Intelligent parking space guard robot management system based on big data system

A management system and robot technology, applied in the field of intelligent parking space guard robot management system, which can solve the problems of crowded public parking, tight parking spaces, and no instructions.

Inactive Publication Date: 2019-09-20
湖南宜得立实业有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, parking in big cities has become a problem, especially in big cities, where parking spaces are tight, and most car owners have private parking spaces in their residences. During off-duty hours, private cars are parked in their respective parking spaces, but when going to work during the day, these private cars flock to public parking spaces in the commuting area, and most of the private parking spaces in their residences are vacant. It is conceivable that public parking resources will be overcrowded during working hours, but private parking spaces are just the opposite when they are free during off-duty hours. Therefore, vacant parking spaces can be used Fragmented time is used to share to solve the problem of public parking congestion
The prior art that can do reference in this respect includes: document CN 208271398 U discloses based on the intelligent community parking space sharing management system of the parking space lock, what it considers is by setting up community parking space cloud server, manages the parking space by the method for controlling the parking space lock by reservation, To rent private parking spaces to car owners who need parking during free time, it needs to establish a cloud server, develop a dedicated APP, and reserve parking spaces according to the specified method, which is still not free and flexible enough to improve the utilization rate of parking spaces. In addition, it does not disclose the specific structure of the parking space lock. , can only be understood as the use of existing parking locks; document CN 105679082 A discloses a method and system for realizing a parking space based on a robot, in which a parking space is selected through an electronic map, and the robot realizes a reservation through a path planning motion occupying a space. The realization of the robot motion control algorithm is very demanding
[0003] In order to prevent the parking spaces from being occupied, some parking space users install parking space locks on the parking spaces, but the use of the parking space locks is cumbersome. Document CN 107687136 A discloses a parking space management system and a parking space management method. The authorized vehicle automatically opens and closes the parking lock. This technology is relatively easy to implement. This scheme does not elaborate on the specific structure of the parking lock, nor does it explain how the vehicle obtains authorization. Then, combined with the existing technology, this method is for the automatic parking lock. There are parking spaces for management, and the parking lock adopts the conventional locking method, but only adds the function of camera recognition license plate and automatic switch lock

Method used

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  • Intelligent parking space guard robot management system based on big data system
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  • Intelligent parking space guard robot management system based on big data system

Examples

Experimental program
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Effect test

Embodiment 1

[0041]Embodiment 1: Introduce a design scheme of a smart parking space guard robot based on magnetic strip positioning, such as figure 1 As shown, firstly bury the positioning magnetic strip (1) on the parking space (0); including: the positioning magnetic strip 1 (11) set at the end of the parking space (0), used to limit the robot (2) to walk to The position at the tail end of the parking space (0); the positioning magnetic strip (12) set near the longitudinal centerline of the parking space, used to limit the walking route of the robot (2); the limit magnetic strip set at the front end of the parking space (0) Two (13), used to limit the robot (2) to the front end of the parking space (0); figure 2 As shown, when the robot (2) is at the end of the parking space (0), the parking space (0) is unlocked, and the vehicle can park on the parking space (0); image 3 As shown, when the robot is parked at the front of the parking space (0), the parking space (0) is locked and vehi...

Embodiment 2

[0042] Embodiment 2: Provide the anti-collision structure design of the above-mentioned or other realization forms of the robot (2), such as Image 6 As shown, the design of the walking path of the robot between the two parking spaces (0) is separated by a certain distance through the limit magnetic strip (11), leaving a parking space for the robot (2) between the parking spaces (0); Figure 7 and 8 As shown, the mobile base (21) of the robot (2) is designed to be L-shaped, which saves the space occupied by the parking space (0) and prevents the chassis of the car from touching the mobile base (21). The internal space reserved by the L-shape is convenient for installing the motor Further, in order to prevent the vehicle from bumping into the robot (2) when it enters the parking space (0), an infrared detector (221) can also be installed on the pole (22) of the robot (2) to emit infrared light and sense measure the distance to the vehicle, and when the distance is too close, t...

Embodiment 3

[0043] Embodiment 3: The walking design scheme of the intelligent parking space guard robot can also adopt the way of guide rails, such as Figure 10 As shown, the guide rail (3) for the robot (2) to walk is set on the parking space (0), and the installation relationship between the guide rail (3) and the robot (2) is as follows Figure 11 and 12 As shown, the bottom of the mobile base (21) of the robot (2) is provided with a positioning groove (213), and there are positioning teeth (214) on the side, and a sliding groove (31) is arranged on the guide rail (3), and the sliding groove (31 ) does not protrude from both ends of the guide rail (3), and the positioning teeth (214) are limited in the sliding groove (31), thereby limiting the movement path of the robot (2) and the positioning of both ends, and the robot can be locked after reaching both ends ( 2), the guide rail (3) can be customized by relevant companies, and it can be installed on the parking space (0) with expans...

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Abstract

The invention provides an intelligent parking space guard robot management system based on a big data system. The intelligent parking space guard robot management system comprises a robot (2) installed on an owner parking place (0), an owner mobile phone in communication connection with the robot (2) and a big data system in communication connection with the robot (2), wherein the robot (2) receives the control of the owner mobile phone and displays renting information of the parking place (0), the robot (2) feeds back the renting information of the parking place (0) to the owner mobile phone in real time, and when the parking place (0) is rented, the robot (2) uploads a license plate number recognized by a license plate recognition camera (235) and a mobile phone number filled in by a car owner of the renting parking place (0) to the big data system for storage, so that a feasible scheme is provided for the intelligent security parking place.

Description

technical field [0001] The invention relates to the technical fields of parking space management and robot control, and specifically provides a solution for guarding parking spaces by robots, including a smart parking space guard robot management system based on a big data system. Background technique [0002] At present, parking in big cities has become a problem, especially in big cities, where parking spaces are tight, and most car owners have private parking spaces in their residences. During off-duty hours, private cars are parked in their respective parking spaces, but when going to work during the day, these private cars flock to public parking spaces in the commuting area, and most of the private parking spaces in their residences are vacant. It is conceivable that public parking resources will be overcrowded during working hours, but private parking spaces are just the opposite when they are free during off-duty hours. Therefore, vacant parking spaces can be used Fr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G08G1/14E04H6/42E01F13/04
CPCE01F13/042E04H6/42G08G1/148G08G1/149
Inventor 胡迎春肖永红
Owner 湖南宜得立实业有限公司
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