Charging operation and maintenance management method and system for intelligent stereo garage
Technical Field
The invention relates to a charging operation and maintenance management method for a garage, in particular to a charging operation and maintenance management method and a charging operation and maintenance management system for an intelligent three-dimensional garage.
Background
At present, most of domestic intelligent stereo garage charges by adopting a ground parking lot mode, namely, an entrance barrier gate, an entrance camera, an exit barrier gate and an exit camera are arranged at an entrance and an exit of a parking lot. Meanwhile, the stereo garage in the mode needs to be arranged in a centralized mode, when the stereo garage is scattered, a lot of cost can be increased by using the mode, even no space can be used for installing a barrier gate and a camera, and charging cannot be achieved.
Disclosure of Invention
The invention provides a charging operation and maintenance management method and system for an intelligent stereo garage, aiming at the defects of the prior art, and the method and system are suitable for charging, operation and maintenance for the stereo garage (the stereo garage is not a mobile terminal, and the mobile terminal only realizes payment).
This patent is managed every group garage alone, only installs a camera, need not install the banister, has practiced thrift cost and installation space. The large data platform can realize remote monitoring, operation and maintenance, and also realize the functions of reverse query and real-time analysis. The method is completely different from the existing management charging mode for the ground parking space.
The technical scheme adopted by the invention is as follows:
a charging, operation and maintenance management method for an intelligent stereo garage comprises the following steps of charging for use and parking of the garage:
1) a user/driver registers user information and binds a license plate through a mobile phone APP client;
2) when the vehicle is stored in the garage, a driver judges the state of the garage according to the information of the remaining parking spaces displayed by the garage entering and exiting guide module, when the parking operation is allowed, the vehicle is driven to the door of the garage entering room, and the control system controls the automatic door to be opened after the automatic door senses the coming vehicle;
3) the driver parks the vehicle and gets off the vehicle according to the prompt of the parking indication screen in the garage, the position of the wheels in the display and the voice broadcast of the voice prompt module; in the warehousing process, the license plate recognition module recognizes license plate information and sends the license plate information to the touch all-in-one machine;
4) a driver confirms the license plate information, or inputs fingerprint information, or inputs face information to the touch integrated machine and confirms that a hand brake is pulled, a vehicle door is closed, no person exists in the vehicle and clicks the parking operation in sequence, and the automatic door is automatically closed;
5) the garage control system allocates the vehicle to a parking space, finishes the parking operation, takes the time as the vehicle entrance time and starts to charge; the control system uploads the storage position and the entrance time of the vehicle to a local charging management server; the information can be synchronized to a cloud server so that the garage information can be conveniently inquired by a large data platform PC and a mobile phone APP;
6) when a vehicle is taken, a driver inputs license plate information at a mobile phone APP client, the time is taken as the departure time of the vehicle, the start time, the end time, the storage position and the payment amount of the charging are prompted on an APP interface, and the payment is finished by clicking confirmation; the payment completion information is transmitted to a local charge management server, and simultaneously, the payment completion information is synchronously transmitted to a garage cloud server and a big data platform PC, the local charge management server transmits the payment information to a control system, a driver is allowed to complete the car taking operation within a certain time period, and the car taking operation is not completed within the time period, so that the charging is accumulated again;
7) after payment is finished, a driver inputs license plate information, fingerprint information or face information into the touch screen all-in-one machine, the control system compares the license plate information, the fingerprint information or the face information with parking information and payment information, after the comparison is successful, the corresponding vehicle is taken out, the automatic door is opened, and after the driver drives the vehicle away, the automatic door is closed; the control system sends the vehicle driving-out information to the local server and then synchronizes to the cloud server.
An intelligent stereo garage charging, operation and maintenance management system for realizing the intelligent stereo garage charging, operation and maintenance management method comprises a garage electrical control module including a PLC controller, an in-out garage guide module, a garage safety protection module, a license plate recognition module installed in an in-garage room, a touch all-in-one machine installed at a doorway of the in-garage room, a local charging management server, a mobile phone terminal, a cloud server for providing cloud storage, a camera for monitoring important parts in the garage, and a remote big data platform, wherein the remote big data platform comprises a big data platform PC connected with the cloud server and a big display screen; the garage electric control module, the license plate recognition module, the local charging management server and the garage monitoring camera are communicated through a Modbus Tcp/IP protocol, and the local charging management server, the cloud server and the large data platform PC are communicated through the Ethernet.
The invention has the beneficial effects that:
1. the charge operation and maintenance management method and the charge operation and maintenance management system for the intelligent stereo garage have the advantages of simple and convenient operation and one-key vehicle parking; the mobile terminal pays the fee, and reversely inquires the vehicle position and the time of entering and leaving the parking lot; remote operation and maintenance; the dynamic price regulation and control functions and the like, a barrier gate system is omitted, only one entrance camera needs to be installed, the hardware cost and the installation space are saved, and the installation time is saved.
2. According to the charge operation and maintenance management method and system for the intelligent stereo garage, the garage control system and the charge management system are directly butted, the intelligent degree of the stereo garage is greatly improved, the video and information monitoring, operation and maintenance of the garage can be realized remotely, the maintenance cost and time are reduced, and the reliability of the stereo garage is improved. The data of the using condition of the stereo garage is recorded and analyzed, so that the macro management and the price regulation and control are conveniently carried out, and the parking resources are fully utilized.
3. According to the charge operation and maintenance management method and system for the intelligent stereo garage, the garage control system, the charge management system and the mobile terminal are directly connected, so that the position of a vehicle can be remotely inquired, the parking and taking time can be remotely reserved, the use of a driver is facilitated, and the use experience of the stereo garage is improved.
Drawings
Fig. 1 is a data transmission diagram of uploading of stereo garage related information and charging information to a big data platform;
FIG. 2 is a data transmission flow diagram for large data platform remote monitoring and maintenance;
FIG. 3 is a stereo garage usage and charging process;
fig. 4 is a block diagram showing the principle of the configuration of the loading/unloading guidance module.
Detailed Description
The technical solution of the present invention is further described in detail below by means of specific embodiments and with reference to the accompanying drawings.
Example 1
As shown in fig. 3, the charging operation and maintenance management method for the intelligent stereo garage of the present invention includes the following steps:
1) a user/driver registers user information and binds a license plate through a mobile phone APP client;
2) when the vehicle is stored in the garage, a driver judges the state of the garage according to the information of the remaining parking spaces displayed by the garage entering and exiting guide module, when the parking operation is allowed, the vehicle is driven to the door of the garage entering room, and the control system controls the automatic door to be opened after the automatic door senses the coming vehicle;
3) the driver parks the vehicle and gets off the vehicle according to the prompt of the parking indication screen in the garage, the position of the wheels in the display and the voice broadcast of the voice prompt module; in the warehousing process, the license plate recognition module recognizes license plate information and sends the license plate information to the touch all-in-one machine;
4) a driver confirms the license plate information, or inputs fingerprint information, or inputs face information to the touch integrated machine and confirms that a hand brake is pulled, a vehicle door is closed, no person exists in the vehicle and clicks the parking operation in sequence, and the automatic door is automatically closed;
5) the garage control system allocates the vehicle to a parking space, finishes the parking operation, takes the time as the vehicle entrance time and starts to charge; the control system uploads the storage position and the entrance time of the vehicle to a local charging management server; the information can be synchronized to a cloud server so that the garage information can be conveniently inquired by a large data platform PC and a mobile phone APP;
6) when a vehicle is taken, a driver inputs license plate information at a mobile phone APP client, the time is taken as the departure time of the vehicle, the start time, the end time, the storage position and the payment amount of the charging are prompted on an APP interface, and the payment is finished by clicking confirmation; the payment completion information is transmitted to a local charge management server, and simultaneously, the payment completion information is synchronously transmitted to a garage cloud server and a big data platform PC, the local charge management server transmits the payment information to a control system, a driver is allowed to complete the car taking operation within a certain time period, and the car taking operation is not completed within the time period, so that the charging is accumulated again;
7) after payment is finished, a driver inputs license plate information, fingerprint information or face information into the touch screen all-in-one machine, the control system compares the license plate information, the fingerprint information or the face information with parking information and payment information, after the comparison is successful, the corresponding vehicle is taken out, the automatic door is opened, and after the driver drives the vehicle away, the automatic door is closed; the control system sends the vehicle driving-out information to the local server and then synchronizes to the cloud server.
Example 2
According to the intelligent stereo garage charging operation and maintenance management method, the local charging management server is provided with the charging management software as described in embodiment 1, and the number of parking spaces of the stereo garage, the data of the garage safety protection module, the operation state and the fault information are monitored by acquiring the data of the control system and the touch integrated machine; recording and storing parking vehicle information including entrance time, exit time, parking time, payment amount and payment mode in real time; as shown in fig. 1, the local toll management server and the camera information in the stereo garage are synchronized to the cloud server in real time, so that the garage information can be conveniently inquired by the large data platform PC and the mobile phone APP.
Example 3
The charging, operation and maintenance management method for the intelligent stereo garage of the embodiment is different from that of the embodiment 1 or the embodiment 2 in that: the data of the cloud server are read by the big data platform PC in real time, managers log in through accounts and passwords to carry out remote monitoring, when garage software needs to be upgraded, the managers select corresponding garages on the big data platform software, software updating is clicked, then the big data platform PC updates programs to the control system and the field touch all-in-one machine through the cloud server and the garage local charging management server, and software updating is completed. The system is constructed as shown in fig. 2. By the method, real-time or historical information and video monitoring can be remotely carried out on site, maintenance efficiency is improved, and maintenance cost is saved.
Example 4
The charging, operation and maintenance management method for the intelligent stereo garage of the embodiment is different from the previous embodiments in that: the large data platform PC machine is provided with management software, wherein the management software comprises an account management module, a map distribution module, a charging and traffic flow analysis module and a stereo garage video and information monitoring module; the administrator sets different authorities for different users through the account management module; the map distribution module displays the garages seen in various places on a virtual map, when information of a certain garage needs to be monitored, the project charging management can be accessed by clicking the garage, the traffic flow analysis module analyzes the traffic flow and charging data of the cloud server in real time, and dynamic remote control charging price is performed according to the analysis result; the video and information monitoring module mainly collects relevant information on the cloud server and is used for remote operation and maintenance.
Example 5
The intelligent stereo garage charging, operation and maintenance management method is different from the above embodiments in that the in-out guide module comprises an electronic display screen above an automatic door, a three-color indicator lamp at a door opening of a garage door, a parking indicator screen in the garage door, a camera, a display and a voice prompt module; when the vehicle enters a garage, a driver displays the number of the remaining vehicle according to an electronic display screen above the automatic door, and if the number of the remaining vehicle is not 0, the vehicle can be stored; further according to the three-color indicator light, if the color is green, the entrance can be used; if the color is red, the garage can not be used, and the garage is in a fault or manual state; if the color is yellow, the entrance and exit are busy and need to wait; when a driver drives into the garage, a camera in the garage projects the position of the vehicle onto a display screen, and the driver adjusts the vehicle to a proper position according to the position of the vehicle; when the vehicle enters, the voice prompts the vehicle to go forward, and the parking indicator board prompts an upward arrow; when the vehicle is in place, the voice prompts that the vehicle is in place, and the parking indicator board prompts that the vehicle is OK; the voice prompts a driver to get off the vehicle and the driver arrives on the touch screen to confirm parking; when the vehicle is taken, when the three-color indicator light is green, the vehicle can be taken on the touch screen, after the vehicle is in place, the parking indicator board prompts the OK of the vehicle, and the voice prompts the vehicle to be in place and to be driven out.
Example 6
Referring to fig. 1 and fig. 2, in this embodiment, an intelligent stereo garage charging, operation and maintenance management system for implementing the intelligent stereo garage charging, operation and maintenance management method includes a garage electrical control module including a PLC controller, an in-out garage guiding module, a garage security protection module, a license plate recognition module installed in an in-garage room, a touch all-in-one machine installed at a doorway of the in-garage room (each of the aforementioned modules constitutes garage control system hardware), a local charging management server (a local server in the figure), a mobile phone terminal (an APP client is installed), a cloud server for providing cloud storage, a camera for monitoring important parts in the garage, and a remote big data platform, where the remote big data platform includes a big data platform PC (PC for installing charging, operation and maintenance management software) connected with the cloud server and a large display screen; the garage electric control module, the license plate recognition module, the local charging management server and the garage monitoring camera are communicated through a Modbus Tcp/IP protocol (devices in Modbus Tcp/IP communication and Ethernet communication all have unique IP addresses), and the local charging management server, the cloud server and the large data platform PC are communicated through the Ethernet.
Example 7
The intelligent stereo garage charging, operation and maintenance management system of the embodiment is different from the embodiment 6 in that: the remote big data platform consists of an account management module, a map distribution module, a charging and traffic flow analysis module and a stereo garage video and information monitoring module; the account management module mainly sets different authorities for different users; the map distribution module displays the garages seen in various places on a virtual map, when information of a certain garage needs to be monitored, the project charging management can be accessed by clicking the garage, the traffic flow analysis module analyzes the traffic flow and charging data of the cloud server in real time, and dynamic remote control charging price is performed according to the analysis result; the video and information monitoring module mainly collects relevant information on the cloud server and is used for remote operation and maintenance.
Referring to fig. 4, the intelligent stereo garage charging, operation and maintenance management system comprises an entrance guide module, an exit guide module, a parking guide module and a parking guide module, wherein the entrance guide module comprises an electronic display screen above an automatic door, a three-color indicator lamp at an entrance door opening of a garage, a parking guide screen in the garage, a camera, a display and a voice prompt module; the electronic display screen, the three-color indicator lamp, the parking indicator screen and the voice prompt module are electrically connected with the PLC. The camera, the display screen and the local charging management server (the local server in the figure) are connected.
Example 8
The intelligent stereo garage charging, operation and maintenance management system comprises a stereo garage, a garage electrical control module comprising a PLC, an in-out garage guide module (comprising a display screen above an automatic door, a three-color indicator lamp at the door of an in-garage room, a parking indicator screen in the in-garage room, a camera, a display and a voice prompt module), a garage safety protection module, a license plate recognition module installed in the in-garage room, a touch all-in-one machine installed at the door of the in-garage room, a local charging management server and charging management software installed, a mobile phone APP, a cloud server providing cloud storage, a camera monitoring important parts in the garage, a remote big data platform, wherein the remote big data platform comprises a big data platform PC connected with the cloud server, a large display screen and charging, operation and maintenance management software installed on the PC. The PLC system, the license plate recognition module, the local charging management server and the garage monitoring camera are communicated through a Modbus Tcp/IP protocol, and the local charging management server, the cloud server and the large data platform PC are communicated through the Ethernet. The Modbus Tcp/IP communication equipment and the Ethernet communication equipment have unique IP addresses.
As shown in fig. 3, the stereo garage usage and charging steps are as follows:
1. downloading mobile phone APP software, registering a user and binding own favorite vehicle license plate.
2. The garage is put in storage, and the driver judges the garage state according to the remaining parking stall information of display screen above the automatically-controlled door and the garage door mouth tristimulus designation lamp state of putting in storage, opens the vehicle to the room gate of putting in storage when the operation of allowing the parking is carried out, and the automatically-controlled door senses the back control system control automatically-controlled door of the car and opens.
3. The driver parks the vehicle well and gets off the vehicle according to the prompt of the parking indication screen in the garage, the position of the wheels in the display and the voice broadcast of the voice prompt module. And in the warehousing process, the license plate recognition module recognizes license plate information and sends the license plate information to the touch all-in-one machine.
4. The driver confirms the license plate information, or inputs the fingerprint information, or inputs the face information to the touch integrated machine and confirms that the hand brake is pulled, the vehicle door is closed, no person exists in the vehicle and clicks the parking operation in sequence, and the automatic door is automatically closed.
5. The garage control system distributes the vehicle to the best parking space, finishes the parking operation, takes the time as the vehicle entrance time and starts to charge. And the PLC system uploads the storage position and the entrance time of the vehicle to a local charging management server. The information can be synchronized to a cloud server so that the garage information can be conveniently inquired by a large data platform PC and a mobile phone APP.
6. When a vehicle is taken, a driver inputs license plate information at an APP end of the mobile phone, the time is taken as the departure time of the vehicle, the APP interface prompts the starting time, the ending time, the storage position and the payment amount of the charging, and the payment is finished by clicking confirmation. The payment completion information is transmitted to the local server through the 4G network. Meanwhile, the information can be synchronized to a garage cloud server and a large data platform PC, the local server sends the payment information to the PLC system, the driver is allowed to finish the vehicle taking operation within half an hour, and the vehicle taking operation is not finished within half an hour, so that the charging is accumulated again.
7. After payment is completed, a driver inputs license plate information, fingerprint information or face information in the touch screen all-in-one machine, the PLC compares the license plate information, the fingerprint information or the face information with parking information and payment information, after the comparison is successful, the corresponding vehicle is taken out, the automatic door is opened, and after the driver drives the vehicle away, the automatic door is closed. The PLC sends the vehicle exit information to the local server and then synchronizes to the cloud server.
As shown in fig. 1, the charging management software installed in the local charging management server monitors the number of parking spaces of the stereo garage, the data of the garage safety protection module, the operation state and the fault information by acquiring the data of the PLC and the touch integrated machine; and the parking vehicle information including the entrance time, the exit time, the parking time, the payment amount, the payment mode and the like is recorded and stored in real time. The local charging management server and the camera information in the stereo garage can be synchronized to the cloud server in real time, so that the garage information can be conveniently inquired by the large data platform PC and the mobile phone APP.
As shown in fig. 2, the big data platform PC can read data of the cloud server in real time to the big data platform management software, and a manager logs in through an account and a password to perform remote monitoring, when the garage software needs to be upgraded, the manager can select a corresponding garage on the big data platform software and click software update, and then the big data platform PC updates a program to the PLC and field touch all-in-one machine through the cloud server and the garage local server to complete software update.
The big data platform management software consists of an account management module, a map distribution module, a charging and traffic flow analysis module and a stereo garage video and information monitoring module. The account management module mainly sets different authorities for different users; the map distribution module displays the garages seen in various places on a virtual map, when information of a certain garage needs to be monitored, the garage is clicked, the project charging and traffic flow analysis module can be accessed to analyze the traffic flow and charging data of the cloud server in real time, and the charging price is dynamically and remotely regulated and controlled according to the analysis result; the video and information monitoring module mainly collects relevant information on the cloud server and is used for remote operation and maintenance.
The above examples are only for illustrating the present invention and should not be construed as limiting the scope of the claims of the present invention. It is anticipated that one skilled in the art may implement the embodiments in varying ways in conjunction with the prior art. Other modifications and equivalents of the embodiments of the invention will be apparent to those skilled in the art and are intended to be included within the scope of the claims of the present invention without departing from the spirit and scope of the embodiments of the invention.