CN216014473U - Roadside intelligent parking system - Google Patents

Abstract

The utility model discloses a roadside intelligent parking system, which relates to the technical field of intelligent parking and comprises a parking space detection module, a license plate recognition module, a processor module and an intelligent parking system, wherein the parking space detection module detects vehicle entering and exiting information, the parking space detection module transmits the detection information to the processor module through a communication bus, the license plate recognition module recognizes the license plate information after receiving a vehicle entering signal, the license plate information is transmitted to the intelligent parking system through a wireless transmission unit of the processor module and is charged, after the vehicle exits, the parking space detection module detects the vehicle exiting information and transmits the vehicle exiting information to the processor module, a plurality of traditional cameras are replaced by a single movable camera, the cost is effectively saved, and the maintenance task can be effectively reduced by the single camera relative to the plurality of cameras, this wisdom parking system can be applicable to the unmanned charging of a plurality of parking stalls in roadside.

Description

Roadside intelligent parking system

Technical Field

The utility model relates to the technical field of intelligent parking, in particular to a roadside intelligent parking system.

Background

Since the reform is open, the road traffic pattern has changed greatly with the continuous increase of road construction, and more motor vehicles appear in people's life, and along with the increase of motor vehicles, the garage can not satisfy the demand of motor vehicles growing sharply. The motor vehicle roadside parking refers to the behavior that a motor vehicle parks the vehicle on an urban road by using a roadside parking berth, and can effectively relieve the parking pressure of people.

The existing roadside parking system still has certain defects when in use, the existing roadside parking system realizes the function of unmanned automatic charging, but the function is realized by matching one parking space with one camera, when a vehicle drives into the parking space, the camera on the parking space shoots the license plate information of the vehicle, identifies and charges, a plurality of continuous parking spaces are arranged on the roadside in the actual use process, if one camera is arranged on each parking space, the cost is increased, and the camera is inconvenient to maintain and repair. Therefore, it is necessary to provide a roadside intelligent parking system to overcome the shortcomings of the prior art.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a roadside intelligent parking system which can effectively reduce the cost.

In order to achieve the purpose, the roadside intelligent parking system comprises a parking space detection module, a license plate recognition module, a processor module and an intelligent parking system, wherein the parking space detection module detects vehicle entrance and exit information, the parking space detection module transmits the detection information to the processor module through a communication bus, the license plate recognition module recognizes the license plate information after receiving a vehicle entrance signal, the license plate information is transmitted to the intelligent parking system through a wireless transmission unit of the processor module and is charged, after the vehicle exits, the parking space detection module detects the vehicle exit information and transmits the vehicle exit information to the processor module, the processor module transmits the vehicle exit information to the intelligent parking system through the wireless transmission unit, and the intelligent parking system stops charging and transmits the charging to a mobile client.

The license plate recognition module comprises a ground rail trolley and a track, a fixed rod is vertically fixed at the top of the ground rail trolley, a camera used for shooting a license plate is installed at the top of the fixed rod through a connecting rod, the ground rail trolley drives a roller to rotate through a built-in servo motor, and the roller drives the camera to move and adjust the position along the track in a rotating mode.

Preferably, parking stall detection module includes earth magnetism sensor, and earth magnetism sensor buries underground in corresponding the parking stall and utilizes earth magnetism to change detection vehicle information.

Preferably, the track is arranged along the steps of the road edge, the guide rails are symmetrically arranged in front of and behind the inner wall of the track, the outer side of the roller extends out of the roller, and the roller rolls along the upper end face of the guide rails when the roller rotates.

Preferably, a filter plate for filtering rainwater impurities is paved at the bottom of the track, and a drainage channel is obliquely arranged below the filter plate.

Preferably, the dead lever is provided with a light screen with a rectangular structure, the two sides of the track are provided with position detectors, each parking space corresponds to one position detector, each position detector comprises a photoelectric emission end and a photoelectric receiving end, the photoelectric receiving end is used for receiving photoelectric signals emitted by the photoelectric emission end, and the light screen corresponds to the positions of the photoelectric emission end and the photoelectric receiving end.

Preferably, a power box is further arranged on the fixing rod, a mobile power supply is arranged in the power box, and the mobile power supply is electrically connected with the camera and the rail trolley.

The utility model has the following beneficial effects:

according to the roadside intelligent parking system, the ground rail trolley is adopted to drive the cameras to move to shoot vehicle information, the movable single camera replaces a plurality of traditional cameras, the cost is effectively saved, the maintenance and repair tasks can be effectively reduced by the single camera relative to the plurality of cameras, the roadside intelligent parking system can be suitable for unmanned charging of a plurality of parking places on the roadside, and the applicability is stronger.

Drawings

The present invention will be further described and illustrated with reference to the following drawings.

Fig. 1 is a system diagram of a roadside intelligent parking system according to the present invention.

Fig. 2 is a schematic structural diagram of a roadside intelligent parking system according to the present invention.

Fig. 3 is a schematic structural diagram of a license plate recognition module of the roadside intelligent parking system in fig. 2.

Fig. 4 is a schematic diagram of a track structure of the roadside intelligent parking system in fig. 2.

Reference numerals: 1. a parking space detection module; 11. a geomagnetic sensor; 2. a license plate recognition module; 21. A ground rail trolley; 22. a roller; 23. fixing the rod; 24. a connecting rod; 25. a camera; 26. a power supply box; 27. a visor; 3. a processor module; 4. an intelligent parking system; 5. a mobile client; 6. A track; 61. a guide rail; 62. filtering the plate; 63. dredging a water channel; 7. a photoelectric receiving end; 8. a photo-emissive end.

Detailed Description

The technical solution of the present invention will be more clearly and completely explained by the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

Examples

The utility model provides a roadside intelligent parking system, as shown in figures 1 and 2, which comprises a parking space detection module 1, a license plate recognition module 2, a processor module 3 and an intelligent parking system 4, wherein the parking space detection module 1 detects vehicle entrance and exit information, the parking space detection module 1 transmits the detection information to the processor module 3 through a communication bus, after the processor module 3 receives a vehicle entrance signal, the license plate recognition module 2 recognizes the license plate information, the license plate information is transmitted to the intelligent parking system 4 through the wireless transmission unit of the processor module 3 and is charged, after the vehicle is driven out, the parking space detection module 1 detects vehicle driving-out information and transmits the vehicle driving-out information to the processor module 3, the processor module 3 transmits the vehicle driving-out information to the intelligent parking system 4 through the wireless transmission unit, and the intelligent parking system 4 stops charging and sends the charging to the mobile client 5.

In the embodiment, a parking space detection module 1 is arranged on each parking space, after detecting a signal that a vehicle enters the parking space, the parking space detection module 1 sends a vehicle entering signal with a parking space number to a processor module 3, the processor module 3 receives the vehicle entering signal and then sends parking space number information to a license plate recognition module 2, the license plate recognition module 2 receives the parking space number information and moves to a designated parking space to shoot and recognize a license plate of the parking space, the recognized license plate signal is transmitted to the processor module 3, the processor module 3 sends the license plate signal to a smart parking system 4 through a wireless transmission unit, the smart parking system 4 records the license plate number and starts to charge, when the vehicle exits the parking space, the parking space detection module 1 detects a vehicle exiting signal and sends the vehicle exiting signal to the smart parking system 4 through the processor module 3, and the smart parking system 4 charges the vehicle exiting signal after receiving the vehicle exiting signal, finally, the charging list is generated and sent to the mobile client 5.

As shown in fig. 2 and 3, the license plate recognition module 2 includes a ground rail trolley 21 and a rail 6, a fixing rod 23 is vertically fixed on the top of the ground rail trolley 21, a camera 25 for shooting the license plate is installed on the top of the fixing rod 23 through a connecting rod 24, the ground rail trolley 21 drives a roller 22 to rotate through a built-in servo motor, and the roller 22 rotates along the rail 6 to drive the camera 25 to move and adjust the position.

In the embodiment, after the license plate recognition module 2 receives the parking space number information sent by the processor module 3, the servo motor works to drive the ground rail trolley 21 to move along the track 6, when the license plate recognition module moves to the instruction parking space, the position detector beside the parking space detects a signal of the ground rail trolley 21, then the position sensor transmits a position signal of the track 6 trolley to the processor module 3, the processor module 3 controls the track 6 trolley to stop moving, and the camera 25 on the track 6 trolley shoots license plate images and recognizes the images.

As a technical optimization scheme of the present invention, as shown in fig. 2, the parking space detection module 1 includes a geomagnetic sensor 11, and the geomagnetic sensor 11 is embedded in a corresponding parking space and detects vehicle information by using geomagnetic variation.

Through adopting above-mentioned technical scheme, the ground magnetic inductor utilizes the current-carrying magnetic material to carry out the measurement that magnetic field change will be carried out to the theory that resistance characteristic will change when external magnetic field exists, and on the parking stall was imported to the vehicle, the earth magnetism on this parking stall produced and changes to can detect whether the vehicle exists on the parking stall.

As a technical optimization scheme of the present invention, as shown in fig. 4, the track 6 is arranged along the steps of the road, the guide rails 61 are symmetrically arranged in front and at the back of the inner wall of the track 6, the rollers 22 extend from the outer sides of the rollers, and the rollers roll along the upper end surfaces of the guide rails 61 when the rollers 22 rotate.

Through adopting above-mentioned technical scheme to can utilize guide rail 61 to prescribe a limit to the position of gyro wheel 22, spacing around by guide rail 61 when gyro wheel 22 rotates, the roller bearing removes along guide rail 61 up end all the time, can effectively guarantee track 6 dolly in track 6 stability of controlling horizontal migration.

As a technical optimization scheme of the utility model, as shown in fig. 4, a filter plate 62 for filtering rainwater impurities is laid at the bottom of the track 6, and a drainage channel 63 is obliquely arranged below the filter plate 62.

Through adopting above-mentioned technical scheme to in rainy day, the rainwater can flow into in hydrophobic way 63 after filtering through filter plate 62, prevents that track 6 dolly of rainy day 6 ponding from influencing from removing.

As a technical optimization scheme of the present invention, as shown in fig. 2, a light shielding plate 27 in a rectangular structure is arranged on the fixing rod 23, position detectors are arranged on two sides of the track 6, each parking space corresponds to one position detector, each position detector includes a photoelectric emitting end 8 and a photoelectric receiving end 7, the photoelectric receiving end 7 is used for receiving a photoelectric signal emitted by the photoelectric emitting end 8, and the light shielding plate 27 corresponds to the photoelectric emitting end 8 and the photoelectric receiving end 7.

Through adopting above-mentioned technical scheme to can utilize 8 transmission photoelectric signal of photoelectricity transmitting terminal, photoelectricity receiving terminal 7 receives the photoelectricity signal, when 6 dollies on track move the position detector to the parking stall next door, light screen 27 shelters from the photoelectricity signal, and photoelectricity receiving terminal 7 can not receive the photoelectricity signal, can realize the control to 6 dollies on track position.

As a technical optimization scheme of the present invention, as shown in fig. 2, a power box 26 is further disposed on the fixing rod 23, a mobile power source is disposed in the power box 26, and the mobile power source is electrically connected to the camera 25 and the trolley of the track 6.

Through adopting above-mentioned technical scheme, the built-in portable power source of power supply box 26 can not provide the required electric energy of work for camera 25 and track 6 dolly, and portable power source can adopt rechargeable moreover, can be more convenient cooperation track 6 dolly removal for the connection formula power.

The above detailed description merely describes preferred embodiments of the present invention and does not limit the scope of the utility model. Without departing from the spirit and scope of the present invention, it should be understood that various changes, substitutions and alterations can be made herein by those skilled in the art without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents. The scope of the utility model is defined by the claims.

Claims (6)

1. The roadside intelligent parking system is characterized by comprising a parking space detection module, a license plate recognition module, a processor module and an intelligent parking system, the parking space detection module detects the information of the vehicle entering and exiting, the parking space detection module transmits the detection information to the processor module through the communication bus, after the processor module receives the vehicle driving-in signal, the license plate recognition module recognizes the license plate information, the license plate information is transmitted to the intelligent parking system through the wireless transmission unit of the processor module and is charged, after the vehicle is driven out, the parking space detection module detects the vehicle driving-out information and transmits the vehicle driving-out information to the processor module, the processor module transmits vehicle driving-out information to the intelligent parking system through the wireless transmission unit, and the intelligent parking system stops charging and sends the charging to the mobile client;

the license plate recognition module comprises a ground rail trolley and a track, a fixed rod is vertically fixed at the top of the ground rail trolley, a camera used for shooting a license plate is installed at the top of the fixed rod through a connecting rod, the ground rail trolley drives a roller to rotate through a built-in servo motor, and the roller drives the camera to move and adjust the position along the track in a rotating mode.

2. The system of claim 1, wherein the parking space detection module comprises a geomagnetic sensor, and the geomagnetic sensor is embedded in a corresponding parking space and detects vehicle information by using geomagnetic variation.

3. The roadside intelligent parking system as claimed in claim 1, wherein the track is arranged along a roadside step, the track is symmetrically provided with guide rails at the front and rear of the inner wall of the track, the outer side of the roller extends out of a roller, and the roller rolls along the upper end face of the guide rails when the roller rotates.

4. The roadside intelligent parking system according to claim 1, wherein a filter plate for filtering rainwater impurities is laid at the bottom of the rail, and a drainage channel is obliquely arranged below the filter plate.

5. The system of claim 1, wherein the fixing rod is provided with a light shielding plate having a rectangular structure, the two sides of the track are provided with position detectors, one position detector corresponds to each parking space, the position detectors include a photoelectric emitting end and a photoelectric receiving end, the photoelectric receiving end is used for receiving photoelectric signals emitted by the photoelectric emitting end, and the light shielding plate corresponds to the positions of the photoelectric emitting end and the photoelectric receiving end.

6. The roadside intelligent parking system as claimed in claim 1, wherein a power box is further arranged on the fixing rod, a mobile power supply is arranged in the power box, and the mobile power supply is electrically connected with the camera and the rail car.

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