Background
With the continuous maturity of transportation business, the long-distance transportation of a large amount of goods also becomes a common method in the current transportation, and when a large amount of goods are transported, the goods are usually shipped by using containers; when the container is used, the use amount of the container is large, all containers cannot be effectively monitored, and the problem that the container is damaged or the operation and maintenance cost is high can occur, so that the operation and maintenance cost of the container in the transportation process can be effectively reduced by the shared operation management system of the container.
There is a scheme of an intelligent container sharing lease operation management system, the structure of which includes: the system comprises a box-mounted terminal, a user terminal, an operation management platform, an area management center and an operation and maintenance center. The box-mounted terminal is in communication connection with the regional operation management center; the regional operation management center and the operation and maintenance center are respectively in communication connection with the operation management platform, and the information of the container and the allocation of container resources are obtained by utilizing the bar code, the sensor and the digital chip on the container.
However, the bar code, the sensor and the digital chip of the box-mounted terminal are easy to damage in the using process, so that the problems of loss caused by the fact that the container cannot be tracked in time and overlarge maintenance cost exist; and the user must pass the management platform to examine and verify first using the container, the platform distributes the container resource, the customer can't choose the container independently, thus can't reach the purpose of high-efficient use and service with customer as the center, support the other place to return even more, has increased the user and used the case cost, inefficiency, inconvenient user's use.
Disclosure of Invention
The invention aims to: aiming at the existing problems, the intelligent container shared leasing operation management system is provided; the invention solves the problems that the container is easy to damage, cannot track in time and is easy to lose due to the box-carried terminal; the problem that the operation and maintenance cost of the box-mounted terminal is high in the later period is solved; the problem that the application box source is long in auditing time and cannot meet the use requirement of a user in time is solved; the problem that remote return is not supported and the use cost of a user is increased is solved.
The technical scheme adopted by the invention is as follows:
An intelligent container shared rental operation management system, comprising: the system comprises an operation management platform for comprehensively managing and analyzing container information, an enterprise management platform for managing the container information by enterprises, an operation and maintenance center for dispatching and monitoring containers, a user terminal for reserving and checking the container information and a container-mounted terminal for controlling and sending the container information; the enterprise management platform is respectively connected with the user terminal and the operation management platform; the box-mounted terminal is respectively connected with the operation and maintenance center and the user terminal; the operation and maintenance center is respectively connected with the operation management platform and the box-mounted terminal; the box-mounted terminal is arranged on the container.
Furthermore, the operation management platform consists of a first order management module, a first container management module, a first personnel management module and a map distribution management module; the first order management module is used for identifying and transmitting the received order information; the first container management module is used for allocating container sources; the first personnel management module is used for managing personnel authority; the map distribution management module is used for management.
Furthermore, the enterprise management platform consists of a second order management module, a second container management module, a second personnel management module and a bill pledge module; the second order management module is used for enterprise order placing management; the second container management module is used for managing the containers issued by the enterprises; the second personnel management module is used for managing enterprise personnel authority; the bill pledge module is used for.
Furthermore, the operation and maintenance center consists of a supervision module and a processing terminal; the supervision module is used for receiving the container scheduling request information and the container maintenance related information, and the processing terminal is used for searching the position of the container, checking the container, reporting damage information, registering the container, activating the container and testing the container-mounted terminal.
further, the processing terminal is an APP or an applet.
Further, the user terminal is composed of an APP and an applet.
Furthermore, the box-mounted terminal consists of an intelligent lock body and a positioner; the intelligent lock body is used for controlling the opening and closing of the container, and the positioner is used for sending the position information of the container.
In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:
1. The invention enables the steps of the user to be simpler and quicker when the user rents the container through the intelligent container sharing renting operation management system, can effectively distinguish and respectively manage the enterprise business and the personal business through the enterprise management platform and the operation management platform, and can also return the used container in the local delivery through the system, thereby saving a large amount of transportation cost.
2. The invention can effectively prevent the container from being damaged or lost through the box-carrying terminal.
example 1
An intelligent container shared leasing operation management system, as shown in fig. 1, in this embodiment, for example, leasing through a shared container includes: the system comprises an operation management platform 1, an enterprise management platform 2, an operation and maintenance center 3, a user terminal 5 and a box-mounted terminal 4; the enterprise management platform 2 is respectively connected with the user terminal 5 and the operation management platform 1; the box-mounted terminal 4 is respectively connected with the operation and maintenance center 3 and the user terminal 5; the operation and maintenance center 3 is respectively connected with the operation management platform 1 and the box-mounted terminal 4; the box-mounted terminal 4 is arranged on the container.
As shown in fig. 2, the operation management platform 1 is composed of a first order management module 11, a first container management module 12, a first personnel management module 13 and a map distribution management module 14, and is used for comprehensively managing and analyzing container information; the first order management module 11 is configured to identify and transmit the received order information, and when the first order management module 11 receives the order information, identify the number of containers, addresses to be transported, and the like required in the order information, and then send the identified information to the first container management module 12; the first container management module 12 is configured to collect the number of containers according to the order information, and after the first container management module 12 receives the order information, collect the number of containers owned by a location indicated by the order information according to the content of the order information, and if the number of containers is smaller than the number required in the order information, the first container management system applies for container scheduling; the first person management module 13 is used for managing the authority of each different operator; the map distribution management module 14 is used for managing a container distribution map, a site map and a track map, and the site position of container leasing, the position of a container in transportation and a transportation track can be inquired through the map distribution management module 14, so that real-time position information of the container can be accurately known.
As shown in fig. 3, the enterprise management platform 2 is composed of a second order management module 21, a second container management module 22, a second personnel management module 23 and a bill pledge module 24, and is configured to manage container information for an enterprise; the second order management module 21 is configured to generate an order, that is, the order may be submitted to the operation management platform 1 through the second order management module 21, and meanwhile, the user may also check the containerization transportation information corresponding to the order information in real time through the second order management module 21; the second container management module 22 is used for acquiring the container information conforming to the order information in real time and feeding the container information back to the second order management module 21, so that a user can conveniently inquire the container condition, such as the position of the container; the second personnel management module 23 is used for managing the authority of enterprise operators; the bill pledge module 24 is used to jump to a third party warehouse pledge platform, that is, after the enterprise reserves an order for a container, the enterprise paid funds are first stored in the third party pledge platform, and after the container is used and returned, the funds are remitted from the third party pledge platform into the account of the container owner.
The operation and maintenance center 3, as shown in fig. 4, is composed of a supervision module 31 and a processing terminal 32, and is used for scheduling and monitoring containers; the monitoring module is used for receiving container scheduling request information and container maintenance related information, when the operation management platform 1 needs to schedule containers, the scheduling information is sent to the supervision module 31, the supervision module 31 can allocate the containers according to the number of the containers in the scheduling information after receiving the scheduling information, so that the containers can be transported to a required place, meanwhile, when the containers are in fault, the fault information is sent to the supervision module 31, and the supervision module 31 carries out maintenance scheduling according to the fault information; the processing terminal 32 is used for searching the position of the container, checking and reporting damage information to the container, registering the container, activating the container and testing the container-mounted terminal 4, in the embodiment, the processing terminal 32 is an APP or a small program, a user can check various items of information of the container at any time on the processing terminal 32, the condition of the container can be known at the first time, and the application for detecting and maintaining the containerization can also be carried out through the processing terminal 32.
The user terminal 5 is an APP or an applet and is used for reserving and checking container information; similar with enterprise management platform 2, user terminal 5 all can use the application to the container, and the user can generate order information through APP or applet, sends this order information to fortune dimension center 3 department, and fortune dimension center 3 can allocate the container through order information, and the user can also look over the positional information of container, the security circumstances etc. in real time simultaneously.
The container terminal 4, as shown in fig. 5, is composed of an intelligent lock body 41 and a locator 42, and is used for controlling and sending container information; the intelligent lock body 41 is arranged on a door of the container and used for controlling the opening and closing of the door of the container, the two-dimensional code is arranged on the intelligent lock body 41, and a user can scan the two-dimensional code through an APP (application) or a small program of the user terminal 5 to perform the operation of opening and closing the lock; the locator 42 is used for sending the position information of the container in real time, and a user can view the position of the corresponding container through the operation management platform 1 or the enterprise management platform 2.
In actual use, a customer can reserve a container for use through the user terminal 5 or the enterprise management platform 2, the operation management platform 1 receives an order and pushes the order, the operation management platform 1 checks the order, schedules and plans a reserved order with insufficient containers at a reserved site on the operation management platform 1, submits scheduling requirements to the operation and maintenance center 3, and the operation and maintenance center 3 performs container scheduling.
After an enterprise performs prepayment on an order on the enterprise management platform 2, after the order passes audit, the enterprise management background generates an authorization code, an enterprise driver inputs the authorization code to pick up a container after scanning the code at an appointment site through the user terminal 5, the operation management platform 1 receives all container numbers rented by the order and actual picking quantities through the user terminal 5, and then the container performs a normal railway freight flow.
In the transportation process, workers can know the container transportation position information through the operation management platform 1, the operation and maintenance center 3 and the enterprise management platform 2; before the goods are about to arrive at the station, the system can give an early warning to the port 2 of the enterprise management platform, remind the user that the container is about to arrive at the station, and remind the client to prepare for getting back the container.
After the container arrives, the shipper uses the user terminal 5 to unlock the container and unload the container, after the use of the container is completed, the shipper needs to close the lock and return the container, when the system recognizes that all the corresponding containers in the order are completely returned, the enterprise can complete the order in the enterprise management background, and then the operation management platform 1 refreshes the data of the container source number and the address; if the goods have problems in road transportation, the problem case source responsible party can be checked through the user terminal 5 and the operation and maintenance center 3, and then responsibility tracing is carried out.
In the whole operation process, if any fault occurs in the box-mounted terminal 4, the operation management platform 1 can be reported through the APP of the user terminal 5 or the operation and maintenance APP of the operation and maintenance center 3, and the operation and maintenance center 3 arranges the maintenance of the fault box-mounted terminal 4.
In the operation later stage, through the operation management platform 1 data summary of many years, obtain different areas of different periods, to the demand level of different containers, through the overall planning of big data more helpful to the operation in management system later stage, this data also very helpful to whole railway transportation system.
The intelligent container sharing leasing operation management system enables the steps of a user when leasing the container to be simpler and faster, can effectively distinguish and respectively manage enterprise and personal services through the enterprise management platform 2 and the operation management platform 1, and can also return the used container in the local delivery area, thereby saving a large amount of transportation cost; and the container can be effectively prevented from being damaged or lost by the box-mounted terminal 4.
The invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification and any novel method or process steps or any novel combination of features disclosed.