the characteristic of preventing tearing open, theftproof, through heat dissipation module's setting, can real-time supervision charge box mainboard temperature to utilize the fan to dispel the heat fast when the temperature surpasss the limit value, guarantee safe, the steady operation of equipment.

2. The Internet of things charging box based on the Linux system adopts the ARMCortex-A9 processor kernel based on the Linux system, has the characteristic of low power consumption, can automatically install software according to user requirements, ensures the data processing efficiency and stability, effectively prevents data loss when improving the storage capacity by utilizing the large-capacity storage module, and improves the comprehensive management performance of data.

3. This thing networking charge box based on Linux system can in time give the user with vehicle charge information transmission, realizes the information transparence, can in time report to the police when the data exists unusually simultaneously, does benefit to safety control.

Drawings

FIG. 1 is a system schematic block diagram of an embedded data processing unit of the present invention;

FIG. 2 is a schematic block diagram of the system of the present invention;

FIG. 3 is a system schematic block diagram of a data acquisition unit of the present invention;

FIG. 4 is a system schematic block diagram of the anti-theft module of the present invention;

fig. 5 is a system schematic block diagram of the heat dissipation module of the present invention.

In the figure: 100. an embedded data processing unit; 101. a central processing unit; 102. a power management module; 103. an input interface; 104. an output interface; 105. a Zigbee module; 106. a first alarm module; 107. an anti-theft module; 1071. a tamper unit; 1072. a GPS positioning module; 108. a heat dissipation module; 1081. a heat radiation fan; 1082. a temperature sensor; 109. a GPIO expansion interface; 110. a mass storage module; 1101. a Flash module; 1102. an SDRAM module; 1103. an SRAM module; 111. an audio input module; 200. a data acquisition unit; 201. a controller; 202. an IC card reading module; 203. a Zigbee transmission module; 204. a storage module; 205. a printer driver module; 206. an illumination sensor; 207. an LED lamp; 208. a touch screen; 209. a keyboard interface; 210. an identity authentication module; 211. a second alarm module; 300. a charging server; 400. a mobile terminal.

Detailed Description

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 invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-5, the present invention provides the following technical solutions: an internet of things charging box based on a Linux system comprises an embedded data processing unit 100, a data acquisition unit 200, a charging server 300 and a mobile terminal 400, wherein the embedded data processing unit 100 is connected with the data acquisition unit 200, the embedded data processing unit 100 is connected with the mobile terminal 400 through the charging server 300, the data acquisition unit 200 is used for acquiring environment and vehicle information in a parking lot in real time and carrying out primary processing, the data acquisition unit 200 transmits the primarily processed information to the embedded data processing unit 100 through a Zigbee network, the embedded data processing unit 100 carries out secondary processing analysis on the received information, and transmits the analyzed and processed data to the charging server 300, the charging server 300 performs time-based charging according to the vehicle information and transmits the charging information to the mobile terminal 400 of the user, and the embedded data processing unit 100 specifically includes the following:

the embedded data processing unit 100, the embedded data processing unit 100 includes a central processing unit 101 based on a Linux system, a power management module 102, an input interface 103, an output interface 104, a Zigbee module 105, a first alarm module 106, an anti-theft module 107, a heat dissipation module 108, a GPIO expansion interface 109, a mass storage module 110, and an audio input module 111, wherein the central processing unit 101 is electrically connected to the power management module 102, the input interface 103, the output interface 104, the Zigbee module 105, the first alarm module 106, the anti-theft module 107, the heat dissipation module 108, the GPIO expansion interface 109, the mass storage module 110, and the audio input module 111, respectively, the input interface 103 includes a multi-path input circuit, the output interface 104 includes a multi-path output circuit, an illumination sensor 206 is used for monitoring an illumination value of a parking lot in real time, an LED lamp 207 is used for illuminating the parking lot when the illumination, the anti-theft module 107 is used for preventing theft of the toll collection box, and the heat dissipation module 108 is used for heat dissipation of the toll collection box.

The data acquisition unit 200 specifically includes the following:

the data acquisition unit 200, the data acquisition unit 200 includes a controller 201, an IC card reading module 202, a Zigbee transmission module 203, a storage module 204, a printer driving module 205, an illumination sensor 206, an LED lamp 207, a touch screen 208, a keyboard interface 209, an identity authentication module 210, and a second alarm module 211, wherein the controller 201 is electrically connected to the IC card reading module 202, the Zigbee transmission module 203, the storage module 204, the printer driving module 205, the illumination sensor 206, the LED lamp 207, the touch screen 208, the keyboard interface 209, the identity authentication module 210, and the second alarm module 211, respectively.

In this embodiment, the power management module 102 is used to manage the power of the device, the large-capacity storage module 110 is configured to enable the charging box to have an oversized storage space, so that data is not easy to lose, and the IC card reading module 202 is configured to read.

Specifically, each input circuit on the input interface 103 is respectively connected with a ground induction coil and a vehicle detector in the parking lot for detecting vehicle information, and each output circuit on the output interface 104 is respectively connected with a barrier machine in the parking lot for controlling the passing and the releasing of the vehicle.

In this embodiment, the number of the input circuits on the input interface 103 is the same as the number of the toll lanes, and when the number of the toll lanes is 3, there are three car detectors and three balustrades.

Specifically, the first alarm module 106 and the second alarm module 211 both use buzzers.

In this embodiment, the controller 201 performs preliminary processing after receiving the surrounding environment information and the vehicle information, and determines whether data is abnormal, when data is abnormal, the controller alarms through the buzzer, and then transmits the data to the embedded data processing unit 100 through the Zigbee network, the Zigbee network transmits the data to the central processing unit 101 in the embedded data processing unit 100 based on the Linux system to perform secondary analysis processing on the data, and classifies and stores the data, when data is abnormal and the device does not alarm, the controller alarms through the buzzer, and simultaneously refreshes the shared memory, and when data is normal, the controller transmits the data after secondary processing to the mobile terminal 400 of the user through the charging server 300.

Specifically, the anti-theft module 107 includes and is connected with central processing unit 101 respectively and prevents tearing open unit 1071 and GPS orientation module 1072, prevents tearing open unit 1071 and comprises vibration sensor and infrared correlation sensor for real-time supervision charges the state of box, and GPS orientation module 1072 is used for fixing a position the box of charging.

In this embodiment, whether prevent tearing open unit 1071 through what vibrations sensor and infrared correlation sensor constitute is dismantled by the force and is carried out real-time supervision to equipment, after monitoring the dismantlement signal, gives central processing unit 101 with information transmission, and central processing unit 101 controls first alarm module 106 and reports to the police, fixes a position the charge box through GPS orientation module 1072, prevents stolen, improve equipment's safety in utilization.

Specifically, the heat dissipation module 108 includes a heat dissipation fan 1081 and a temperature sensor 1082 respectively connected to the central processing unit 101, the temperature sensor 1082 is used for monitoring the motherboard temperature of the toll collection box in real time, and the heat dissipation fan 1081 is used for performing air-cooling heat dissipation when the motherboard temperature is higher than a limit value.

In this embodiment, when the temperature sensor 1082 detects that the temperature of the motherboard of the toll box is higher than the limit value, the information is transmitted to the central processing unit 101 in time, and the central processing unit 101 controls the heat dissipation fan 1081 arranged on the motherboard to work, so as to achieve the effect of rapid heat dissipation.

Specifically, the mass storage module 110 includes a Flash module 1101, an SDRAM module 1102 and an SRAM module 1103 connected to the central processing unit 101, respectively.

In this embodiment, data is classified and stored by the Flash module 1101, the SDRAM module 1102 and the SRAM module 1103, so that data loss is effectively prevented while the storage capacity is increased.

Specifically, the central processor 101 employs an ARM Cortex-A9 processor.

In this embodiment, ARM (advanced RISC machines) is a 32-bit Reduced Instruction Set (RISC) processor architecture, and ARM processors are widely used in many embedded system designs. The ARM processor has the characteristics of fixed instruction length, high execution efficiency, low cost and the like. The Cortex-a9 processor was designed to create the most advanced, efficient, dynamically variable-length, multi-instruction execution superscalar architecture, providing an 8-stage pipelined processor that executes using out-of-order guessing, ensuring high performance and power efficiency of the device by virtue of the functions required by the leading edge products in a wide range of consumer, network, enterprise, and mobile applications.

Specifically, the controller 201 adopts an 80C51 single chip microcomputer.

Specifically, the illumination sensor 206 is an HA2003 photosensor.

In this embodiment, the illumination sensor 206 adopts an advanced photoelectric conversion module to convert the illumination intensity value into a voltage value, and then the voltage value is converted into 0-2V or 4-20 mA through a conditioning circuit, so that the illumination intensity with high precision is measured, the size is small, the sensor is designed to be firm in IP65 protection grade, the corrosion-resistant response speed is high, voltage or current output can be selected in <1 second, and the current output has no signal attenuation in long-cable transmission, so that the illumination sensor is widely applied to illumination measurement and research of agriculture, forestry, greenhouse cultivation, breeding and buildings.

Specifically, the identity authentication module 210 adopts one or more combinations of iris recognition, identification card recognition, fingerprint recognition and face recognition.

In the embodiment, one or more technologies such as iris recognition, identification card recognition, fingerprint recognition and face recognition are adopted to recognize the identity of the user, so that the use safety can be improved.

The working principle and the using process of the invention are as follows: when the intelligent parking lot is used, the illumination environment in the parking lot is monitored in real time through the illumination sensor 206, when the internal environment is too dark, the controller 201 controls the LED lamp 207 to illuminate according to the received electric signal, when a user needs to check the box equipment, identity authentication needs to be carried out through the identity authentication module 210, during authentication, the identity of the user can be identified through one or more technologies such as iris identification, identity card identification, fingerprint identification and face identification, the use safety can be improved, and when the identity authentication passes, the intelligent parking lot can be operated by being connected with a keyboard through the touch screen 208 and the keyboard interface 209;

when in charging, the vehicle information is read through the IC card reading module 202, the controller 201 determines whether the information is abnormal, when the data is abnormal, the buzzer alarm is performed through the second alarm module 211, the detected data is stored through the storage module 204 and then transmitted to the central processing unit 101 based on the Linux system through the Zigbee transmission module 203, the central processing unit 101 performs secondary analysis processing on the received data, classifies and stores the received data, when the data is abnormal and the device does not alarm, the buzzer alarms, and the shared memory is refreshed at the same time, and when the data is normal, the data after the secondary processing is transmitted to the mobile terminal 400 of the user through the charging server 300;

when the box end is used, the anti-dismantling unit 1071 consisting of the vibration sensor and the infrared correlation sensor can monitor whether the equipment is dismantled forcibly in real time, when a dismantling signal is monitored, information is transmitted to the central processing unit 101, the central processing unit 101 controls the first alarm module 106 to give an alarm, the charging box is positioned through the GPS positioning module 1072, the charging box is prevented from being stolen, and the use safety of the equipment is improved; simultaneously through the temperature of temperature sensor 1082 real-time detection charge box end mainboard, when the mainboard temperature was higher than the limit value, in time transmitted information for central processing unit 101, central processing unit 101 control set up radiator fan 1081 work on the mainboard, reached quick radiating effect.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a thing networking charge box based on Linux system which characterized in that: the system comprises an embedded data processing unit (100), a data acquisition unit (200), a charging server (300) and a mobile terminal (400), wherein the embedded data processing unit (100) is connected with the data acquisition unit (200), the embedded data processing unit (100) is connected with the mobile terminal (400) through the charging server (300), the data acquisition unit (200) is used for acquiring environment and vehicle information in a parking lot in real time and performing primary processing, the data acquisition unit (200) transmits the primarily processed information to the embedded data processing unit (100) through a Zigbee network, the embedded data processing unit (100) performs secondary processing analysis on the received information and transmits the analyzed and processed data to the charging server (300), the charging server (300) performs timing charging according to the vehicle information and transmits the charging information to the mobile terminal (400) of a user, the embedded data processing unit (100) specifically comprises the following:

an embedded data processing unit (100), wherein the embedded data processing unit (100) comprises a central processing unit (101) based on a Linux system, a power management module (102), an input interface (103), an output interface (104), a Zigbee module (105), a first alarm module (106), an anti-theft module (107), a heat dissipation module (108), a GPIO extension interface (109), a large-capacity storage module (110), and an audio input module (111), wherein the central processing unit (101) is electrically connected with the power management module (102), the input interface (103), the output interface (104), the Zigbee module (105), the first alarm module (106), the anti-theft module (107), the heat dissipation module (108), the GPIO extension interface (109), the large-capacity storage module (110), and the audio input module (111), respectively, and the input interface (103) comprises a multi-channel input circuit, the output interface (104) comprises a multi-output circuit, the illumination sensor (206) is used for monitoring the illumination value of the parking lot in real time, the LED lamp (207) is used for illuminating when the illumination value of the parking lot is lower than a limit value, the anti-theft module (107) is used for preventing theft of the toll collection box, and the heat dissipation module (108) is used for heat dissipation of the toll collection box;

the data acquisition unit (200) specifically comprises the following:

the data acquisition unit (200) comprises a controller (201), an IC card reading module (202), a Zigbee transmission module (203), a storage module (204), a printer driving module (205), an illumination sensor (206), an LED lamp (207), a touch screen (208), a keyboard interface (209), an identity authentication module (210) and a second alarm module (211), wherein the controller (201) is electrically connected with the IC card reading module (202), the Zigbee transmission module (203), the storage module (204), the printer driving module (205), the illumination sensor (206), the LED lamp (207), the touch screen (208), the keyboard interface (209), the identity authentication module (210) and the second alarm module (211) respectively.

2. The internet of things charging box based on the Linux system as recited in claim 1, wherein: and each input circuit on the input interface (103) is respectively connected with a ground induction coil and a vehicle detector in the parking lot and used for detecting vehicle information, and each output circuit on the output interface (104) is respectively connected with a barrier machine in the parking lot and used for controlling the passing and the releasing of the vehicle.

3. The internet of things charging box based on the Linux system as recited in claim 1, wherein: the first alarm module (106) and the second alarm module (211) both adopt buzzers.

4. The internet of things charging box based on the Linux system as recited in claim 1, wherein: theftproof module (107) is including being connected with central processing unit (101) respectively and preventing tearing open unit (1071) and GPS orientation module (1072), prevent tearing open unit (1071) and constitute by shock transducer and infrared correlation sensor for the state of real-time supervision charge box, GPS orientation module (1072) are used for fixing a position the charge box.

5. The internet of things charging box based on the Linux system as recited in claim 1, wherein: the heat dissipation module (108) comprises a heat dissipation fan (1081) and a temperature sensor (1082) which are respectively connected with the central processing unit (101), the temperature sensor (1082) is used for monitoring the temperature of the mainboard of the toll collection box in real time, and the heat dissipation fan (1081) is used for performing air cooling heat dissipation when the temperature of the mainboard is higher than a limit value.

6. The internet of things charging box based on the Linux system as recited in claim 1, wherein: the large-capacity storage module (110) comprises a Flash module (1101), an SDRAM module (1102) and an SRAM module (1103) which are respectively connected with the central processing unit (101).

7. The internet of things charging box based on the Linux system as recited in claim 1, wherein: the central processing unit (101) adopts an ARM Cortex-A9 processor.

8. The internet of things charging box based on the Linux system as recited in claim 1, wherein: the controller (201) adopts an 80C51 singlechip.

9. The internet of things charging box based on the Linux system as recited in claim 1, wherein: the illumination sensor (206) adopts an HA2003 photoelectric sensor.

10. The internet of things charging box based on the Linux system as recited in claim 1, wherein: the identity authentication module (210) adopts one or more combinations of iris recognition, identification card recognition, fingerprint recognition and face recognition.

Images