CN119228057A - Method, device, equipment and storage medium for managing bulk order collection - Google Patents

Abstract

The present invention relates to the field of logistics, and discloses a method, device, equipment and storage medium for managing the collection of scattered orders. The method is used to manage the third-party pickup request operation initiated by the courier based on the scattered order. The method includes: receiving a third-party pickup request, determining the order number of the requested order based on the third-party pickup request, and obtaining the order information of the requested order based on the order number; judging whether the requested order supports third-party transportation capacity based on the order information of the requested order, and if so, obtaining the delivery address of the requested order; forming an associated order group for the request orders with the same delivery address and the pickup address on the same route; issuing a third-party pickup order based on the associated order group and the delivery address; real-time monitoring of the third-party pickup order, and displaying the current order status of the third-party pickup order and the current location information of the rider.

Description

Scattered order component collection management method, device, equipment and storage medium

Technical Field

The invention relates to the technical field of logistics, in particular to a method, a device, equipment and a storage medium for managing scattered order packages.

Background

The situation of serious challenges of the hand-off of the express receiver or the hand-off of the network point is faced, the situation directly causes delay and unprocessed of the customer order, further triggers the chain reaction of the order loss, and forms a non-neglectable threat to the business operation and brand image of the company. The high expected value of the customer for the service efficiency and the reliability is very easy to be converted into dissatisfaction and disappointment when encountering the dilemma of unmanned taking of the order, and then negative impact is caused to the brand image of the company through public praise propagation or online evaluation. Therefore, a mode is urgently needed to solve the problem that the couriers cannot take the pieces in time or the hands of the couriers in the network are insufficient.

Disclosure of Invention

The invention provides a method, a device, equipment and a storage medium for managing a scattered order package, which are used for managing a third party package taking request job initiated by an express delivery person based on a scattered order.

The first aspect of the invention provides a scattered order component collection management method, which comprises the steps of receiving a third party component taking request, determining an order number of a request order based on the third party component taking request, inquiring and obtaining order information of the request order based on the order number, judging whether the request order supports third party capacity based on the order information of the request order, if so, obtaining a component delivery address of the request order, forming a related order group by the request order with the consistent component delivery address on the same route, issuing a third party component taking order based on the related order group and the component delivery address, monitoring the third party component taking order in real time, and displaying the current order state of the third party component taking order and the current position information of a rider.

Optionally, in a first implementation manner of the first aspect of the present invention, the receiving a third party pickup request, determining an order number of a requested order based on the third party pickup request, and querying based on the order number to obtain order information of the requested order includes receiving a third party pickup request initiated by an courier or a website customer service, where the third party pickup request includes requester information, a request time, and a requested order, analyzing the third party pickup request to obtain a plurality of fields, extracting an order number of the requested order from the plurality of fields, and querying using an sql statement based on the order number to obtain the order information of the requested order.

Optionally, in a second implementation manner of the first aspect of the present invention, the determining whether the request order supports the third party capacity based on the order information of the request order, if yes, acquiring the delivery address of the request order includes determining whether the request order supports the third party capacity based on the order information of the request order, if yes, determining a component collecting site and a component collecting site address based on the order information of the request order, generating delivery address confirmation information based on the component collecting site address, acquiring feedback information based on the delivery address confirmation information, and using the address in the feedback information as the delivery address.

Optionally, in a third implementation manner of the first aspect of the present invention, the determining whether the request order supports third party capacity based on the order information of the request order includes analyzing the order information of the request order to obtain a cargo type and a weight of the request order, if the cargo type of the request order does not belong to a dangerous article, a perishable article or a special limited article and the total weight of the cargo of the request order does not exceed a preset weight, determining that the request order supports third party capacity, and if the cargo type of the request order belongs to any one of a dangerous article, a perishable article or a special limited article or the total weight of the cargo of the request order exceeds a preset weight, determining that the request order does not support third party capacity.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the forming the associated order group by the request orders with consistent delivery addresses and the delivery addresses on the same route includes classifying the request orders according to the delivery addresses, placing the request orders with consistent delivery addresses into the same order set, screening out the request orders with consistent delivery addresses on the same route by using a geographic information technology for each order set, and marking the orders with consistent delivery addresses and with consistent delivery addresses on the same route as the associated order group.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the issuing the third-party replacement part order based on the association order group and the delivery address includes integrating data of the request order in the association order group to obtain a request order information table, adding the delivery address to the request order information table, converting the request order information table into a preset format to obtain a converted request order information table, and issuing the third-party replacement part order based on the converted request order information table.

Optionally, in a sixth implementation manner of the first aspect of the present invention, the monitoring the third party substituted member order in real time and displaying the current order status of the third party substituted member order and the current position information of the rider includes monitoring the third party substituted member order in real time, receiving the processing progress information of the third party substituted member order and the real time position information of the rider, acquiring a preset status tag, updating the current order status of the third party substituted member order based on the processing progress information of the third party substituted member order and displaying the current order status of the third party substituted member order through the status tag, creating a real-time map corresponding to the third party substituted member order, updating the current position information of the rider based on the real time position information of the rider, and displaying the current position information of the rider on the real-time map.

The invention provides a scattered order pickup management device which comprises a query module, a judgment module, a correlation module and a release module, wherein the query module is used for receiving a third party pickup request, determining an order number of a request order based on the third party pickup request, inquiring order information of the request order based on the order number, judging whether the request order supports third party capacity or not based on the order information of the request order, if yes, acquiring a delivery address of the request order, the correlation module is used for conforming the delivery address, and the request order with the delivery address on the same route forms a correlation order group, the release module is used for releasing a third party pickup order based on the correlation order group and the delivery address, and the monitoring module is used for monitoring the third party pickup order in real time and displaying the current order state of the third party pickup order and the current position information of a rider.

Optionally, in a first implementation manner of the second aspect of the present invention, the query module includes a receiving unit, a parsing unit, and a query unit, where the receiving unit is configured to receive a third party pickup request initiated by an courier or a website customer service, the third party pickup request includes requester information, a request time, and a request order, the parsing unit is configured to parse the third party pickup request to obtain a plurality of fields, and extract an order number of the request order from the plurality of fields, and the query unit is configured to query, using an sql statement, based on the order number to obtain order information of the request order.

Optionally, in a second implementation manner of the second aspect of the present invention, the judging module includes a judging unit, configured to judge whether the request order supports the third party capacity based on order information of the request order, a determining unit, configured to determine, when the request order supports the third party capacity, a part-collecting site and a part-collecting site address based on order information of the request order, and a generating unit, configured to generate part-collecting address confirmation information based on the part-collecting site address, and acquire feedback information based on the part-collecting address confirmation information, and use an address in the feedback information as a part-collecting address.

Optionally, in a third implementation manner of the second aspect of the present invention, the association module includes a classification unit, a screening unit, and an association unit, where the classification unit is configured to classify the request orders according to delivery addresses, and put the request orders with consistent delivery addresses into a same order set, the screening unit is configured to screen, for each order set, request orders with a delivery address on a same route by using a geographic information technology, and the association unit is configured to mark orders with consistent delivery addresses and delivery addresses on a same route as an association order group.

Optionally, in a fourth implementation manner of the second aspect of the present invention, the issuing module includes an integrating unit, configured to integrate data of the request orders in the associated order group to obtain a request order information table, a converting unit, configured to add a delivery address to the request order information table, and convert the request order information table into a preset format to obtain a converted request order information table, and an issuing unit, configured to issue a third party substitute order based on the converted request order information table.

Optionally, in a fifth implementation manner of the second aspect of the present invention, the monitoring module includes the real-time monitoring of the third party replacement order and displaying a current order state of the third party replacement order and current position information of a rider, and includes a monitoring unit configured to monitor the third party replacement order in real time, receive processing progress information of the third party replacement order and real-time position information of the rider, a first display unit configured to obtain a preset status tag, update the current order state of the third party replacement order based on the processing progress information of the third party replacement order, and display the current order state of the third party replacement order through the status tag, and a second display unit configured to create a real-time map corresponding to the third party replacement order, update the current position information of the rider based on the real-time position information of the rider, and display the current position information of the rider on the real-time map.

The third aspect of the invention provides a scattered order component collection management device, which comprises a memory and at least one processor, wherein computer readable instructions are stored in the memory, the memory and the at least one processor are interconnected through a line, and the at least one processor calls the computer readable instructions in the memory so that the scattered order component collection management device executes the steps of the scattered order component collection management method.

A fourth aspect of the present invention provides a computer readable storage medium having stored therein computer readable instructions which when run on a computer cause the computer to perform the steps of a method of order package management as described above.

According to the technical scheme provided by the invention, when the request order supports the third party capacity, the delivery addresses are consistent, the request order with the delivery addresses on the same route forms the associated order group, the third party delivery order is released based on the associated order group and the delivery addresses, finally, the third party delivery order is monitored in real time, the current order state of the third party delivery order and the current position information of a rider are displayed, when an express delivery person asks for a false or a network personnel is insufficient, the express delivery person can respond rapidly, the delivery taking capacity is supplemented through the third party capacity, the order is ensured not to be influenced, the flexibility and the toughness of the whole logistics system are improved, meanwhile, part of the order is accepted by the third party capacity, the operation cost of a network site or an express delivery company can be effectively shared, and particularly, in a peak period or a special condition, the temporary labor cost increased due to the shortage of the personnel is avoided.

Drawings

FIG. 1 is a first flowchart of a method for managing a package for a bulk order according to an embodiment of the present invention;

FIG. 2 is a second flowchart of a method for managing package pickup of a bulk bill order according to an embodiment of the present invention;

FIG. 3 is a third flowchart of a method for managing package pickup of a bulk bill order according to an embodiment of the present invention;

FIG. 4 is a fourth flowchart of a method for managing package pickup for a bulk bill order according to an embodiment of the present invention;

FIG. 5 is a fifth flowchart of a method for managing package pickup for a bulk bill order according to an embodiment of the present invention;

FIG. 6 is a sixth flowchart of a method for managing package pickup for a bulk bill order according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a device for managing package pickup of a loose order according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a device for managing a package for a loose order according to an embodiment of the present invention.

Detailed Description

The embodiment of the invention provides a method, a device, equipment and a storage medium for managing a scattered order package, wherein the method is used for managing a third party package taking request job initiated by an express delivery person based on a scattered order. The method comprises the steps of receiving a third party pickup request, determining an order number of a request order based on the third party pickup request, inquiring order information of the request order based on the order number, judging whether the request order supports third party capacity or not based on the order information of the request order, acquiring a delivery address of the request order if the request order supports the third party capacity, enabling the delivery address to be consistent, and collecting the request order with the delivery address on the same route to form a related order group, issuing a third party pickup order based on the related order group and the delivery address, monitoring the third party pickup order in real time, and displaying the current order state of the third party pickup order and the current position information of a rider.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments described herein may be implemented in other sequences than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus.

For easy understanding, the following describes a specific flow of an embodiment of the present invention, referring to fig. 1, and a first embodiment of a method for managing a bundle of loose order according to the embodiment of the present invention includes:

S101, receiving a third party component taking request, determining an order number of a requested order based on the third party component taking request, and inquiring and obtaining order information of the requested order based on the order number.

It can be understood that the execution body of the present invention may be a scattered order package management device, and may also be a terminal or a server, which is not limited herein. The embodiment of the invention is described by taking a server as an execution main body as an example.

In this embodiment, a third party pickup request with a third party capacity substituted for pickup is received from an courier/website customer service.

In this embodiment, the order number is extracted from the request of the third party capacity, and the corresponding order information is queried through the database or the order management system using the order number as a query condition. Order information includes, but is not limited to, information on the type of goods, weight of goods, customer requirements, package address, order status, etc.

S102, judging whether the request order supports the capacity of a third party or not based on the order information of the request order, and if so, acquiring the delivery address of the request order.

In this embodiment, the matching judgment is performed based on specific conditions (such as weight limitation, volume requirement, special requirement, etc.) in the order information and the service range and capability of the third party capacity. If the order meets the pickup criteria for the third party capacity, the order is marked as "support third party capacity". If the order does not support or other limiting conditions exist, error information is returned to the courier/website customer service, and the reason is explained.

S103, enabling the delivery addresses to be consistent, and enabling the request orders with the delivery addresses on the same route to form an associated order group.

In this embodiment, other orders with the same delivery address and the same pick-up address on the same route are screened out through an algorithm or database query, and marked as an associated order group, and an associated order group ID is generated for subsequent operations and management.

S104, issuing a third party replacement part order based on the associated order group and the part address.

In this embodiment, the task descriptions and requirements of the third party replacement order are constructed based on the associated order group and the delivery address.

In this embodiment, the task of taking orders, including the order group ID, detailed information of each order, the requirement of taking and delivering the parts, etc., is issued to the third party capacity through the system interface or platform.

In this embodiment, the third party is waited for the order and the related preparation (e.g. printing the pick-up code, notifying the customer, etc.) after the order is confirmed.

S105, monitoring the third party replacement part order in real time, and displaying the current order state of the third party replacement part order and the current position information of the rider.

In this embodiment, the processing progress information of the third party substitution order is tracked in real time through an API interface or an internal monitoring mechanism. When the order status changes (e.g., order taking, pick-up, delivery, completed, etc.), the system immediately updates the order status record in the database. Meanwhile, when a rider receives a bill, the real-time position information of the rider is mapped to a map and marked between the corresponding pick-up point and the delivery point.

In this embodiment, the information such as the current position, the estimated arrival time, and the route track of the rider is presented to the user through the front-end page or the mobile application.

The embodiment provides a scattered order pickup management method, which aims at the situation that an express delivery person asks for a false or a network site asks for a shortage of the hand of the person, supports the function that the express delivery person/network site customer service initiates a third party delivery capability to replace a pickup, and when the request order supports the third party delivery capability, the delivery addresses are consistent, the request orders of the package addresses on the same route form a related order group, the related order group and the delivery addresses are used for issuing a third party pickup order, finally the third party pickup order is monitored in real time, the current order state and the current position information of the third party pickup order are displayed, when the express delivery person asks for a false or the network site is insufficient, the third party delivery capability is supplemented, the fact that the order is not affected is ensured, the flexibility and the toughness of the whole logistics system are improved, and the operation cost of the third party delivery capability receiving part of the order is utilized, especially in a peak period or special condition, the temporary cost increased due to the shortage of the network site is avoided, in addition, the current order state and the current position information of the rider is reasonably distributed, the current position information of the customer is not needed is realized, and the current carrier allocation and the current carrier's delivery capability is improved, and the current carrier's position is not required to be optimized.

Referring to fig. 2, a second embodiment of a method for managing a package for a loose order according to an embodiment of the present invention includes:

S201, receiving a third party pickup request initiated by an express delivery person or a website customer service, wherein the third party pickup request comprises requester information, request time and request order.

In this embodiment, the courier or the website customer service inputs the requester information (such as name, job number), the request time and the order number of the requested order through the interface or the platform, so as to initiate the third party pickup request.

S202, analyzing the third party component taking request to obtain a plurality of fields, and extracting an order number of the requested order from the plurality of fields.

In this embodiment, the system parses the received third party pickup request, and splits it into multiple fields, such as requester information, request time, order number of the requested order, etc. Then, from the parsed field, special attention is paid to and the order number of the requested order is extracted.

S203, inquiring and obtaining order information of the requested order by using the sql statement based on the order number.

In this embodiment, an SQL query statement is constructed based on the extracted order number. The statement explicitly specifies the database table, fields, and screening conditions (i.e., order numbers) to be queried. Then, SQL query statements are executed to retrieve order information from the database that matches the order number. The order information includes the type of goods, weight of goods, shipping address, sender contact, recipient address, recipient contact, delivery requirements, etc.

In the embodiment, the third party pickup request initiated by the courier or the website customer service is received, the third party pickup request is analyzed to obtain a plurality of fields, the order number of the requested order is extracted from the plurality of fields, and then the order information of the requested order is obtained by inquiring the sql statement based on the order number, so that the order number can be accurately extracted, the order information can be rapidly inquired, manual intervention is reduced, and the processing speed and accuracy are improved.

Referring to fig. 3, a third embodiment of a method for managing a loose order package according to an embodiment of the present invention includes:

S301, judging whether the request order supports third party capacity or not based on order information of the request order.

In the embodiment, judging whether the request order supports the third party capacity based on the order information of the request order specifically comprises analyzing the order information of the request order to obtain the goods type and the weight of the request order, judging that the request order supports the third party capacity if the goods type of the request order does not belong to dangerous goods, perishable goods or special limited goods and the total weight of the goods of the request order does not exceed the preset weight, and judging that the request order does not support the third party capacity if the goods type of the request order belongs to any one of dangerous goods, perishable goods or special limited goods or the total weight of the goods of the request order exceeds the preset weight.

In this embodiment, key information is extracted from the order information of the requested order, and key information, particularly data relating to the type and weight of the good, is extracted from the requested order.

In this embodiment, whether the type of the goods requested for the order belongs to the category of dangerous goods, perishable goods or special limited goods is determined, and the comparison can be performed according to a preset goods type list or classification standard. If the cargo type belongs to any of the above categories, it is determined that the request order does not support third party capacity.

And S302, if so, determining a part-collecting website and a part-collecting website address based on order information of the requested order.

In this embodiment, the order information of the requested order includes the collecting courier and the corresponding collecting website, so that the collecting website can be determined based on the order information of the requested order, and then the detailed address information of the collecting website is obtained through query.

S303, generating delivery address confirmation information based on the delivery network address, acquiring feedback information based on the delivery address confirmation information, and using the address in the feedback information as the delivery address.

In this embodiment, the pick-up dot address is used as a delivery address by default.

In this embodiment, after the delivery address confirmation information is generated according to the delivery network address, the delivery address confirmation information is fed back to the courier or the network customer service that initiates the third party delivery request, if the courier or the network customer service does not make a modification, the delivery network address is used as the delivery address of the requested order, and if the courier makes a modification, the modified address is used as the delivery address of the requested order.

In this embodiment, through a preset judgment rule, whether the request order supports the third party capacity is judged based on the order information of the request order, whether the request order is suitable for picking up the part by the third party capacity can be intelligently judged, and after the support is confirmed, the part-picking net point and the address thereof are automatically determined, so that the part-picking address confirmation information is generated, the final part-picking address is obtained, the processing efficiency is improved, and the timeliness and the accuracy of the order processing are ensured.

Referring to fig. 4, a fourth embodiment of a method for managing a loose order package according to an embodiment of the present invention includes:

S401, classifying the request orders according to the delivery addresses, and placing the request orders with consistent delivery addresses into the same order set.

In this embodiment, the data sorting algorithm or the character string matching technique is used to identify the request orders with the same delivery address, and then the orders are distributed to different order sets according to the delivery addresses.

S402, for each order set, the request orders with the package addresses on the same route are screened out by using a geographic information technology.

In this embodiment, for each order set (i.e., the order group with the same delivery address), the relative positions and feasible driving routes between the delivery addresses are analyzed using geographic information technology (e.g., GIS system, route planning algorithm, etc.). And then, according to the analysis result, screening the order of the cable address which can form an efficient driving route logically or physically.

S403, marking the orders with consistent delivery addresses and the pick-up addresses on the same route as the associated order group.

In this embodiment, the screened orders are considered as a subset, with the package addresses within the subset being on the same route. For each subset of orders meeting the conditions (i.e., a collection of orders with identical delivery addresses and with pick addresses on the same route), it is labeled as an associated order group.

In this embodiment, each associated order group may also be assigned a unique identifier to facilitate identification and management during subsequent physical distribution processes.

In this embodiment, the orders with identical delivery addresses and the delivery addresses on the same route are grouped, so that the logistics resources can be efficiently integrated and optimized, and the request orders with similar delivery addresses and the delivery addresses on the same route are intelligently combined into the associated order group, so that repeated labor and route waste in the delivery process are reduced, the logistics efficiency is improved, the cost is reduced, the delivery time of the orders is possibly shortened, and in addition, the precise route analysis is performed by using the geographic information technology, so that the rationality and practicality of the associated order group are ensured.

Referring to fig. 5, a fifth embodiment of a method for managing a loose order package according to an embodiment of the present invention includes:

S501, data integration is carried out on the request orders in the associated order group, and a request order information table is obtained.

In this embodiment, all the associated order groups are traversed, and key information such as order number, mailing address, mailer contact phone, type of goods, weight of goods, etc. is extracted for the requested orders within each group. And then integrating the extracted information into a new data structure according to a preset field sequence and format to form a request order information table.

S502, adding the delivery address to the request order information table, and converting the request order information table into a preset format to obtain a converted request order information table.

In this embodiment, the common part address of each associated order group is determined as the part address of all orders in the group, and part address information is added to the corresponding field of the request order information table, so as to ensure that each order is associated with the correct part address.

In this embodiment, the request order information table is converted into a preset format according to the requirements of the third party replacement part platform, including converting the data type, adding necessary metadata (such as a timestamp, an order state, etc.), and the like.

S503, issuing a third party replacement part order based on the converted request order information table.

In this embodiment, the converted request order information table is submitted to an API interface of the third party replacement part platform or system to complete the release of the third party replacement part order, and the release result (such as success, failure, to-be-processed state) is recorded in the logistics system, so as to facilitate subsequent tracking and query.

In this embodiment, data integration is performed on the request orders in the associated order group to obtain a request order information table, the delivery address is added to the request order information table, the request order information table is converted into a preset format to obtain a converted request order information table, a third party replacement order is issued based on the converted request order information table, and the standardized request order information table is automatically generated by integrating the information of the associated order group, so that the third party replacement order can be efficiently and accurately generated.

Referring to fig. 6, a sixth embodiment of a method for managing a loose order package according to an embodiment of the present invention includes:

s601, monitoring the third party replacement part order in real time, and receiving processing progress information of the third party replacement part order and real-time position information of a rider.

In this embodiment, a real-time communication interface with the third party pickup platform is established, so as to ensure that the change of the order processing state can be continuously received, a timing task is preset, order processing progress information provided by the third party platform is periodically queried or subscribed, and when a rider receives an order, real-time position information of the rider is received.

In this embodiment, the received order processing progress information is stored in a local database or cache for subsequent processing and display.

S602, acquiring a preset state label, updating the current order state of the third-party replacement part order based on the processing progress information of the third-party replacement part order, and displaying the current order state of the third-party replacement part order through the state label.

In this embodiment, the processing progress information of the third party replacement part order is analyzed, the key state changes (such as order receiving, part taking, in-delivery, completion, etc.) are extracted, the analyzed state changes are matched with the data of the third party replacement part order, and the current state of the third party replacement part order is updated.

In this embodiment, a set of status tab systems is preconfigured for visually displaying different status of the order on the user interface. And distributing corresponding state labels for the orders according to the current states of the orders, and displaying the corresponding state labels in a user interface to ensure that the user interface can update the state labels in real time so as to reflect the latest states of the orders.

S603, creating a real-time map corresponding to the third party replacement order, updating the current position information of the rider based on the real-time position information of the rider, and displaying the current position information of the rider on the real-time map.

In this embodiment, the real-time position information of the rider is acquired through the third party pickup platform or the GPS positioning system, the received position information is converted into a format (such as latitude and longitude coordinates) suitable for map display, and the real-time position information of the rider is stored in a local database or a cache so as to be displayed on a map later.

In this embodiment, a map service (e.g., google map, hundred degree map, etc.) is integrated, and the real-time position information of the rider is loaded onto the map and the current position of the rider is marked.

In the embodiment, the transparency and traceability of the logistics process are improved by monitoring and dynamically updating the processing progress of the third party pick-up order and the real-time position information of the rider in real time, so that couriers and website customer service can know the distribution state of the order in real time, and the user experience is enhanced. Meanwhile, visual and convenient order tracking modes are provided through state labels and map display.

The method for managing loose order components in the embodiment of the present invention is described above, and the apparatus in the embodiment of the present invention is described below, referring to fig. 7, where an implementation manner of the device for managing loose order components in the embodiment of the present invention includes:

The query module 701 is configured to receive a third party component taking request, determine an order number of a requested order based on the third party component taking request, and query order information of the requested order based on the order number;

The judging module 702 is configured to judge whether the request order supports a third party capacity based on order information of the request order, and if yes, obtain a delivery address of the request order;

The association module 703 is configured to make the delivery addresses consistent, and pick up the requested orders with the delivery addresses on the same route to form an association order group;

a release module 704, configured to release a third party replacement part order based on the associated order group and the delivery address;

And the monitoring module 705 is configured to monitor the third party replacement part order in real time, and display the current order status of the third party replacement part order and the current position information of the rider.

In this embodiment, the query module 701 includes a receiving unit 7011 configured to receive a third party pickup request initiated by an courier or a website customer service, where the third party pickup request includes requester information, a request time, and a request order, an analyzing unit 7012 configured to analyze the third party pickup request to obtain a plurality of fields, and extract an order number of the request order from the plurality of fields, and a query unit 7013 configured to query, using an sql statement, based on the order number to obtain order information of the request order.

In this embodiment, the judging module 702 includes a judging unit 7021 for judging whether the request order supports the third party capacity based on the order information of the request order, a determining unit 7022 for determining a part-collecting site and a part-collecting site address based on the order information of the request order when the request order supports the third party capacity, and a generating unit 7023 for generating a part-collecting address confirmation information based on the part-collecting site address, acquiring feedback information based on the part-collecting address confirmation information, and using the address in the feedback information as the part-collecting address.

In this embodiment, the association module 703 includes a classification unit 7031 for classifying the request orders according to delivery addresses and placing the request orders with consistent delivery addresses into a same order set, a screening unit 7032 for screening out the request orders with the delivery addresses on a same route by using a geographic information technology for each order set, and an association unit 7033 for marking the orders with consistent delivery addresses and delivery addresses on a same route as an association order group.

In this embodiment, the publishing module 704 includes an integrating unit 7041 configured to integrate data of the request orders in the associated order group to obtain a request order information table, a converting unit 7042 configured to add a delivery address to the request order information table and convert the request order information table into a preset format to obtain a converted request order information table, and a publishing unit 7043 configured to publish a third party replacement order based on the converted request order information table.

In this embodiment, the monitoring module 705 includes a monitoring unit 7051 configured to monitor the third party pickup order in real time, receive processing progress information of the third party pickup order and real-time position information of a rider, a first display unit 7052 configured to obtain a preset status tag, update a current order status of the third party pickup order based on the processing progress information of the third party pickup order, and display the current order status of the third party pickup order through the status tag, and a second display unit 7053 configured to create a real-time map corresponding to the third party pickup order, update the rider current position information based on the real-time position information of the rider, and display the rider current position information on the real-time map.

In the embodiment, when the request order supports the capacity of a third party, the delivery addresses are consistent, the request order with the delivery addresses on the same route forms a related order group, the third party delivery order is issued based on the related order group and the delivery addresses, the third party delivery order is monitored in real time, the current order state of the third party delivery order and the current position information of a rider are displayed, when the courier asks for a false or the hands of a network site are insufficient, the courier can respond quickly, the delivery capability is supplemented through the capacity of the third party, the order is ensured not to be influenced, the flexibility and the toughness of the whole logistics system are improved, meanwhile, the operation cost of the website or the express company can be effectively shared by utilizing the third party capacity to accept partial orders, particularly, the temporary labor cost increased due to the shortage of hands is avoided in the peak period or special condition, and limited capacity resources are utilized to the maximum extent through reasonable order allocation and route planning, so that the order receiving rate and income of the third party capacity are improved, the resource optimal allocation of the whole logistics industry is promoted, and in addition, the current state of the third party order and the position information of a rider are monitored and displayed in real time, so that the express personnel/website customer service can know the order dynamics at any time.

The above-mentioned fig. 7 describes the details of the scattered order component collecting management device in the embodiment of the present invention from the point of view of the modularized functional entity, and the following describes the details of the scattered order component collecting management device in the embodiment of the present invention from the point of view of hardware processing.

Fig. 8 is a schematic structural diagram of a scattered order package management device according to an embodiment of the present invention, where the device 800 may have a relatively large difference due to different configurations or performances, and may include one or more processors (central processing units, CPU) 810 (e.g., one or more processors) and a memory 820, and one or more storage mediums 830 (e.g., one or more mass storage devices) storing application programs 833 or data 832. Wherein memory 820 and storage medium 830 can be transitory or persistent. The program stored on the storage medium 830 may include one or more modules (not shown), each of which may include a series of instruction operations in the device 800. Still further, the processor 810 may be arranged to communicate with a storage medium 830 in which a series of instruction operations are performed on the device 800.

The device 800 may also include one or more power supplies 840, one or more wired or wireless network interfaces 850, one or more input/output interfaces 860, and/or one or more operating systems 831, such as Windows Serve, mac OS X, unix, linux, freeBSD, and the like.

The embodiment of the invention also provides a computer readable storage medium, which can be a nonvolatile computer readable storage medium, and can also be a volatile computer readable storage medium, wherein instructions are stored in the computer readable storage medium, and when the instructions run on a computer, the instructions cause the computer to execute the steps of the scattered order package management method.

It will be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the system or apparatus and unit described above may refer to the corresponding process in the foregoing method embodiment, which is not repeated herein.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied essentially or in part or all of the technical solution or in part in the form of a software product stored in a storage medium, including instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. The storage medium includes a U disk, a removable hard disk, a read-only memory (ROM), a random access memory (random access memory, RAM), a magnetic disk, an optical disk, or other various media capable of storing program codes.

While the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that the foregoing embodiments may be modified or equivalents may be substituted for some of the features thereof, and that the modifications or substitutions do not depart from the spirit and scope of the embodiments of the invention.

Claims (10)

1. The method for managing the bulk order package is characterized by comprising the following steps:

Receiving a third party pickup request, determining an order number of a requested order based on the third party pickup request, and inquiring to obtain order information of the requested order based on the order number;

judging whether the request order supports third party capacity or not based on the order information of the request order, if so, acquiring a delivery address of the request order;

the delivery addresses are consistent, and the request orders with the delivery addresses on the same route form an associated order group;

Issuing a third party replacement order based on the associated order group and the delivery address;

And monitoring the third-party replacement order in real time, and displaying the current order state of the third-party replacement order and the current position information of the rider.

2. The method for managing bulk order packages according to claim 1, wherein the receiving a third party package taking request, determining an order number of a requested order based on the third party package taking request, and querying order information of the requested order based on the order number, comprises:

Receiving a third party pickup request initiated by an express delivery person or a website customer service, wherein the third party pickup request comprises requester information, request time and request order;

analyzing the third party component taking request to obtain a plurality of fields, and extracting an order number of a requested order from the plurality of fields;

and inquiring and obtaining order information of the request order by using an sql statement based on the order number.

3. The method for managing bulk order pickup according to claim 1, wherein the determining whether the requested order supports third party capacity based on the order information of the requested order, if so, acquiring the delivery address of the requested order comprises:

judging whether the request order supports third party capacity or not based on the order information of the request order;

if yes, determining a part-collecting website and a part-collecting website address based on order information of the request order;

And generating delivery address confirmation information based on the delivery network point address, acquiring feedback information based on the delivery address confirmation information, and using the address in the feedback information as the delivery address.

4. The method of claim 3, wherein determining whether the requested order supports third party capacity based on the order information of the requested order comprises:

analyzing order information of the request order to obtain the goods type and the weight of the request order;

If the type of the goods of the request order does not belong to dangerous goods, perishable goods or special limited goods and the total weight of the goods of the request order does not exceed the preset weight, judging that the request order supports the third party capacity;

And if the type of the goods of the request order belongs to any one of dangerous goods, perishable goods or special limited goods, or the total weight of the goods of the request order exceeds the preset weight, judging that the request order does not support the third party capacity.

5. The method for managing bulk order package according to claim 1, wherein the matching package addresses, and the package addresses on the same route request orders form a related order group, comprises:

Classifying the request orders according to the delivery addresses, and placing the request orders with consistent delivery addresses into the same order set;

For each order set, screening out the request orders with the package address on the same route by using a geographic information technology;

And marking the orders with consistent delivery addresses and the pick-up addresses on the same route as an associated order group.

6. The method of claim 1, wherein said issuing a third party replacement order based on said associated order group and said delivery address comprises:

carrying out data integration on the request orders in the associated order group to obtain a request order information table;

adding the delivery address to the request order information table, and converting the request order information table into a preset format to obtain a converted request order information table;

And issuing a third-party replacement part order based on the converted request order information table.

7. The method for managing loose-order pickup according to claim 1, wherein the monitoring the third-party pickup order in real time and displaying the current order status of the third-party pickup order and the current position information of the rider comprise:

Monitoring a third party replacement part order in real time, and receiving processing progress information of the third party replacement part order and real-time position information of a rider;

acquiring a preset state label, updating the current order state of the third-party replacement part order based on the processing progress information of the third-party replacement part order, and displaying the current order state of the third-party replacement part order through the state label;

Creating a real-time map corresponding to the third party replacement order, updating the current position information of the rider based on the real-time position information of the rider, and displaying the current position information of the rider on the real-time map.

8. A loose order component collection management device, comprising:

the query module is used for receiving a third party component taking request, determining an order number of a request order based on the third party component taking request, and querying and obtaining order information of the request order based on the order number;

the judging module is used for judging whether the request order supports the capacity of a third party or not based on the order information of the request order, and if so, acquiring the delivery address of the request order;

the association module is used for enabling the delivery addresses to be consistent, and the request orders with the delivery addresses on the same route form an association order group;

The issuing module is used for issuing a third-party substitute order based on the associated order group and the delivery address;

the monitoring module is used for monitoring the third-party pickup order in real time and displaying the current order state of the third-party pickup order and the current position information of the rider.

9. A loose order component collection management device, comprising a memory and at least one processor, wherein the memory stores computer readable instructions;

The at least one processor invoking the computer readable instructions in the memory to perform the steps of the bulk order package management method of any of claims 1-7.

10. A computer readable storage medium having computer readable instructions stored thereon, wherein the computer readable instructions when executed by a processor implement the steps of the scattered order package management method of any of claims 1-7.