CN114419743A - Intelligent roadside parking device based on intelligent lamp pole power supply and application method - Google Patents

Abstract

The utility model provides a wisdom roadside parking device based on intelligence lamp pole, includes: the intelligent street lamp comprises an intelligent lamp pole, a street lamp controller, a street lamp power supply circuit, a host box, a local controller, a lifting baffle, a transmission shaft, an escape-proof roller, a stepping motor, a pressure sensor, a communication module, a camera, a lifting motor, a device identification two-dimensional code, a camera cover, a detection box, a geomagnetic sensor, a microwave radar sensor, an infrared sensor, a buzzer and a remote control platform; the street lamp controller and the intelligent parking device are connected in parallel in a street lamp power supply loop, the street lamp controller turns off a street lamp light source power supply in the daytime, the street lamp power supply loop only supplies power for the intelligent parking system, the street lamp controller turns on the street lamp power supply at night, the street lamp power supply loop simultaneously supplies power for the street lamp light source and the intelligent parking system, the local controller obtains vehicle parking information near the intelligent parking device to adjust the lifting baffle to park, and the local controller obtains two-dimensional code payment information to adjust the lowering baffle to park.

Description

Intelligent roadside parking device based on intelligent lamp pole power supply and application method

Technical Field

The invention relates to the technical field of parking of the Internet of things, in particular to a smart roadside parking device based on power supply of a smart lamp pole and an application method.

Background

With the continuous increase of the vehicle holding amount in China, the parking of vehicles becomes a problem of urban traffic, a lot of vehicle owners are troubled by insufficient parking spaces and high charge, and roadside parking spaces using a part of roads with less traffic flow become one of important means for relieving the problem of difficult parking.

However, the existing management mode is the coexistence of manual management and internet management because the parking environment of the roadside parking is complex and the roadside parking is difficult to manage at present. Wherein manual management can produce high law enforcement cost, and the staff need register the vehicle of curb parking or collect the expense, and this process is wasted time and energy, and a road that can curb parking usually need be equipped with 2-4 parking managers, in addition, can't obtain parking stall information at the curb parking road car owner of manual management, hardly finds the vacant parking stall fast. Although the internet management solves the problems of difficult registration, charging and parking space finding to a certain extent, the accompanying power supply problem of the parking space management system and the problem of complex vehicle information acquisition mode need to be solved, the existing intelligent parking spaces usually need to be automatically pulled to be connected with commercial power for power supply, so that a new power loop needs to be laid, the investment is high, moreover, the construction is complex and difficult to implement, and if solar energy is used for power supply, the power supply can not be ensured to cause the parking service to break down when continuous cloudy days occur, the information acquisition mode of the existing internet management parking space is quite complex, a camera is required to shoot the license plate image, then the system of uploading comes the discernment license plate number to accomplish the information registration of parking vehicle, but adopt the parking stall cost of this kind of mode information collection too high, the technique is complicated moreover, is unfavorable for the popularization of wisdom roadside parking stall.

How on the basis of using wisdom curb parking device, effectively solve the difficult and complicated problem of information acquisition technique of power supply in intelligent parking stall, this is the problem that the designer in intelligent parking stall needs to solve.

Disclosure of Invention

In order to overcome the problems of difficult power supply, complex information acquisition technology and the like of the existing intelligent parking space, the invention discloses an intelligent roadside parking device based on an intelligent lamp pole, which comprises: the intelligent street lamp comprises an intelligent lamp pole, a street lamp controller, a street lamp power supply circuit, a host box, a local controller, a lifting baffle, a transmission shaft, an escape-proof roller, a stepping motor, a pressure sensor, a communication module, a camera, a lifting motor, a device identification two-dimensional code, a camera cover, a detection box, a geomagnetic sensor, a microwave radar sensor, an infrared sensor, a buzzer and a remote control platform; the intelligent lamp post is arranged on the roadside, and a street lamp controller and a street lamp power supply loop are arranged on the intelligent lamp post; the street lamp controller is connected with a street lamp power supply loop; the street lamp power supply loop is connected with a power line of the local controller; the main machine box is arranged at a curb of a road, a device identification two-dimensional code is printed on the upper surface of the main machine box, an installation hole is formed in the upper side of the main machine box and used for installing a camera cover, and an installation hole for installing a transmission shaft is formed in the side edge of the main machine box; the local controller is arranged in the host box and is connected with the street lamp power supply loop circuit; the lifting baffle is arranged on the transmission shaft; the transmission shaft is internally of a hollow structure and can allow a cable to pass through, and a gear is arranged at one end of the transmission shaft, which is arranged at the main case; the anti-escape roller is arranged on the outer side edge of the lifting baffle; the stepping motor is arranged in the host box, meshed with the transmission shaft through a gear and connected with the local controller circuit; the pressure sensor is connected with the local controller circuit; the communication module is arranged in the host box, is connected with the local controller circuit and is in information connection with the remote control platform; the camera is arranged in the camera cover and is connected with the local controller circuit; the lifting motor is arranged in the host box, a shaft of the lifting motor is connected with the camera cover, and the lifting motor is connected with the local controller circuit; the camera cover is arranged in the host box and can be driven by the lifting motor to rotate along the shaft, so that the camera can be extended out and retracted; the detection box is arranged at the other end which is 1.2-1.5 m away from the main machine box, a mounting hole for mounting the transmission shaft is arranged on the side edge of the detection box, a detection hole is arranged on the detection box, and the detection hole is packaged by plastic or glass, so that the interior of the detection box is in a closed state; the geomagnetic sensor is arranged in the detection box and is connected with the local controller circuit; the microwave radar sensor is arranged in the detection box and is connected with the local controller circuit; the infrared sensor is arranged in the detection box and is connected with the local controller circuit; the buzzer is arranged in the detection box and is connected with the local controller circuit; the remote control platform comprises a control host and a server; the street lamp controller, the street lamp power supply loop and the local controller form a power loop of the intelligent parking device; the local controller, the communication module and the remote control platform form a control information loop of the intelligent parking device; the pressure sensor, the camera, the geomagnetic sensor, the microwave radar sensor and the infrared sensor form a detection module of the intelligent parking device.

The street lamp power supply circuit is characterized in that the street lamp power supply circuit comprises: the street lamp power supply circuit comprises a street lamp box transformer, a street lamp power wire, a street lamp light source, a street lamp controller and an intelligent parking device, wherein the street lamp controller and the intelligent parking device are connected in parallel in a street lamp power supply loop, the street lamp controller turns off a street lamp light source power supply in daytime, the street lamp power supply loop only supplies power to an intelligent parking system, the street lamp controller turns on the street lamp power supply at night, and the street lamp power supply loop supplies power to the street lamp light source and the intelligent parking system simultaneously.

The intelligent parking lot control system comprises a local controller, a communication module, a remote control platform, a communication module, a transmission shaft, a camera, a geomagnetic sensor, a microwave radar sensor and an infrared sensor, wherein the local controller is connected with the pressure sensor, the camera, the geomagnetic sensor, the microwave radar sensor and the infrared sensor through signal lines to acquire vehicle parking information near an intelligent parking lot, and is connected with the communication module through a circuit to feed the acquired vehicle parking information to the communication module.

The lifting baffle is 1.2-1.5 m long, 20-30 cm wide, 2-3 cm thick hollow metal hard board, one side on the long limit of lifting baffle is provided with the mounting groove, can fix on the transmission shaft, is provided with the fixed axle that is used for installing the anti-escape gyro wheel on another long edge relative with the mounting groove.

The anti-escape roller is a hollow plastic thick pipe, the diameter of the plastic thick pipe is 0.2-1cm larger than that of the roller fixing shaft, the length of each roller is 20-35cm, the thickness of the pipe wall is 0.5-0.8cm, and 3-4 anti-escape rollers form a group to be installed on the roller shaft of the lifting baffle.

The stepping motor is connected with a local controller circuit through a circuit, the stepping motor can receive a control signal of the local controller, and the stepping motor drives the lifting baffle to rotate through the transmission shaft, so that the lifting of the lifting baffle is realized.

The camera is characterized in that the camera is installed in the camera cover, the shooting angle is the opening direction of the camera cover, and the camera is connected with the local controller circuit through a circuit and is connected with the communication module through a network port.

The device identification two-dimensional code is characterized in that each parking device of the device identification two-dimensional code has a unique two-dimensional code, the information of the two-dimensional code is generated by the ID number information of the communication module of the parking device, and the operation conditions of charging, faults and the like of the parking device under the information of the two-dimensional code can be known by scanning the two-dimensional code.

Pressure sensor, its characterized in that pressure sensor is a pressure switch, pressure sensor fixed mounting is in the one end of lifting baffle, when the vehicle escape crosses lifting baffle by force, lifting baffle pressurized, the pressure sensor switch merges, local controller receives pressure sensor information and starts the work of camera immediately, elevator motor work, the camera hood stretches out in the host computer box, shoots peripheral vehicle to send video information to remote control platform through communication module, monitor the vehicle that escapes.

The communication module is in information communication with the remote control platform through 4G or 5G communication.

The camera head cover is of a hexahedral structure with two open sides, and is provided with a rotating shaft which is mechanically connected with a shaft of the lifting motor.

An application method of an intelligent roadside parking device based on intelligent lamp pole power supply comprises the following processes:

step 1 detecting vehicle parking

The intelligent parking lot parking system comprises a geomagnetic sensor, a microwave radar sensor and an infrared sensor, wherein the geomagnetic sensor detects vehicle condition information near an intelligent parking lot every 1 minute, when a vehicle approaches to park, the geomagnetic sensor detects a metal object signal, the microwave radar sensor detects that the distance between the microwave radar sensor and the metal object is not more than 50cm, the infrared sensor detects that the temperature of the close-distance metal object is higher than the ambient temperature, and when the vehicle simultaneously detects metal signals which are higher than the ambient temperature and are closer in distance within five minutes, which indicates that the vehicle parks in the parking lot, a local controller sends a parking signal to a remote control platform through a communication module, the remote control platform registers the number and time of the used intelligent parking lot in a server, and simultaneously starts a stepping motor to lift a lifting baffle and a buzzer to remind surrounding personnel of paying attention to the lifting baffle, when the lifting baffle rises to a specified position, the local controller turns off the stepping motor and simultaneously turns off the buzzer;

step 2, the vehicle finishes parking and leaves for payment

After a user identifies a two-dimensional code by scanning a device on a host box, a server of a remote control platform is accessed, the remote control platform calls the service time of a corresponding intelligent parking space, charges the user after calculating the cost, sends an unlocking signal to a local controller through a communication module after the user pays the fee, starts a stepping motor after the local controller receives the signal, enables a lifting baffle to descend, starts a buzzer at the same time, reminds the user that the lifting baffle descends, and after the lifting baffle descends to a horizontal position, the local controller closes the stepping motor and closes the buzzer at the same time, so that after the user leaves the vehicle out of the intelligent parking space, one-time parking service is completed;

step 3, preventing the parked vehicles from escaping

When the owner does not pay fees and tries to cross the lifting baffle to escape when the lifting baffle is in a rising state, the wheels contact the anti-escape roller wheel, the anti-escape roller wheel can roll freely, the function of preventing the vehicle from directly crossing the lifting baffle is achieved, when the owner continues to escape, the lifting baffle is pressed to be displaced, the pressure sensor switches are combined, the local controller receives information of the pressure sensor and immediately starts the camera to work, the lifting motor works, the camera cover extends out of the main box, the buzzer buzzes at the same time, the camera shoots a video with the duration of 1-2 minutes for the escaping vehicle and sends the video information to the remote control platform through the communication module, the remote control platform identifies the license plate number of the escaping vehicle and lists the license plate number into a loss-of-information user list, the buzzer is closed after alarming for 1 minute, and the local controller resets the lifting baffle, if the parking device is reset normally, the parking device is recovered to be normal, if the parking device cannot be reset normally, the local controller sends out a fault of the parking device, the fault alarm is carried out, fault alarm information is sent to the remote control platform through the communication module, and operation and maintenance personnel can carry out field maintenance timely after receiving the alarm.

Significant effects of the invention

The technical scheme of the invention firstly provides the intelligent street lamp for supplying power to the intelligent roadside parking space, solves the problem of difficult power supply of the roadside parking device, simultaneously uses the two-dimensional code as a mode of a parking management mode, can be used as a power supply line of the parking device by slightly extending the circuit of the existing street lamp, is convenient to install and low in investment and maintenance cost, and also realizes separation of parking card reading and charging, namely, the parking charging does not need to be carried out by reading a license plate for timing charging, and is convenient and quick; the parking service is managed by the two-dimensional code, direct unlocking of code scanning is achieved, data acquisition steps and difficulty are reduced, management cost is reduced, and popularization and application are facilitated.

Drawings

FIG. 1: the invention relates to a main schematic diagram of a smart roadside parking space based on smart lamp pole power supply;

FIG. 2: the invention relates to a main machine box overlooking and cross-sectional view of a smart roadside parking space based on power supply of a smart lamp pole;

FIG. 3: the invention relates to a detection box for a smart roadside parking space based on power supply of a smart lamp pole, which is a cross-sectional view from top down;

FIG. 4: the invention discloses a parking scheme implementation diagram of a smart roadside parking space based on power supply of a smart lamp pole;

FIG. 5: the invention relates to a signal transmission loop schematic block diagram of a smart roadside parking space based on smart lamp pole power supply;

FIG. 6: the invention relates to a schematic block diagram of an electric power circuit of a smart roadside parking space based on power supply of a smart lamp pole;

in the figure: 1. intelligent lamp pole, 2, street lamp controller, 3, street lamp power supply circuit, 4, host computer box, 5, local controller, 6, lifting baffle, 7 transmission shafts, 8, prevent escaping gyro wheel, 9, step motor, 10, pressure sensor, 11, communication module, 12, camera, 13, elevator motor, 14, device discernment two-dimensional code, 15, camera hood, 16, survey the box, 17, earth inductor, 18, microwave radar inductor, 19, infrared inductor, 20, bee calling organ, 21, remote control platform.

Detailed Description

Embodiments of the present invention will be described in detail with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

In order to overcome the problems of difficult power supply, complex information acquisition technology and the like of the existing intelligent parking space, the invention discloses an intelligent roadside parking device based on an intelligent lamp pole, which comprises: the intelligent street lamp comprises an intelligent lamp pole 1, a street lamp controller 2, a street lamp power supply loop 3, a main machine box 4, a local controller 5, a lifting baffle 6, a transmission shaft 7, an anti-escape roller 8, a stepping motor 9, a pressure sensor 10, a communication module 11, a camera 12, a lifting motor 13, a device identification two-dimensional code 14, a camera cover 15, a detection box 16, a geomagnetic sensor 17, a microwave radar sensor 18, an infrared sensor 19, a buzzer 20 and a remote control platform 21; the intelligent lamp post 1 is arranged at the roadside, and the intelligent lamp post 1 is provided with a street lamp controller 2 and a street lamp power supply loop 3; the street lamp controller 2 is connected with the street lamp power supply loop 3; the street lamp power supply loop 3 is connected with a power line of a local controller 5; the main machine box 4 is arranged at a curb of a road, a device identification two-dimensional code 14 is printed on the upper surface of the main machine box 4, a mounting hole is formed in the upper side of the main machine box 4 and used for mounting a camera cover 15, and a mounting hole for mounting the transmission shaft 7 is formed in the side edge of the main machine box 4; the local controller 5 is arranged in the main case 4, and the local controller 5 is electrically connected with the street lamp power supply loop 3; the lifting baffle 6 is arranged on the transmission shaft 7; the transmission shaft 7 is hollow and can allow a cable to pass through, and the transmission shaft 7 is arranged at one end of the main case 4 and is provided with a gear; the anti-escape roller 8 is arranged on the outer side edge of the lifting baffle 6; the stepping motor 9 is arranged in the main machine box 4, the stepping motor 9 is meshed with the transmission shaft 7 through a gear, and the stepping motor 9 is electrically connected with the local controller 5; the pressure sensor 10 is electrically connected with the local controller 5; the communication module 11 is arranged in the main case 4, the communication module 11 is in circuit connection with the local controller 5, and the communication module 11 is in information connection with the remote control platform 21; the camera 12 is arranged in the camera cover 15, and the camera 12 is electrically connected with the local controller 5; the lifting motor 13 is arranged in the main machine box 4, the shaft of the lifting motor 13 is connected with the camera hood 15, and the lifting motor 13 is electrically connected with the local controller 5; the camera cover 15 is arranged in the main machine box 4, and the camera cover 15 can be driven by the lifting motor 13 to rotate along the shaft, so that the camera 12 can be extended out and the camera 12 can be retracted; the detection box 16 is arranged at the other end of the detection box 41.2-1.5 m away from the main machine box, a mounting hole for mounting the transmission shaft 7 is formed in the side edge of the detection box 16, a detection hole is formed in the detection box 16, and the detection hole is sealed by plastic or glass, so that the interior of the detection box 16 is in a closed state; the geomagnetic sensor 17 is installed in the detection box 16, and the geomagnetic sensor 17 is electrically connected with the local controller 5; the microwave radar sensor 18 is arranged in the detection box 16, and the microwave radar sensor 18 is electrically connected with the local controller 5; the infrared sensor 19 is arranged in the detection box 16, and the infrared sensor 19 is electrically connected with the local controller 5; the buzzer 20 is arranged in the detection box 16, and the buzzer 20 is electrically connected with the local controller 5; the remote control platform 21 comprises a control host and a server; the street lamp controller 2, the street lamp power supply loop 3 and the local controller 5 form an electric power loop of the intelligent parking device; the local controller 5, the communication module 11 and the remote control platform 21 form a control information loop of the intelligent parking device; the pressure sensor 10, the camera 12, the geomagnetic sensor 17, the microwave radar sensor 18 and the infrared sensor 19 form a detection module of the intelligent parking device.

Street lamp power supply circuit 3, its characterized in that street lamp power supply circuit 3 includes: the street lamp power supply system comprises a street lamp box transformer, a street lamp power wire, a street lamp light source, a street lamp controller and an intelligent parking device, wherein the street lamp controller 2 and the intelligent parking device are connected in parallel in a street lamp power supply loop 3, the street lamp controller 2 turns off a street lamp light source power supply in daytime, the street lamp power supply loop 3 only supplies power to an intelligent parking system, the street lamp controller 2 turns on the street lamp power supply at night, and the street lamp power supply loop 3 simultaneously supplies power to the street lamp light source and the intelligent parking system.

The local controller 5 is connected with the pressure sensor 10, the camera 12, the geomagnetic sensor 17, the microwave radar sensor 18 and the infrared sensor 19 through signal lines to acquire vehicle parking information near the intelligent parking space, meanwhile, the local controller 5 is connected with the communication module 11 through a circuit through signals, the local controller 5 feeds the acquired vehicle parking information to the communication module 11, the communication module 11 reports the information to a server of the remote control platform 21 in a wireless transmission mode and stores the information in a memory, the remote control platform 21 sends control information to the local controller 5 through the communication module 11 after acquiring the parking information, the local controller 5 starts the stepping motor 9, the stepping motor 9 rotates through the transmission shaft 7 to adjust the height of the lifting baffle 6.

Lifting baffle 6 be 1.2~1.5m long, 20~30cm wide, the hollow metal hardboard that 2~3cm is thick, one side on the long limit of lifting baffle 6 is provided with the mounting groove, can fix on transmission shaft 7, be provided with the fixed axle that is used for installing anti-escape gyro wheel 8 on another long edge relative with the mounting groove.

The anti-escape roller 8 is a hollow thick plastic pipe, the diameter of the thick plastic pipe is 0.2-1cm larger than that of the roller fixing shaft, the length of each roller is 20-35cm, the thickness of the pipe wall is 0.5-0.8cm, and 3-4 anti-escape rollers 8 form a group and are arranged on a roller shaft of the lifting baffle 6.

The stepping motor 9 is connected with the local controller 5 through a circuit, the stepping motor 9 can receive a control signal of the local controller 5, and the stepping motor 9 drives the lifting baffle 6 to rotate through the transmission shaft 7, so that the lifting of the lifting baffle 6 is realized.

The camera 12 is characterized in that the camera 12 is installed in a camera cover 15, the shooting angle is the opening direction of the camera cover 15, and the camera 12 is in circuit connection with the local controller 5 through a circuit and is connected with the communication module 11 through a network port.

The device identification two-dimensional code 14 is characterized in that each parking device of the device identification two-dimensional code 14 has a unique two-dimensional code, the information of the two-dimensional code is generated by the ID number information of the communication module 11 of the parking device, and the operation conditions of charging, failure and the like of the parking device under the information of the two-dimensional code can be known by scanning the two-dimensional code.

Pressure sensor 10, its characterized in that pressure sensor 10 is a pressure switch, pressure sensor 10 fixed mounting is in the one end of lifting baffle 6, when the vehicle escapes and crosses lifting baffle 6 by force, lifting baffle 6 pressurized, the combination of pressure sensor 10 switch, local controller 5 receives pressure sensor 10 information and starts camera 12 work immediately, elevator motor 13 work, camera hood 15 stretches out from host computer box 4, shoot peripheral vehicle, and send video information to remote control platform 21 through communication module 11, monitor the vehicle that escapes.

The communication module 11 is in information communication with the remote control platform 21 through 4G or 5G communication.

The camera head cover 15 is a hexahedron structure with two open sides, the camera head cover 15 is provided with a rotating shaft, and the rotating shaft is mechanically connected with a shaft of the lifting motor 13.

An application method of an intelligent roadside parking device based on intelligent lamp pole power supply comprises the following processes:

step 1 detecting vehicle parking

The method comprises the steps that a geomagnetic sensor 17, a microwave radar sensor 18 and an infrared sensor 19 detect vehicle condition information near an intelligent parking space once every 1 minute, when a vehicle approaches to parking, the geomagnetic sensor 17 detects a metal object signal, the microwave radar sensor 18 detects that the distance between the microwave radar sensor and the metal object is not more than 50cm, the infrared sensor 19 detects that the temperature of the close-distance metal object is higher than the ambient temperature, when the metal signal which is higher than the ambient temperature and is close to the ambient temperature is detected at the same time in five minutes, namely, the vehicle is parked in the parking space, a local controller 5 sends a vehicle parking signal to a remote control platform 21 through a communication module 11, the remote control platform 21 registers the number and the time of the used intelligent parking space in a server, meanwhile, the local controller 5 starts a stepping motor 9 to lift a lifting baffle 6 and simultaneously starts a buzzer 20, reminding surrounding personnel to pay attention to the fact that the lifting baffle 6 is rising, when the lifting baffle 6 rises to a specified position, the local controller 5 turns off the stepping motor 9, and simultaneously turns off the buzzer 20;

step 2, the vehicle finishes parking and leaves for payment

After a user scans the two-dimensional code 14 identified by the device on the host box 4, the user accesses the server of the remote control platform 21, the remote control platform 21 calls the service time of the corresponding intelligent parking space, charges the user after calculating the cost, sends an unlocking signal to the local controller 5 through the communication module 11 after the user pays the fee, the local controller 5 starts the stepping motor 9 after receiving the signal, lowers the lifting baffle 6 and starts the buzzer 20 at the same time, reminds the user that the lifting baffle 6 is descending, after the lifting baffle 6 is lowered to the horizontal position, the local controller 5 closes the stepping motor 9 and closes the buzzer 20 at the same time, and after the user puts the vehicle out of the intelligent parking space, one-time parking service is completed;

step 3, preventing the parked vehicles from escaping

When the owner does not pay fees and tries to cross the lifting baffle plate to escape when the lifting baffle plate 6 is in a lifting state, firstly, the wheels contact the anti-escape roller 8, the anti-escape roller 8 can roll freely, the function of preventing the vehicle from directly crossing the lifting baffle plate 6 is achieved, when the owner continues to escape, the lifting baffle plate 6 is pressed to displace, switches of the pressure sensors 10 are combined, the local controller 5 receives information of the pressure sensors 10 and immediately starts the camera 12 to work, the lifting motor 13 works, the camera cover 15 extends out of the main machine box 4, meanwhile, the buzzer 20 buzzes, the camera 12 shoots a video with the duration of 1-2 minutes for the escaping vehicle, the video information is sent to the remote control platform 21 through the communication module 11, the remote control platform 21 identifies the license plate number of the escaping vehicle and lists the license plate number in a message losing user list, and the buzzer 20 is closed after alarming for 1 minute, the local controller 5 resets the lifting baffle 6, if the lifting baffle is reset normally, the parking device is recovered to be normal, if the lifting baffle cannot be reset normally, the local controller 5 sends out a fault of the parking device, gives a fault alarm, sends fault alarm information to the remote control platform 21 through the communication module 11, and the operation and maintenance personnel can timely maintain on site after receiving the alarm.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The street lamp controller 2 adopts QX-WE-MA-4G10 of Changzhou inspiring lighting technology Limited, the street lamp controller has an RS845 communication interface and CAN simultaneously meet the requirement of remotely controlling a street lamp by 4G, the local controller 5 adopts STM32F103RET6 type, the chip module is based on an ARM high-density performance line 32-bit MCU, has 265-bit 512-bit flash memory, USB, CAN,11 timers, 3 ADCs and 13 communication interfaces and CAN meet the technical requirement of locally controlling the chip module, the pressure sensor 10 adopts an MP3V5050GP force sensitive pressure sensor of Hongzhou Hongjingjingjingji micro technology Limited, the communication module 11 adopts an SIM 7600-M7600 CE communication chip of Shenzhen Xinlang electronic technology Limited, supports frequency bands of B34/B38/B39/B40/B41/B1 and the like, supports various USB driving systems and CAN maximally meet the requirement of products, geomagnetic sensor 17 adopts Sichuan brocade honest science and technology limited's JRZC series geomagnetic sensor, microwave radar sensor 18 adopts Shenzhen Baiyuda science and technology limited's K-LD7 RFbeam microwave radar sensor, this radar sensor includes 3X 4 patch antenna radar front end and powerful's signal processing unit that has asymmetric wave beam, four configurable digital output have, be used for signal detection information, infrared inductor 19 adopts Shenzhen special wheel electron limited's DPS101B heat release infrared sensor, remote control platform 21 shows each item operating parameter of intelligent parking stall through the form of monitor with the picture and text, carry out remote monitoring to the operation of intelligent parking stall.

In the description of the present invention, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (10)

1. The utility model provides a wisdom roadside parking device based on intelligence lamp pole, includes: the intelligent street lamp comprises an intelligent lamp pole, a street lamp controller, a street lamp power supply circuit, a host box, a local controller, a lifting baffle, a transmission shaft, an escape-proof roller, a stepping motor, a pressure sensor, a communication module, a camera, a lifting motor, a device identification two-dimensional code, a camera cover, a detection box, a geomagnetic sensor, a microwave radar sensor, an infrared sensor, a buzzer and a remote control platform; the intelligent lamp post is characterized in that the intelligent lamp post is provided with a street lamp controller and a street lamp power supply loop; the street lamp controller is connected with a street lamp power supply loop; the street lamp power supply loop is connected with a power line of the local controller; the main machine box is arranged at a curb of a road, a device identification two-dimensional code is printed on the upper surface of the main machine box, an installation hole is formed in the upper side of the main machine box and used for installing a camera cover, and an installation hole for installing a transmission shaft is formed in the side edge of the main machine box;

the local controller is arranged in the host box and is connected with the street lamp power supply loop circuit; the lifting baffle is arranged on the transmission shaft; the transmission shaft is internally of a hollow structure and can allow a cable to pass through, and one end of the transmission shaft, which is arranged on the main case, is provided with a gear; the anti-escape roller is arranged on the outer side edge of the lifting baffle; the stepping motor is arranged in the host box, meshed with the transmission shaft through a gear and connected with the local controller circuit; the pressure sensor is connected with the local controller circuit; the communication module is arranged in the host box, is connected with the local controller circuit and is in information connection with the remote control platform;

the camera is arranged in the camera cover and is connected with the local controller circuit; the lifting motor is arranged in the host box, a shaft of the lifting motor is connected with the camera cover, and the lifting motor is connected with the local controller circuit; the camera cover is arranged in the host box and can be driven by the lifting motor to rotate along the shaft, so that the camera can be extended out and retracted;

the detection box is arranged at the other end which is 1.2-1.5 m away from the main machine box, a mounting hole for mounting the transmission shaft is arranged on the side edge of the detection box, a detection hole is arranged on the detection box, and the detection hole is packaged by plastic or glass, so that the interior of the detection box is in a closed state; the geomagnetic sensor is arranged in the detection box and is connected with the local controller circuit; the microwave radar sensor is arranged in the detection box and is connected with the local controller circuit; the infrared sensor is arranged in the detection box and is connected with the local controller circuit; the buzzer is arranged in the detection box and is connected with the local controller circuit; the remote control platform comprises a control host and a server; the street lamp controller, the street lamp power supply loop and the local controller form a power loop of the intelligent parking device; the local controller, the communication module and the remote control platform form a control information loop of the intelligent parking device; the pressure sensor, the camera, the geomagnetic sensor, the microwave radar sensor and the infrared sensor form a detection module of the intelligent parking device.

2. The intelligent street parking device based on intelligent lamp pole as claimed in claim 1, wherein the street lamp power supply circuit comprises: the street lamp power supply circuit comprises a street lamp box transformer, a street lamp power wire, a street lamp light source, a street lamp controller and an intelligent parking device, wherein the street lamp controller and the intelligent parking device are connected in parallel in a street lamp power supply loop, the street lamp controller turns off a street lamp light source power supply in daytime, the street lamp power supply loop only supplies power to an intelligent parking system, the street lamp controller turns on the street lamp power supply at night, and the street lamp power supply loop supplies power to the street lamp light source and the intelligent parking system simultaneously.

3. The intelligent roadside parking device based on the intelligent lamp post as claimed in claim 1, wherein the local controller is connected with the pressure sensor, the camera, the geomagnetic sensor, the microwave radar sensor and the infrared sensor through signal lines to acquire parking information of vehicles near the intelligent parking space, meanwhile, the local controller is connected with the communication module through a circuit, the local controller feeds the acquired parking information to the communication module, the communication module reports the information to the server of the remote control platform in a wireless transmission mode and stores the information in the memory, the remote control platform issues control information to the local controller through the communication module after acquiring the parking information, the local controller starts the stepping motor, and the stepping motor rotates through the transmission shaft to adjust the height of the lifting baffle.

4. The intelligent lamp post-based intelligent roadside parking device as claimed in claim 1 or 3, wherein the lifting baffle is a hollow metal hard plate with a length of 1.2-1.5 m, a width of 20-30 cm and a thickness of 2-3 cm, one side of the long side of the lifting baffle is provided with a mounting groove which can be fixed on the transmission shaft, and the other long side opposite to the mounting groove is provided with a fixing shaft for mounting an anti-escape roller.

5. The intelligent lamp pole-based intelligent roadside parking device as claimed in claim 1 or 3, wherein the anti-escape roller is a hollow thick plastic tube, the diameter of the thick plastic tube is 0.2-1cm larger than that of the roller fixing shaft, the length of each roller is 20-35cm, the thickness of the tube wall is 0.5-0.8cm, and 3-4 anti-escape rollers are arranged on the roller shaft of the lifting baffle in a group.

6. The intelligent lamp post-based intelligent roadside parking device as claimed in claim 1 or 3, wherein the stepping motor is connected with the local controller circuit through a circuit, the stepping motor can receive a control signal of the local controller, and the stepping motor drives the lifting baffle to rotate through the transmission shaft, so as to realize lifting of the lifting baffle.

7. The intelligent lamp post-based intelligent roadside parking device as claimed in claim 1, wherein the device identifies two-dimensional codes, each parking device has a unique two-dimensional code, the information of the two-dimensional codes is generated by ID number information of a communication module of the parking device, and the two-dimensional codes can be scanned to know the running conditions of charging, faults and the like of the parking device under the information of the two-dimensional codes.

8. The intelligent lamp pole-based intelligent roadside parking device as claimed in claim 1 or 3, wherein the pressure sensor is a pressure switch, the pressure sensor is fixedly installed at one end of the lifting baffle, when a vehicle escapes and forcibly crosses the lifting baffle, the lifting baffle is pressed, the pressure sensor switch is combined, the local controller receives information of the pressure sensor and immediately starts the camera to work, the lifting motor works, the camera cover extends out of the main box to take pictures of surrounding vehicles, and sends video information to the remote control platform through the communication module to monitor escaping vehicles.

9. The intelligent lamp pole-based intelligent roadside parking device of claim 1 wherein the communication module is in information communication with the remote control platform through 4G or 5G communication.

10. An application method of an intelligent roadside parking device based on intelligent lamp pole power supply comprises the following processes:

step 1 detecting vehicle parking

The intelligent parking lot parking system comprises a geomagnetic sensor, a microwave radar sensor and an infrared sensor, wherein the geomagnetic sensor detects vehicle condition information near an intelligent parking lot every 1 minute, when a vehicle approaches to park, the geomagnetic sensor detects a metal object signal, the microwave radar sensor detects that the distance between the microwave radar sensor and the metal object is not more than 50cm, the infrared sensor detects that the temperature of the close-distance metal object is higher than the ambient temperature, and when the vehicle simultaneously detects metal signals which are higher than the ambient temperature and are closer in distance within five minutes, which indicates that the vehicle parks in the parking lot, a local controller sends a parking signal to a remote control platform through a communication module, the remote control platform registers the number and time of the used intelligent parking lot in a server, and simultaneously starts a stepping motor to lift a lifting baffle and a buzzer to remind surrounding personnel of paying attention to the lifting baffle, when the lifting baffle rises to a specified position, the local controller turns off the stepping motor and simultaneously turns off the buzzer;

step 2, the vehicle finishes parking and leaves for payment

After a user identifies a two-dimensional code by scanning a device on a host box, a server of a remote control platform is accessed, the remote control platform calls the service time of a corresponding intelligent parking space, charges the user after calculating the cost, sends an unlocking signal to a local controller through a communication module after the user pays the fee, starts a stepping motor after the local controller receives the signal, enables a lifting baffle to descend, starts a buzzer at the same time, reminds the user that the lifting baffle descends, and after the lifting baffle descends to a horizontal position, the local controller closes the stepping motor and closes the buzzer at the same time, so that after the user leaves the vehicle out of the intelligent parking space, one-time parking service is completed;

step 3, preventing the parked vehicles from escaping

When the owner does not pay fees and tries to cross the lifting baffle to escape when the lifting baffle is in a rising state, the wheels contact the anti-escape roller wheel, the anti-escape roller wheel can roll freely, the function of preventing the vehicle from directly crossing the lifting baffle is achieved, when the owner continues to escape, the lifting baffle is pressed to be displaced, the pressure sensor switches are combined, the local controller receives information of the pressure sensor and immediately starts the camera to work, the lifting motor works, the camera cover extends out of the main box, the buzzer buzzes at the same time, the camera shoots a video with the duration of 1-2 minutes for the escaping vehicle and sends the video information to the remote control platform through the communication module, the remote control platform identifies the license plate number of the escaping vehicle and lists the license plate number into a loss-of-information user list, the buzzer is closed after alarming for 1 minute, and the local controller resets the lifting baffle, if the parking device is reset normally, the parking device is recovered to be normal, if the parking device cannot be reset normally, the local controller sends out a fault of the parking device, the fault alarm is carried out, fault alarm information is sent to the remote control platform through the communication module, and operation and maintenance personnel can carry out field maintenance timely after receiving the alarm.

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