CN110866710A - Distribution line and sales division planning system and method thereof - Google Patents
Distribution line and sales division planning system and method thereof Download PDFInfo
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Abstract
The invention provides a distribution line and sales division planning system and a method thereof, wherein a distribution line planner is used for managing and displaying distribution line information; through the final point-of-sale planner, for managing and displaying final point-of-sale distribution information; the coverage manager is used for managing and displaying sales and distribution coverage of the sales region; therefore, planning and management of a sales area are achieved, car sharing and loading are carried out on each line, logistics efficiency is improved, and logistics cost is reduced.
Description
Technical Field
The present invention relates to a distribution route and sales region planning system and method applied to a computer system.
Background
The sales and inventory management technology based on physical stores adopts a warehouse type store spot sales mode, as the specifications and models of commodities are more, each store can keep a certain spot for each specification and model to meet the demand of spot sales, once the market conditions change or the shelf life of the commodities expires, the inventory commodities can only be returned, discounted for sales or scrapped, the backdraft causes larger stock overstock, the discounted sales not only affects the brand image and the regular sales, but also affects the commodities, the scrapped loss is more unbearable, the traditional E-commerce platforms (B2C and C2C) only change the sales mode, still are the inventory spot sales modes, the inventory management mode is not changed fundamentally, and each commodity is independently delivered, so that the logistics cost is multiplied, the goods delivery time cannot be determined, for some fresh foods and fashion commodities with shorter shelf lives, the loss due to the backlog of inventory represents a significant proportion of the profit that is unbearable to practitioners of this industry; one of the important factors of the huge loss of the Baili, Dafunie and Meitesbang in the fast-moving clothing industry is the inventory management defect, and the freshness of the traditional supermarket is only a drainage means and is not a profit commodity all the time, because the sale and the inventory are not matched, and the sale or the loss report of the commodity with the price of 4-5 is needed.
The traditional supply chain carries out scheduling and purchasing based on a production plan, and the production plan is based on a sales plan without a specific order, can not be linked with a real order and can not meet the requirement of a personalized customized market.
The purchasing mode of the traditional electronic commerce is to place orders of certain commodities one by one, one platform only supports one transaction mode, for example, a panning network of the Alibaba only supports retail transaction, a panning factory only supports wholesale transaction, one client cannot complete the two transactions at the same time, a shop of panning needs to order a batch of commodities in the panning factory first, and then releases the commodities on the panning network for retail after arriving, and wholesale and retail links are independent respectively, need manual operation and cannot be completed automatically; in addition, the traditional e-commerce transaction is based on the order placement of stock in stock, the arrival time is not agreed, and for large commodities and fresh food with short shelf life, the goods can be transported by manual operation every time, so that huge logistics cost and loss are brought; for enterprise customers (such as supermarkets, restaurants, canteens) in the fresh food industry, the arrival date must be specified; meanwhile, commodities with large consumption need to be purchased in wholesale transaction to save cost, but some commodities, particularly ingredients such as ginger, green onion, garlic, caraway, purple perilla and the like, cannot be purchased according to wholesale specifications, and suppliers package the commodities in whole boxes and transport the commodities in whole cars and cannot package and deliver the commodities according to customer orders; meanwhile, due to the fact that enterprise customers cannot predict daily sales volume and cannot accurately predict purchase volume, a small amount of replenishment is needed in real time, so that the traditional sales mode and the traditional e-commerce cannot meet the requirements of society on fresh food e-commerce, and the traditional supply chain cannot meet the requirements of personalized customized production.
The current marketing technology mainly has the following defects:
1. because a certain product class must be kept in a final point-of-sale spot sale mode, and each product class must be kept with a certain stock to meet the user experience and the instant sale requirement, when the number of chain points-of-sale is large, the overstocked stock returned by each point-of-sale is lost to a manufacturer or discounted for sale or reported for damage, and the accumulated amount is a huge sum which exists for a long time, so that the industry is difficult to profit;
2. although the traditional e-commerce mode (B2C, C2C) can carry out relatively centralized management on inventory, the difference between user experience and a real object is large, and users are difficult to attract to make orders when the commodities, particularly non-standardized commodities, are viewed on line;
3. although the inventory can be managed in a centralized manner under the traditional e-commerce mode (B2C, C2C), the inventory is managed in a centralized manner, a scheme of dynamic inventory management based on the available sales volume of a certain future arrival date is not established according to a sales division, and the loss of the newspaper or the discount of the sales is easily caused due to the expiration of the shelf life of the existing goods or the change of the market or the change of the sales order;
4. in the traditional e-commerce mode (B2C, C2C), the goods are independently delivered by suppliers according to retail orders, the logistics cost also occupies a large proportion of the amount of the orders, and the logistics cost is high for the goods with higher logistics cost proportion in commodity value and shorter shelf life or circulation period, so that the cost advantage is not generated compared with the traditional retail mode;
5. some enterprise users (such as supermarkets, restaurants, dining halls, factories) have strict requirements on arrival time, and the failure to arrive at a given time can cause intolerable consequences: for example, schools/institutional canteens, supermarkets and restaurants cannot be opened normally or production lines cannot be operated, but traditional e-commerce cannot determine arrival time and cannot meet the requirements of modern society;
6. some merchants have both physical store sales channels and e-commerce sales channels, the two channels are not managed in a unified way, commodities are stored in different warehouses, a dynamic inventory management mode is not established, wholesale and retail base order conversion are not matched, commodity unpacking loss is easily caused, and backlog and loss are caused;
7. the traditional e-commerce has the advantages that the wholesale transaction and the retail transaction are independent into two platforms, a customer needs to register two account numbers respectively for ordering if needing to purchase, great inconvenience is caused, a sales mode that an original manufacturer directly initiates wholesale and retail integration is not supported, and the transaction cost and circulation time are increased due to twice transactions on the two platforms, so that loss is increased;
8. the enterprise user needs to make an order once to purchase various commodities of a plurality of suppliers, the traditional e-commerce hands orders to the suppliers respectively for self-processing, and the various commodities of different suppliers can not arrive at the buyer at one time;
9. some group-sharing purchases, namely, the initiator and the participants are based on respective geographic positions, the distance relationship between the delivery address of the initiator and the receiving address of the delivery client is not considered, only the self-picking mode can be solved, and if the initiator needs to carry out secondary delivery and the receiving address of the client is greatly different from the geographic position of the client, higher logistics cost still needs to be increased.
Disclosure of Invention
The invention aims to overcome the defects of the prior art, and based on a distribution line and sales division planning system and a method thereof, on one hand, user experience is considered, on the other hand, the accuracy of arrival time of a timing supply chain is also considered, the cost of the supply chain is low, the efficiency is high, the circulation cost is reduced, and the loss caused by mismatching of inventory and sales is reduced.
The purpose of the invention is realized by the following technical scheme: a timed supply chain e-commerce system, comprising: the system planning device is used for managing and displaying distribution line and/or sales division planning information and system transaction rules; the seller device is used for managing the seller warehouse, issuing and managing seller pre-sold commodities and transaction terms, and receiving and processing the pre-purchased orders of the sales region; the distributor device is used for managing the transaction terms and the available sale amount of the distributor, pre-purchasing and pre-selling commodities by the seller, and receiving and processing the order of the buyer; the final selling device is used for managing the transaction terms and the available selling amount of the final seller, pre-purchasing and reselling the pre-sold commodities of the distributor, and receiving and processing the order of the buyer; the buyer device is used for managing a buyer receiving address and initiating a purchase transaction according to the default receiving address; the sorting and transferring device is used for sorting and processing the commodities of the pre-sold order in the sales area; the logistics dispatching device is used for receiving the logistics demand information and starting a logistics dispatching logic; the carrier device is used for sending logistics carrier information, receiving and confirming scheduling information and signing for article delivery information; a C/S/S mode computer system is established, wherein a system planning device is used as a platform server, a distributor device, a sorting and transferring device, a logistics scheduling device and a final selling device are used as business servers, and a seller device, a buyer device and a carrier device are used as clients.
Further, in the above-mentioned electronic commerce system of the time-supply chain, the system planning means includes: the distribution line planner is used for managing and/or displaying distribution line planning information; a sales region planner for managing and/or displaying sales region information; a final point of sale planner to manage and/or display final point of sale information; a distribution and sales range planner for managing distribution and sales ranges of the sales divisions and/or the final points of sale;
and the transaction rule maker is used for making transaction rules for the system.
Further, in the above-mentioned timed supply chain electronic commerce system, the seller apparatus includes: the sale interface device is used for receiving and/or initiating a service request, and sending and/or receiving response information; the goods source manager is used for setting and managing the seller warehouse; the pre-sale manager is used for issuing and managing pre-sale commodities and transaction terms thereof; and the order manager is used for receiving and processing the pre-sale order of the sales region.
Also, in the above-mentioned timed supply chain electronic commerce system, the distributor device includes: the interface unit of the distributor is used for receiving and/or initiating the service request, sending and/or receiving the response information; the compartmentalized transaction term manager is used for managing and issuing transaction terms of the distributor; the commodity reseller is used for pre-purchasing the seller commodities and reselling according to the transaction terms of the distributor; the selling quantity controller is used for controlling the selling quantity of the commodities in each selling period; a distribution order processor for receiving and processing the buyer orders to generate sold inventory and for-sale inventory.
Further, in the above-mentioned electronic commerce system of the time-supply chain, the final selling apparatus includes: the final sale interface device is used for receiving and/or initiating the service request, and sending and/or receiving the response information; the final resale manager is used for pre-purchasing the commodities of the distributor and resale the commodities according to the transaction terms of the final seller; the final order manager is used for receiving and processing the final pre-sale order to generate sold inventory and to-be-sold inventory; the final goods distributor is used for signing in the pre-purchased goods, performing goods distribution processing on the sold inventory goods and generating a final distribution plan; and the sale manager is used for issuing inventory goods to be sold at the present time, and receiving and processing the sale orders of the final sellers.
Still further, in the above-mentioned electronic commerce system of a time-supply chain, the purchaser unit may include: the buyer communication interface device is used for receiving and/or initiating a service request, and sending and/or receiving response information; the receiving address manager is used for managing the receiving addresses of the buyers, selecting and associating a final point of sale as a self-picking point for each receiving address; and the transaction manager is used for acquiring the associated sales divisions and/or final sales points according to the receiving address or selecting other final sales points to initiate purchase transactions to confirm the commodity delivery information.
Also, in the above-mentioned timed supply chain electronic commerce system, wherein the sorting transfer device includes: the sorting and transferring interface device is used for receiving and/or initiating a service request, and sending and/or receiving response information; the sorting planner is used for selecting sorting transfer points one by one according to the principle of from top to bottom, selecting the distribution lines to which the sorting transfer points belong one by taking the sorting transfer points as starting points, and generating a sorting plan list according to the line distribution demand information; the label generator is used for generating or associating the container loading labels and the sorting labels according to the sorting plan list; the sorting operation device is used for carrying out sorting operation on the sorting plan list according to the labels to generate a cabinet loading list of the corresponding line; and the article transporter is used for generating a delivery list according to the loading sequence for the loading list and transporting articles.
Still further, in the above-mentioned electronic commerce system of the timed supply chain, the logistics scheduling apparatus includes: the logistics scheduling interface device is used for receiving and/or initiating a service request, and sending and/or receiving response information; the delivery order manager is used for generating a delivery order list according to the logistics demand information and the distribution line planning information; the goods matcher is used for selecting sorting transfer points and distribution lines subordinate to the sorting transfer points one by one according to the principle of from top to bottom, matching a logistics plan with effective goods carrying loads on the lines, and generating a dispatching plan when full load or all goods are matched;
and the scheduling operation device is used for issuing scheduling instructions according to the principle that the load of the transport equipment is from large to small until all the scheduling instructions obtain confirmed response information.
Still further, in the above-mentioned timed supply chain electronic commerce system, wherein said carrier device comprises: the carrier communication connector is used for receiving and/or initiating a service request, and sending and/or receiving response information; a carrier demand manager for managing and issuing carrier demand information of carriers; the carrier transponder is used for receiving the scheduling command and sending confirmed or unconfirmed response information; the article signing receiver is used for signing and receiving articles according to the scheduling instruction; and the article delivery device is used for delivering the articles according to the scheduling instruction.
The invention discloses a timed supply chain electronic commerce method, which comprises the following steps: managing and displaying distribution line and/or sales region planning information and system transaction rules; the management seller warehouse is used for issuing and managing seller pre-sold commodities and transaction terms, and receiving and processing the sale division pre-purchase orders; managing the transaction terms and the available sale amount of the distribution party, pre-purchasing and pre-selling commodities by the seller, and receiving and processing the order of the buyer; managing the final transaction terms and the salable amount of the seller, pre-purchasing and reselling the pre-sold commodities of the distributor, and receiving and processing the order of the buyer; managing a buyer receiving address, and initiating a purchase transaction according to the default receiving address; sorting the goods of the pre-sale order in the sales region; receiving logistics demand information and starting a logistics scheduling logic; and transmitting logistics carrying information, receiving and confirming scheduling information, and signing for article delivery information.
Further, in the above-mentioned electronic commerce method of the timed supply chain, wherein the managing and displaying distribution line and/or sales region planning information and system transaction rules includes the following steps: managing and/or displaying distribution line planning information; manage and/or display sales zone information; managing and/or displaying final point-of-sale information; managing distribution and sales ranges of sales divisions and/or final points of sale; and establishing a transaction rule for the system.
Further, in the above-mentioned electronic commerce system of the timed supply chain, the managing the seller's warehouse and the transaction terms, issuing and managing the seller's pre-sold goods, and receiving and processing the pre-purchased orders of the sales region includes the following steps: receiving and/or initiating a service request, and sending and/or receiving response information; setting and managing a seller warehouse; releasing and managing pre-sold commodities and transaction terms thereof; a sales plan pre-sale order is received and processed.
Further, in the above electronic commerce method of the timed supply chain, the managing the distribution side transaction terms and the available sale amount, the pre-purchasing and pre-selling the goods by the seller, and the receiving and processing the buyer order comprises the following steps: receiving and/or initiating a service request, and sending and/or receiving response information; managing and issuing the transaction terms of the distribution party; pre-purchasing seller commodities and reselling according to the transaction terms of a distribution party; controlling the amount of sales of the goods per sales cycle; buyer orders are received and processed to generate sold inventory and inventory for sale.
Further, in the above electronic commerce method of the timed supply chain, the managing the transaction terms and the salable amount of the final seller, the pre-purchasing and re-selling the pre-sold goods of the distributor, and the receiving and processing the buyer's order includes the following steps: receiving and/or initiating a service request, and sending and/or receiving response information; pre-purchasing commodities of a distributor and reselling according to the transaction terms of a final seller; receiving and processing the final pre-sale order to generate sold inventory and to-be-sold inventory; signing for a pre-purchased commodity, carrying out goods allocation processing on the sold inventory commodity and generating a final distribution plan; and issuing the current stock goods to be sold, and receiving and processing the final seller current selling order.
Still further, in the above method for electronic commerce in a timed supply chain, wherein the managing of the shipping address of the buyer and the initiating of the purchase transaction according to the default shipping address comprises the steps of: receiving and/or initiating a service request, and sending and/or receiving response information; managing the buyer's shipping address, selecting and associating a final point of sale as a pick-up point for each shipping address; and acquiring the associated sales divisions and/or final sales points according to the receiving address, or selecting other final sales points to initiate purchase transactions, and confirming the commodity delivery information.
Still further, in the above-mentioned electronic commerce system of the timed supply chain, wherein the sorting process of the pre-sold order goods in the sales area includes the following steps: receiving and/or initiating a service request, and sending and/or receiving response information; selecting sorting transfer points one by one according to a principle of from top to bottom, selecting distribution lines to which the sorting transfer points belong one by taking the sorting transfer points as starting points, and generating a sorting plan list according to the line distribution demand information; generating or associating a locker tag and a sorting tag according to the sorting plan list; sorting the sorting plan list according to the label to generate a cabinet loading list of the corresponding line; and generating a delivery list according to the loading order for the loading list and transferring the articles.
Still further, in the above method for electronic commerce of a timed supply chain, the receiving logistics requirement information and starting logistics scheduling logic includes the following steps: receiving and/or initiating a service request, and sending and/or receiving response information; generating a delivery order list according to the logistics demand information and the distribution route planning information; selecting sorting transfer points and distribution lines subordinate to the sorting transfer points one by one according to the principle of from top to bottom, matching the logistics plan with the effective carrier load on the lines, and generating a dispatching plan when full load or all articles are matched; and issuing the scheduling instructions according to the principle that the carrier load is from large to small until all the scheduling instructions obtain confirmed response information.
Still further, in the above-mentioned electronic commerce method of a timed supply chain, wherein the sending logistics carrier information, receiving and confirming scheduling information, and signing for delivery information of an article comprises the following steps: receiving and/or initiating a service request, and sending and/or receiving response information; managing and issuing carrier demand information of carriers; receiving a scheduling instruction and sending response information of confirmation or non-confirmation; signing for the article according to the scheduling instruction; and delivering the article according to the scheduling instruction.
Compared with the prior art, the invention has the following advantages and effects:
1. the method comprises the steps of establishing a sorting transfer point for each sales region by comprehensively planning sales regions and sales cycles, then setting a plurality of final sales points, managing the association relationship between each final sales point and a customer receiving address to realize the sales range management of the final sales points, and managing the coverage of the sales regions by managing the association relationship between the sales regions and the final sales points.
2. The logistics distribution coverage management method based on the multi-point distribution network comprises the steps of establishing and managing a plurality of distribution lines with the sorting transfer points as starting points for each sorting transfer point by comprehensively planning the distribution lines, managing the association relationship between each distribution line and a final point of sale, and managing the distribution range of the final point of sale by managing the association relationship between each customer delivery address and the final point of sale.
3. The method supports each seller to set a plurality of goods source warehouse and sales division warehouse, can set a sales division warehouse for each sorting transfer point, can also belong a plurality of adjacent sales division to a sales area and establish the sales area warehouse, establishes the association relationship between each goods source warehouse and the plurality of sales division to manage the sales channels, establishes and manages the sales area by the sales and logistics distribution coverage of the sales division, realizes the relatively centralized management of inventory quantity in each goods source and sales area, controls the inventory quantity of each warehouse in the sales area and the sales quantity thereof to keep a dynamic balance state, reduces the time of goods in stock and improves the commodity circulation efficiency.
4. By setting the wholesale base number, the distribution base number and the retail base number, transaction parties can perform transaction operation by using different transaction base numbers in different transaction links, the standardization of transaction flow is realized, the logistics distribution cost is minimized, and the business requirements of the transaction parties are met.
5. The saleable quantity is managed according to the arrival date, the saleable quantity of the sales region is managed in a mode that stock in transit and/or the saleable quantity of the sales region are/is taken as the main stock and spot stock is taken as the auxiliary stock, the ordering time, the arrival time, the delivery time and the spot stock are linked, the spot stock of each stock point is reduced, the end cargos of which the wholesale base number, the delivery base number and the retail base number are not matched and split with the order quantity in the personalized transaction process are counted into the stock points at all levels, the low-cost and quasi-shipment period requirements of mainstream purchase of a user are met through pre-selling, the visual experience of the user on the commodity quality and the requirements of emergency replenishment are met through the spot cargos, and the performability of the order on each arrival date is ensured.
6. Through multistage pre-sale, commodity loss caused by mismatching of transaction conditions due to game of buyers and sellers can be greatly reduced, the pre-seller can issue commodities according to certain transaction terms in a certain pre-sale period, if no deal is made, the commodities are not lost, the transaction terms can be modified to issue to the next pre-sale period, the commodities need to be actually generated (harvested) or delivered until the deal is made, the existing commodity transaction is effectively avoided, and at least the risk of abandonment is forced to be discounted near the end period of the sale period.
7. Optimization of logistics costs can be brought about by multistage pre-sale: the seller issues pre-sold commodities according to the wholesale base number, the distributor reserves the commodities of the wholesale base number and issues the commodities to the sales division according to the distribution base number, and finally the seller and/or the client reserves the commodities of the distribution base number and issues the commodities to the distribution range of the seller and/or the client according to the retail base number; the seller only needs to pack and deliver goods according to the wholesale base number, the delivery side only needs to sort and transport according to the delivery base number, unpacking secondary packaging is not needed, wholesale and delivery links are long-distance transportation, unpacking loss can be avoided through large work based on original packaging, sorting and transporting efficiency is improved simultaneously, and finally, a seller or a group-buying client performs splitting and transporting operation on retail orders in the delivery range of the seller or the group-buying client, so that the overall logistics cost can be reduced.
8. Different unit prices are set for different sale base numbers, and the pre-sale price and the spot price are managed in a distinguishing mode, so that the customer is guided to take the pre-sale transaction as a main part and take the spot replenishment as an auxiliary part, the benefits of all participants are protected while the price is transparent, and the severe price fluctuation caused by the spot sale mode is avoided.
Drawings
FIG. 1 is a flow chart illustrating a timed supply chain e-commerce method of the present invention;
FIG. 2 is a schematic flow chart of a system planning method of FIG. 1;
2-1 and 2-2 are schematic views of a page display of the sales partition planning method of FIG. 2;
FIGS. 2-3 are schematic views of page displays of the distribution route planning method of FIG. 2;
FIG. 3 is a schematic flow diagram of the seller of FIG. 1;
FIG. 4 is a schematic flow diagram of the distribution method of FIG. 1;
FIG. 5 is a schematic flow diagram of the final seller of FIG. 1;
FIG. 6 is a schematic flow diagram of the purchaser of FIG. 1;
FIG. 7 is a schematic flow diagram of the sort transporter of FIG. 1;
FIG. 8 is a flow chart of the logistics dispatcher of FIG. 1;
fig. 9 is a schematic flow diagram of the carrier of fig. 1.
The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited thereto.
Examples
As shown in fig. 1, the method for e-commerce in a timed supply chain of the present invention comprises: step A, managing and displaying distribution line and/or sales division planning information and system transaction rules; b, managing a seller warehouse, issuing and managing seller pre-sold commodities and transaction terms, and receiving and processing a sales division pre-purchase order; step C, managing the transaction terms and the available sale amount of the distribution party, pre-purchasing and pre-selling commodities by the seller, and receiving and processing the order of the buyer; step D, managing the final transaction terms and the available sale amount of the seller, pre-purchasing and reselling the pre-sold goods of the distributor, and receiving and processing the order of the buyer; step E, managing a receiving address of the buyer and initiating purchase transaction according to the default receiving address; step F, sorting the goods of the pre-sold order in the sale area to generate an area distribution list; step G, receiving logistics demand information and starting logistics scheduling logic; step H, sending logistics carrying information, receiving and confirming scheduling information, and signing for goods delivery information; and establishing a C/S/S mode computer system which takes the step A as a platform service process, the step E, the step F, the step G and the step C as a business service process and the step B, the step D and the step H as a client service process.
The e-commerce method of the timed supply chain may adopt any implementation manner, including any technical architecture and any implementation manner of computer programming language, such as a network technical route based on windows, a J2EE technical route across platforms, a PHP technical route based on ECSHOP or YII, a microservice technical route of Spring closed + Spring boot or Dubbo + Spring boot, a master-slave architecture of IBM company, etc., and the communication interface between the server and the client may adopt any one or more network technologies, such as IP/IPv4 Internet protocol, TCP transmission control protocol, igmpp group management protocol, ICMP/ICMPv6Internet control information protocol, SNMP simple network management protocol, DNS domain name system (service) protocol, RS232 protocol or a combination thereof, and may also be software threads and/or API interfaces and a combination thereof.
As shown in fig. 2, step a includes: step A1, managing and/or displaying distribution route planning information; step A2, managing and/or displaying sales area information; step A3, managing and displaying final point-of-sale information; step A4, managing distribution and sale range of sale divisions and final points of sale; step a5, a transaction rule is formulated for the system.
Both the embodiments of steps a1 and a2 may employ a common three-layer software architecture: the system comprises a presentation layer, a service logic layer and a data recording layer, wherein the presentation layer is used for displaying a human-computer interface and realizing human-computer interaction, the service logic layer realizes service logic algorithm and control, and the data recording layer realizes service logic calculation and control result storage; the presentation layer can adopt independent front-end implementation technologies, such as HTML, CSS, JavaScript and the like to provide operation menus for adding, deleting, modifying and inquiring, the service logic layer can adopt any computer language, such as JAVA, C #, C + +, C, assembly, PHP and the like to realize conversion of operation contents of menus, the conversion result data is operated on the data recording layer in a reading and writing mode, the data recording layer can adopt any database and/or structural files and/or unstructured files, the database such as MYSQL, ORACLE, DB2, the structured files such as EXCEL, the unstructured files such as TXT, DOC, JPG, GIF, MOV, MP2, PM3, MP4 and the like to store the written data, and the addition of the database tables and/or structural files and/or unstructured files contents of the data recording layer is realized through a three-layer software structure, Modifying, deleting and inquiring the operation; the data record layer database table and/or the structured file and/or the unstructured file content of the sales region planner may include the name, the name and the address of a sales region, a sorting transit point, and/or codes and/or longitude and latitude information, may also have the name of an administrative region, a community or a business circle covered by the sales region, and may be expressed by a digital map: for example, a range of a sales division and a position and a name of a sorting transfer point are drawn on a digital map by a red line, a business logic layer acquires a grid or a vector and/or longitude and latitude corresponding to the digital map according to the red line range, a data recording layer stores the grid or vector or longitude and latitude information, a sales division warehouse can be arranged in each sales division, a plurality of adjacent sales divisions can be assigned to a sales area and a sales area warehouse can be established, each stock source warehouse and a plurality of sales divisions are associated to manage the sales range, and the sales area of the self is established and managed by the sales of the sales divisions and a logistics distribution coverage; the distribution line planner mainly adopts a digital map technology, sets each sorting transfer point as a starting point of a distribution line, sets a plurality of distribution line names and sets a plurality of passing points and end points for each distribution line: for example, the starting point (name of sorting and transferring point), the passing point and the end point of a distribution line are drawn on a digital map by a red line, the red line is converted into a grid and/or a vector or longitude and latitude of the digital map by a service logic layer and is stored in a data recording layer through reading and writing operation, or the information of the starting point, the passing point and the end point can be recorded by a form, and the passing point and the end point can be final point of sale; the embodiment of step a3 may employ the above general three-layer software architecture: the system comprises a presentation layer, a service logic layer and a data recording layer, wherein the presentation layer is used for displaying a human-computer interface to realize human-computer interaction, the service logic layer realizes a service logic algorithm, and the data recording layer realizes storage of a result of service logic calculation; the data base table and/or the structural file and/or the non-structural file content of the data recording layer are/is added, modified, deleted and inquired through a three-layer software structure, wherein the data recording layer data base table and/or the structural file and/or the non-structural file content of the final point-of-sale planner at least comprise a final point-of-sale name, a located address, a postal code and/or longitude and latitude or a grid, a contact telephone and the like, a planning result can be displayed on a front-end page through a digital map, a geographical position of the final point-of-sale is identified through a red point/yellow point and the like, and the color point is also a menu for operating to enter the final point-of-sale and a mouse is supported to click to enter a final point-of-sale; the embodiment of step a4 may employ the above general three-layer software architecture: the system comprises a presentation layer, a service logic layer and a data recording layer, wherein the presentation layer is used for displaying a human-computer interface to realize human-computer interaction, the service logic layer realizes a service logic algorithm, and the data recording layer realizes storage of a result of service logic calculation; the database table and/or the structural file and/or the non-structural file content of the data recording layer are added, modified, deleted and inquired through the three-layer software structure, wherein the database table and/or the structural file and/or the non-structural file content of the data recording layer for distribution and/or sales range planning management comprises a sales region name, a sorting transfer point name and a final point of sale name, a buyer receiving address which is in an association relation with the sales region name under each final point of sale is obtained, a digital map mode can be adopted to mark the position of an associated sorting transfer point with a red point in each sales region red line, the red point is clicked to enter a distribution line digital map of the sorting transfer point, a plurality of distribution line red lines with the sorting transfer point as a starting point are displayed, and management (addition, deletion and inquiry) is carried out between the sales region and the sorting transfer point, Delete, modify, inquire) the associative relationship to realize the management of the sales area of the sales district, realize the distribution and sales area management to each sorting transit point and corresponding sales district through managing the associative relationship between sorting transit point and final point of sale, realize the sales and distribution area management to final point of sale through managing the associative relationship between final point of sale and buyer's receiving address, if the final point of sale considers that a certain receiving address is not its best distribution area, can ask customer to choose other final point of sale as the point of sale; the distribution and distribution range management realizes the management of the distribution and distribution range of each distribution region, and each level can be in one-to-many relationship or one-to-one relationship; the implementation of the step a5 can be to use the above three-layer software structure to establish and manage the transaction rules common to the whole system, including the contents of the transaction rules such as basic units, commodity classifications, commodity attributes, transaction terms, sale periods, pre-sale periods and transaction start and stop times, logistics terms and the like, wherein the basic unit can be divided into a basic unit and a composite unit, the basic unit is a single unit, such as grams, kilograms, milliliters, liters, cubic meters in units of weight, millimeters, centimeters, meters, feet in units of length, bars, bags, bottles in units of counts, square meters, acres, hectares in units of area, renminyuan, dollars, harbor units, macau units in units of currency, etc., a composite unit being a combination of two basic units, such as yuan/kilogram, yuan/liter, milliliters/bottle, etc.; the commodity classification can be divided into a large class, a middle class, a small class, a common name, a commercial name and the like, for example, the large class can be agricultural and sideline products and food, the middle class can be vegetables, meat and grain oil, the small class can be leaf vegetables, melons and fruits, roots, pork, beef, mutton, chicken and the like, the common name can be a cabbage heart, a Chinese cabbage, a green pepper, tomatoes, lotus roots and the like, and personalized commodity names can be set under the common name class, for example, the brand name and the common name can be set, the word number and the common name can be set, and the brand name and the common name can be set, for example: squeezing oleum Arachidis Hypogaeae with Luhua 5S, and canning fresh beer in Qingdao; item attributes; the item attribute terms are details other than the item name, for example, the item attributes of the food category include: brand and registered trademark (including trademark category and expiration date), information of origin and certificate thereof, name of variety and description thereof, whether transgene should be added, authentication and certificate thereof, the method comprises the following steps of (1) authenticating validity (such as organic authentication, green authentication, nuisanceless authentication, export base authentication and the like), grade names and descriptions (such as special grade, first grade, second grade, non-grading and the like, the size of each grade of individual or the number of the individual in each standard weight), states and descriptions (such as-18 ℃ below zero, refrigeration at 0-10 ℃, non-heat preservation at normal temperature, dehydration at dry state, salting at salt, and cooking at cooked state, wherein the ready-to-eat state is ready-to-eat), and the quality guarantee period can be calculated according to days or months or years; each product name + attribute combination is a SKU, each product name being called SPU; the transaction terms comprise establishing a single-product wholesale base number, a distribution base number, a retail base number, a tolerance range, a price strategy and the like; the single wholesale cardinal number is the minimum unit of the single shipment volume sold by the seller from the source to the selling area, and different single wholesale cardinal numbers are set according to the distance between two places, the commodity state and other factors so as to save the logistics cost; the seller can select the whole vehicle load of one vehicle type as a single wholesale base number and can also be the minimum unit of a transportation mode, such as a container or a pallet load as the single wholesale base number; a single-product distribution base number can be set for each SPU or SKU, the minimum number of the single-product distribution base numbers in the single-product distribution base number is the single-product distribution base number of the SPU, and the total number of the single-product distribution base numbers of a goods-source warehouse set by a seller is smaller than the single-product distribution base number; the distribution base number is the minimum number of sales of a sales region to an enterprise buyer, and the distribution base number is set to optimize a distribution mode and reduce the distribution transaction cost; the retail base is established according to the commodity grade detail information, if a certain grade of commodity is 750 g +/-10%/item, the retail base is 750 g, if the commodity is bulk, the retail base can be defined as a minimum retail unit, such as 50 g or 250 g, the retail transaction amount is an integral multiple of the retail base, the non-bulk retail base is the retail packaging specification, such as the retail packaging specification of beer A is 500 ml/bottle, the transport packaging specification is 12 bottles/box, the retail packaging specification of beer B is 750 ml/bottle, the transport packaging specification is 9 bottles/box, the retail base is 1 bottle, the retail transaction amount is an integral multiple of 1 bottle or a combination thereof, and the distribution base can be the transport packaging specification (box) or an integral multiple thereof; the maker 115 only sets the radix field, and specific data are set by each operator according to local operation requirements; the tolerance range is a floating range of the number of packages of a shipping package size or a retail package size, and is generally expressed in terms of tolerance, for example, ± 10%; the transaction period can be uniformly set by the system, and can be determined as the minimum unit for fresh food: a day, for apparel, may be defined as a week, etc.; the pre-sale period may be set to one or two weeks and the trade cut-off time is set to synchronize the aggregated orders, the system may set a set of trade times for one time zone: the method comprises the following steps of sorting and transporting point goods receiving deadline, sorting and transporting point goods sending starting and ending time, enterprise user goods receiving starting and ending time, final point-of-sale business starting and ending time, reserved retail transaction deadline, reserved delivery transaction deadline, reserved retail transaction order cancellation deadline, reserved delivery transaction order cancellation deadline, final point-of-sale delivery starting and ending time and time period and the like; the logistics clauses can be uniformly set by the system or set by the distributor or the final point of sale, and the contents comprise: the distribution party starts dosing free of charge, the distribution party charges a price, the distribution arrival time period, the final point-of-sale mail-free starting dosing, the final point-of-sale secondary distribution price, the final point-of-sale distribution time period and the like.
As shown in fig. 2-1 and 2-2, another embodiment of the step a2 is to present the planning information in a home page manner and provide the buyer with a selection menu of operations, including a plurality of operation menus of step a 2: selecting a sales region prompt menu 1120, a sales region first-level menu 1121, which is typically a drop-down country list, and if the service is provided in only one country, it may be a drop-down province list; a sales zone secondary menu 1122, which is typically a subdivision of the primary menu, may be a drop-down list of country provinces if the primary menu is a drop-down list of countries, or may be a drop-down list of cities to which the provinces belong if the primary menu is a drop-down list of provinces; an online sales partition three-level menu 1123, which is usually a subdivision of a two-level menu, wherein if the two-level menu is a pull-down province list, the three-level menu is a pull-down city list menu, and if the two-level menu is a pull-down city list, the three-level menu is a pull-down city list menu for names of sales partitions belonging to the city, and so on, a sales partition can be set as a sales area, usually one city is used as a sales area, and a plurality of adjacent sales partitions can also be set as a sales area, and the names of the sales areas do not need to appear in a front-end menu, can appear in a rear-end management interface, and are used for setting the sales partitions associated with the sales areas; the operation menu of the transaction rule making device 115 comprises pre-sale period information and commodity category selection menus displayed in a delivery date selection menu mode, usually the delivery date selection menu 1150 is the present delivery on the calendar day, the delivery date selection menu 1151 is the tomorrow delivery on the calendar day, and so on, 115T6 is the delivery day on the maximum pre-sale period calendar day, the calendar day is the current day menu, the final point-of-sale distribution geographical position information 1131 associated with the sorting transit point associated with the receiving address is displayed, the final point-of-sale distribution geographical position page 1131 is the front-end page of the step A1 and the step A2, and is used for displaying the geographical position of the final point-of-sale to which the sorting transit point belonging to the receiving address belongs, and annotating the corresponding name menu, and the name menu can enable a user to click to enter the sorting transit point sales commodity display page and/or the final point-of-sale on-line, the final point-of-sale contact information, such as a telephone number, can also be displayed, after the online shop is entered, the final point-of-sale commodity information is displayed below the final point-of-sale distribution diagram, the pre-sale jump menu 115A is displayed, and the pre-sale commodity display page 1x21 is entered through the pre-sale jump menu; the method comprises the following steps that a delivery date menu after the next-to-date delivery date of a calendar day is laid under final point-of-sale distributed geographic position information 1131, a pre-sold commodity display page 1x21 of a sales division can be deployed under the delivery date selection menu, commodity category selection menus 115a, 115b and 115c can be arranged in a vertical and horizontal matrix mode, each menu can select a type list of the category in a pull-down mode, if all commodities in the system are of a large category, a first-level commodity classification menu is a commodity medium category, a commodity subclass menu to which the medium category belongs appears after a medium category is selected by clicking, a commodity universal name menu appears after the subclass menu is selected, and a commodity attribute menu appears after a universal name is selected: brands 115d, origin 115e, varieties 115f, authentication 115g, grades 115h, commodity states 115i, etc., and these attribute menus may also be displayed all the time, and each attribute menu may have a plurality of selectable values behind it; the sales area available commodity display information 1x21 is a front page of the commodity repeater 182, and is used to display information on commodities available for sale on a certain non-current date in the current sales area.
Fig. 2-3 are another embodiment of step a1, where the display layer uses a digital map to display the location of the sorting point (starting point), and all distribution lines and/or a certain distribution line, each distribution line identifies the line name, the passing point, the ending point, etc., and may also use the line name as a menu to allow the user to query and operate, the business logic layer converts the line planning information into data information recorded in the data recording layer, the recorded content includes the name of the sorting transfer point, the name of the distribution line, the name of the starting point, the name of the passing point, and their corresponding grids, longitudes and latitudes, or vectors, where the passing point and the ending point may be composed of the final point of sale; the method comprises the following steps: a11, planning and/or displaying multi-stage sorting transfer points, A12, managing membership relations among all the sorting transfer points, and performing hierarchical management on all the sorting transfer points by taking the sorting transfer point of a root node as an uppermost sorting transfer point, A13, establishing and managing distribution lines between the upper sorting transfer point and the subordinate sorting transfer points which are subordinate to the upper sorting transfer point; step A11 can adopt a digital map operation mode, identify multi-level sorting transit points on a digital map, and generate a database table of multi-level sorting special points through map controls; step a12 may employ a general three-layer software architecture: the system comprises a presentation layer, a service logic layer and a data recording layer, wherein the presentation layer is used for displaying a human-computer interface and realizing human-computer interaction, the service logic layer realizes service logic algorithm and control, and the data recording layer realizes service logic calculation and control result storage; the presentation layer can adopt independent front-end implementation technologies, such as HTML, CSS, JavaScript and the like to provide operation menus for adding, deleting, modifying and inquiring, the service logic layer can adopt any computer language, such as JAVA, C #, C + +, C, assembly, PHP and the like to realize conversion of operation contents of menus, the conversion result data is operated on the data recording layer in a reading and writing mode, the data recording layer can adopt any database and/or structural files and/or unstructured files, the database such as MYSQL, ORACLE, DB2, the structured files such as EXCEL, the unstructured files such as TXT, DOC, JPG, GIF, MOV, MP2, PM3, MP4 and the like to store the written data, and the addition of the database tables and/or structural files and/or unstructured files contents of the data recording layer is realized through a three-layer software structure, Modifying, deleting and inquiring operation, and establishing a membership relationship between a superior sorting transfer point and a subordinate sorting shipping list; step a13 may adopt any one of methods a11 or a12 and a combination of 2 methods, and implement the management of the distribution lines by establishing an association relationship between the upper sorting transfer point and the lower sorting transfer point associated with a certain distribution line to which the upper sorting transfer point belongs, with the line name as a keyword, where the final point of sale is also a lower sorting transfer point.
As shown in fig. 3, step B includes: step B1, receiving and/or initiating service request, sending and/or receiving response information; step B2, managing seller warehouse and transaction terms, issuing and managing pre-sold commodities; step B3, the sales lot presale order is received and processed.
The implementation mode of step B1 may be a computer connected in a wired manner and/or an intelligent terminal or a mobile phone connected in a wireless manner, where the connected protocol may be a TCP/IP protocol, an IPX/SPX protocol, a NetBEUI protocol software thread and/or a hypertext (hypertext), a hypermedia (hypermedia), a hypertext transfer protocol (HTTP) protocol, an RS232 serial protocol, or a wireless communication GSM, 3G, 4G, etc., for example, a PC + wired/wireless network +. exe format software package of a windows system, a PC + wired/wireless network +. dmg format software package of an apple system, an android smartphone + APK software package, or an apple smartphone +. ipa or deb or pxl software package, or an application service interface API, a software service process, etc., which establishes a connection with a server to interact information.
The step B2 is implemented by establishing a relationship between one or more warehouse of source location and warehouse of sales area, and if there are multiple warehouse of sales area, it needs to set the arrival order and transportation time, and set the terms of wholesale transaction in warehouse of source location, including: retail packaging specification, transport packaging specification, single product wholesale base number and single wholesale base number; adding the types, names, attributes and sales volumes of the sellable commodities through a warehouse of a goods source place, and distributing the commodity grade, the starting and ending dates of the time of selling the commodities, the pre-selling quantity and the wholesale price of the goods source place after selecting the commodity single item; one or more sales regions can be selected, all or part of the commodities are selected to be issued to the corresponding sales regions, and the wholesale price and the number of the commodities available for sale of the regions are issued according to the market conditions of the sales regions; the commodity of a certain goods source can be selected and issued by the sales district according to the needs of the sales district; when the goods source warehouse publishes the branded and/or authenticated goods (needs auditing confirmation), the branded and/or authenticated goods are published in the sales region, and when the goods source warehouse publishes the non-branded and/or non-authenticated goods, the non-branded and/or non-authenticated goods are published in the sales region; adding commodities in a warehouse of a source place can select the major (such as agricultural and sideline products and food), the middle (such as vegetables, meat and grain oils), the minor (such as leaf vegetables, melons and fruits, rhizomes, pork, beef, mutton, chicken and the like) and the common name (such as heart of a dish, Chinese cabbage, green pepper, tomato, lotus root and the like), and then inputting the commodity name (such as brand name + common name, word number + common name, own characteristic process + common name and the like), for example: squeezing oleum Arachidis Hypogaeae with Luhua 5S, and canning fresh beer in Qingdao; the food attributes are: brand and registered trademark (including trademark category and expiration date), origin, breed and its description (technical index of the breed, etc.), whether transgenic, certified and its certificate of certification (certified type, expiration date, certificate number and issuing agency, etc.), grade and its description, such as individual size of each grade, e.g., (150 ± 10%) g/g, or individual quantity per standard package weight (12 ± 10%) g/kg, status and its description (selecting a status value in the system trade rules, e.g., frozen, ambient, ready-to-eat, etc.), retail package specifications and its description, e.g., (500 g ± 10%)/bag, 750 ml/bottle, shipping package specifications and description, e.g., (20 ± 10%) kg/box, description: foam box, 80 x 60 x 45 cm; the carton 70 × 60 × 40 cm may distribute the same factory wholesale price to all sources, different factory wholesale prices to different sources, the same block wholesale price to all sales blocks, or respective block wholesale prices to different sales blocks.
The implementation method of step B3 may be that after receiving the sales region pre-purchase order, obtaining each region delivery plan Fd, if the transportation is multiple region car sharing transportation, combining the region delivery plans Fd participating in car sharing as the single delivery plan Fc of the sales area, generating and printing a shipment label of the source of the shipment for each Fd according to the delivery order, and then pasting on the delivery tray, or curing a readable-writable label on the tray in advance, generating a shipment plan, and then writing; the source loading label content comprises: the method comprises the steps of carrying out loading serial number/total serial number of a sales area, a warehouse name of a goods source, a warehouse name of a goods arrival, a name and quantity of loaded goods, delivery time and the like, and mapping the loading label information to generate a bar code or a two-dimensional code or RFID, wherein the bar code or the two-dimensional code or the RFID can adopt any technical scheme, such as a 13-bit bar code generated based on a random number of a timestamp, and the bar code or the two-dimensional code or the RFID is associated with label information so that the label information can be obtained by scanning the bar code or the two-dimensional code or the RFID; and generating and printing a boxing label for each transport package specification in the Fd, wherein the boxing label information comprises: the boxing serial number/Fd total boxing serial number, the warehouse name of the source of goods, the name of the arrival warehouse, the name and the attribute of goods, the transport package specification and tolerance (no tolerance is available), the retail package specification and tolerance (no tolerance is available), the delivery time and the like, and the boxing label information is mapped to generate a bar code or a two-dimensional code or RFID, the bar code or the two-dimensional code or the RFID can be generated in any generation mode, for example, a 13-bit bar code, a bar code and an RFID generated based on the random number of a timestamp are associated with the label information, so that the label information can be obtained by scanning the bar code or the two-dimensional code or the RFID, the two-dimensional code can be associated with the source of goods, and the warehouse information of the source of goods can be accessed by scanning; respectively taking different flows according to whether the transport package specification has tolerance: generating a delivery plan without tolerance, printing a boxing label, and then sticking the boxing label on the outer package of the commodity to finish the boxing process; the delivery plan with tolerance enters a weighing and box sealing process: for example, a touch screen intelligent electronic scale is adopted to obtain Fc of a box to be packed, an Fd is selected from the Fc, then a box label bar code or a two-dimensional code of the box to be sealed is scanned to obtain commodity information of the box to be packed, the commodity information is verified with the Fd box commodity information, if the commodity information is consistent with the commodity name and the attribute displayed on the screen, a box sealing person manually verifies whether the commodity in the box is consistent with the commodity name and the attribute displayed on the screen, a [ confirmation ] menu is clicked, the electronic scale obtains the tare weight (which can be preset), the gross weight and the net weight of the commodity in the box, the gross weight and the net weight are compared with the transport package specification, if the net weight falls within the tolerance range, the [ sealing ] menu can be clicked or a box sealing label is automatically generated, otherwise, the [ sealing ] menu cannot be operated, the box sealing label cannot be generated, and the box sealing person can increase or decrease the quantity of the commodity in the box to ensure that the weight of the commodity in the box meets the tolerance, ensuring that the tolerance of each transport package specification is executed, generating a box sealing label after the electronic scale receives a box sealing instruction or obtains the net weight of the electronic scale to be matched with the transport package specification, wherein the content of the box sealing label comprises: the method comprises the following steps that a box sealing electronic scale ID, the name and the attribute of a boxed article, net weight, gross weight, box sealing time and the like are printed on self-adhesive paper to generate a box sealing label or write an RFID label, the box sealing label also comprises a bar code or a two-dimensional code or an RFID which is used for correlating the content of the box sealing label, and any coding rule can be adopted by the bar code or the two-dimensional code or the RFID; the box sealing label is adhered to the opening of the packaging bag of the thin film liner of the packaging box and used for sealing articles, so that one article is boxed, and the box sealing operation of all commodities is finished by analogy in sequence; the method can also adopt a packaging method for carrying out retail packaging specification on the commodities in advance, for example, the retail packaging specification and the floating range thereof which are preset or in the delivery plan list Fd are obtained, the commodities are stored according to the specification and the floating range thereof, then the commodities are put on a weighing electronic scale to obtain the net weight information and print and paste the packaging label, the packaging label is scanned and put in the transport packaging box until the transport packaging box is full, and then the box sealing label is generated and printed to be directly pasted on the transport packaging box; and then reading the bar code or the two-dimensional code or the RFID of the label of the delivery tray by adopting an intelligent sorting terminal, scanning the bar code or the two-dimensional code or the RFID of each packing label to be packed one by one, verifying the bar code or the two-dimensional code or the RFID with the content of the commodity to be packed on the delivery tray, carrying the same to the tray until each tray is fully loaded, generating a shipping-following receipt Sd of each sales region one by one, sending the shipping-following receipt according to the order of the goods, changing the state of the shipping-following receipt into the delivery when the shipping-following receipt is signed, and finishing the processing of the shipping receipts of a plurality of sales regions in sequence.
As shown in fig. 4, step C includes: step C1, receiving and/or initiating service request, sending and/or receiving response information; step C2, managing and issuing the transaction terms of the distributor; step C3, pre-purchasing seller commodities and reselling according to the distribution party transaction terms; step C4, controlling the selling amount of the commodities in each selling period; step C5, the buyer order is received and processed to generate sold inventory and sold inventory.
Step C1 may be implemented in the same manner as step B1, and step C2 may use a common three-tier software architecture for establishing and managing delivery transaction terms, including: a distributor price policy, a distribution base value, a retail base value, a transaction period, logistics terms, a retail transaction deadline, a retail transaction cancellation deadline, a distribution transaction cancellation deadline, a sorting transit point receiving deadline, a sorting transit point shipping start-stop time, a customer receiving start-stop time, etc., wherein the distribution base value is typically a transport packaging specification of a seller, such as: a case, bag, bucket, etc., e.g., 20 kg/case, or 25 ± 10% kg/bag; the trade period can be set according to the commodity circulation characteristics, the quality guarantee period of the fresh food is short, the fresh food can be set according to the day, and the pre-sale period can be set to be a plurality of trade periods, for example, the trade period is 1 day, and the pre-sale period is 6 trade periods, namely 6 days; the logistics terms can be announced in advance, the logistics terms can be different delivery modes according to one-time delivery amount, for example, delivery transactions reaching a certain amount and conforming to the starting and ending time periods of customer delivery can cover delivery fees, delivery transactions not reaching the amount or not matching the delivery time periods with the delivery time periods are secondarily delivered by final sales points associated with default buyer delivery addresses, delivery fee X units/delivery bases need to be collected, retail transactions reaching a certain amount can be finally delivered by the delivery addresses in a free manner, the X units/secondary delivery of the amount are not reached, non-associated final sales points are delivered according to delivery distances, and the like; the distribution price strategy can be formulated according to the commodity category, different price strategies can be set according to the large category, the medium category or the small category, and the distribution price strategy can also be formulated independently aiming at different large customers; one price policy information includes: the name of the distributor, the transaction amount and the price increase rate thereof, and the exchange rate can be converted into the price of the commodity with other currency, for example, the price increase rate of an X distributor and a single product with the purchase amount of less than 20 retail bases (kilogram or liter) is 30%, the price increase rate of the purchase amount of 20-60 retail bases is 9%, the price increase rate of the purchase amount of 61-120 retail bases is 6%, the price increase rate of the purchase amount of above 121 retail bases is 3%, namely 30%, 9%, 6% and 3% are respectively added according to the purchase transaction amount on the basis of the sales region wholesale price set by the seller, a plurality of different price strategies can be preset, the price strategies take the retail bases as the pricing units and are converted according to different commodity types and transportation packaging specifications, even if the same commodity uses different transportation packaging specifications, the price strategy can still cover the transaction of various purchase quantities, for example, the transport package specification is (20 +/-10%) kg/box, then the purchase quantity is converted into 4 boxes at 61-80 kg, converted into 5 boxes at 81-100 kg, and so on, and the price strategy can also be converted into a coupon mode: the commodities are converted into retail prices according to a proportion, certain coupons are obtained when certain purchase amount/amount is reached, payment is carried out to deduct money of the commodities, a pricing mode that different unit prices are automatically converted according to the purchase amount is realized, and an exchange rate conversion function can be increased, and prices of the commodities sold in an export or import are converted into prices of local currency according to the exchange rate; delivery transaction deadline after the retail transaction deadline, the intermediate reserved retail order is converted into a delivery order processing time (taking into account also the inventory time of the final point-of-sale stock). Step C3 may be to select qualified commodities according to the commodities and transaction terms that the seller pre-sells and issues, calculate and forward the commodities to the distribution area after applying the distribution party price strategy, and generate and display the multi-level price and the number of the commodities available for sale at each arrival date, for example, the seller X issues the pre-sold commodity a with a single wholesale base value of 10 boxes, the commodity B with a single wholesale base value of 16 boxes, the commodity C with a single wholesale base value of 20 boxes, and the single wholesale base distribution value of 160 boxes, then the party may select two or all of any one or all of the 3 commodities, pre-purchase commodities are all transferred to the stock to be sold, pre-sold commodities are credited to the stock to be sold, and the distribution base value set by the distribution party must be the whole multiple of the boxes.
Step C4 can calculate and display the available quantity of the order on a certain arrival date of the sales area according to the calendar time, if the arrival date of the order is the current date of the calendar date, the stock quantity to be sold at the final point of sale can only be used as the available quantity, and the customer can only place the order at the final point of sale; if the order arrival date is the tomorrow of the calendar day, controlling according to the saleable amount of the tomorrow of the sales area, and allowing orders exceeding the saleable amount to be disallowed; the distribution party converts the time to market of the warehouse of the goods source into the time to arrive of the buyer of the sale division according to the following algorithm, and can also calculate the delivery time of the warehouse of the goods source according to the time to arrive so as to ensure that the order is met; the buyer arrival date (unified as the current date X: 00) = time to market in the warehouse of the goods source place + transportation time from the warehouse of the goods source place to the client [ hour ]; each delivery area has dynamic commodity sales at each moment of a certain arrival day, and in order to match the commodity arrival time with the time to market and the area sales, an algorithm of the sales, the order quantity and the arrival time is required, and the algorithm principle is as follows: not displayed or displayed in gray outside the sales period, and not operable; the orders to the goods days in the spot transportation period (namely the transportation time from the sorting transfer point to the customer) and the available quantity is the stock quantity to be sold; the order of the goods arriving at the goods source warehouse in the transportation period of the goods source warehouse is the order of the goods arriving at the goods date, the available sales amount = the upper expected sales inventory + the current on-journey inventory-the current sold amount, if the time of the goods arriving at the goods date is not the time of placing the order, the upper expected sales inventory is 0, and if the time of the goods arriving at the goods date is greater than the transportation time, the available sales amount is in the maximum available amount range of the goods source warehouse; the description is as follows:
setting the time of sale of the goods at the goods source as T1 (including package delivery time), wherein the time period is (YYYMMDd 00:00-YYYYMMDD23: 59);
setting the transportation time from the goods source warehouse to the regional sales warehouse as T2 (hours);
setting the distribution time from the sales area warehouse to the sorting transfer point as T3 (hours);
setting the distribution time from the sorting transfer point to the buyer as T4 (hours);
let the time of receipt by buyer be T5, its time period be (YYYYMMDD 00: 00-YYYYMMDDBB: 59);
setting the calendar time to Td (YYYYMMDD 00: 00-YYYMMDD 23: 59);
the pre-sale time of the sale division is set as T6 (days);
if the pre-sale time in the transportation period is T7 (days), then T7= (T2 + T3+ T4)/24, and the decimal is regulated into a positive integer;
setting the commodity pre-sold arrival date as t in the sales area;
setting the sales volume of the sales region for t days as St;
setting the inventory of the sales area per t days as Rt;
setting the quantity of orders of the selling areas on the t days as Qt;
setting the single-product wholesale base number of the warehouse at the source place as Pd;
setting the single wholesale cardinal number of the warehouse at the source place as Pc;
the sale area pre-purchase quantity on the t day is Yt;
setting the certified year product of the x commodity as Ax;
assuming that the sales space spare capacity is M, M = ∑ Q (Td ← T7) — QT7}/T7, Td ← T7 indicates that T7 days are advanced on the basis of calendar day Td;
when adding goods in a goods source, the following input is required: t1, T2, T3, Pd, Pc;
the delivery side needs to set: t4, T6;
calculating the quantity of commodities available for sale in a sales region on T days by St = Rt + (Yt-Qt), wherein St is not displayed and cannot be operated when T ∠ T5 and T5+ T6 ∠ T, only the final point-of-sale distribution position of the sales region is displayed and cannot be sold when T = T5, Pt =0 is not displayed when T ∠ T is not more than T1+ T7 and not more than T5+ T6 for 1 day, Yt = N Pc is not more than Ax (N is a positive integer) when T5 ∠ T1+ T7 ∠ 1 is not more than T ∠ T is not more than T5+ T6 for 1 day;
setting initial values Rt =0 and Qt =0, when St < Mt (T5 ∠ T1+ T7 ∠ T is less than or equal to T5+ T6), the sales region inventory management gives a replenishment warning and gives replenishment delivery time Ft = T4 ← (T2 + T3), and when St is more than or equal to Mt, the inventory management does not need replenishment.
The embodiment of step C5 is when selecting a sale period, preferably one day for fresh food and one week for fashion apparel goods; in each sales cycle, when the amount of the pre-sold orders exceeds the stock to be sold, triggering the pre-purchased issuing logic again, for example, when the pre-sold order of the A commodity is the 11 th box, triggering the distribution party to pre-purchase and issue a second 10 boxes of commodities, when the pre-sold order of the B commodity is the 17 th box, triggering the distribution party to pre-purchase and issue a second 16 boxes of commodities, or setting the stock quantity of the commodities at the distribution party according to the sales cycle, when the stock to be sold is lower than the stock quantity, triggering the pre-purchased issuing logic again, and so on until the stock limit of the seller is reached; if the stock to be sold in the sale period is not sold in advance, the next sale period can be automatically switched to until the expiration date of the commodity validity period, and the next sale period can also be switched to according to the checking amount after checking, so that the checking operation is a known technology, and the overdue commodity is automatically placed off shelf.
As shown in fig. 5, step D includes: step D1, receiving and/or initiating service request, sending and/or receiving response information; step D2, pre-purchasing the goods of the distributor and reselling according to the final seller transaction terms; step D3, receiving and processing the final pre-sale order to generate sold inventory and to-be-sold inventory; step D4, signing for the pre-purchased commodity, and carrying out goods distribution processing on the sold inventory commodity to generate a final distribution plan; step D5, issuing inventory items for sale on-demand, receiving and processing the final point-of-sale orders.
The same technical scheme as that of B1 can be used in the step D1; steps D2 and D3 may use the same logic for C3 and C4 and C5: pre-purchasing a distribution base number commodity to a distribution party, re-selling and releasing according to a retail base number set by a final seller, transferring all the pre-purchased commodities to a stock to be sold by the final seller, and recording the pre-sold commodities into the sold stock; the retail base value can adopt the retail packaging specifications (if any) of the seller, such as 230 g/bag, 750 ml/bottle and the like, and if the retail base value is bulk goods, one can be set according to the retail habit, such as 200 g/piece, 250 g/piece and the like; the final seller sales volume control logic is the same as C4: st = Rt + (Yt-Qt); an inventory may also be set for the final seller for on-demand sales, and when the inventory to be sold falls below the inventory, the repurchase logic is triggered.
Step D4 can adopt three-layer software structure, or can adopt intelligent terminal + control module + database table and/or structural file mode to do real object warehousing processing to the pre-purchased goods and to carry out split charging operation to the pre-purchased order, for example, adopt electronic scale with network communication module and Android operating system or WINDOWS operating system to weigh and confirm the pre-purchased goods, respectively count the real object stock according to the net weight and gross weight of weighing, then carry out code scanning and stock keeping to the real object box sealing label (namely obtaining the current goods SKU information and quantity of the to-be-split charging operation), download the pre-sold order to be split charged and display on the screen of the electronic scale, select a certain pre-sold order matched with the stock goods for weighing, when the weight of the goods obtained by the electronic scale is matched with the quantity of the order (namely confirming split charging in the issued retail tolerance range), the electronic scale prints out the self-adhesive label, package the finished goods package and seal or mark by the self-adhesive, the self-adhesive labels are printed with commodity information, weight and bar codes, the bar codes can be generated in multiple ways, for example, the same type of SKU uses the same bar code, or the same type of SKU uses different bar codes, for example, a 13-bit bar code generated based on a timestamp and a random number, then an intelligent sorting terminal (for example, an intelligent scanning terminal of an Android system or a WINDOWS CE system) is used for downloading pre-sold orders to be delivered, a pre-sold order of a user is selected at the intelligent scanning terminal, a SKU list of the order is displayed, a corresponding commodity is selected to scan the self-adhesive labels, a final point-of-sale pre-sold delivery plan is generated after the content of the self-adhesive labels is verified to be consistent with the content of the pre-sold orders to be delivered, and technical details are realized in a graphical user interface source tracing terminal and a source;
step D5 implementation mode can pre-split the stock to be sold by the final seller in the current period according to the retail base number, and issue the stock according to the transaction terms of the final seller, can issue the stock to online shops, and can also issue the stock to an entity shelf at the same time, set delivery mode and cost, default day delivery or self-lifting, the split operation logic and D4 adopt the same logic, generate the sale plan, the logistics delivery terms can be that the purchase amount of the default address reaches XX element to start delivery, the purchase amount reaches XY element to free delivery, the purchase amount does not reach XY to charge according to XZ element/time, the delivery of the non-default address charges according to the delivery distance, etc.; the scheme can also be that the buyer subpackages and prints the subpackage label after selecting the commodity on site, and the pricing and charging are carried out by scanning the subpackage label code to obtain the SKU information of the commodity and the corresponding retail price information.
As shown in fig. 6, step E includes: step E1, receiving and/or initiating service request, sending and/or receiving response information, step E2, managing the buyer's receiving address, selecting and associating a final point of sale as self-service point for each receiving address; and E3, acquiring the related sale divisions and/or final sale points according to the receiving address, or selecting other final sale points to initiate purchase transaction, and confirming the commodity delivery information.
The implementation of step E1 may be the same as B1; step E2 may be selecting or inputting the country, province, city, county, street, and entering house number of detailed community or road on the address bar input box, marking the receiving address on the digital map, displaying 2-3 final selling points with closest straight line distance as candidate selling points with the receiving point as the center point, the buyer selecting one of them as the most convenient selling point matched with the receiving address, and establishing the association relationship between the final selling point and the receiving address, where the final selling point is the default selling point of the receiving address, and the selling zone associated with the default selling point is the default selling zone of the buyer; if the final point of sale considers that the receiving address is not suitable for the final point of sale distribution, the buyers can be prompted to modify the association relationship, and each buyer can establish a plurality of receiving addresses but only has one default receiving address; step E3 is implemented by automatically obtaining a default sales partition and/or a final point-of-sale online store to initiate a purchase transaction according to the default receiving address, or selecting another final point-of-sale or sales partition to initiate a purchase transaction, wherein the buyer can obtain different sales partitions and final points-of-sale by modifying the default address, the distributor displays different pages according to the type of the buyer, for example, the buyer for enterprise purchase logs in and is defaulted to a distribution transaction display page, which displays transaction terms with a commodity distribution base as a transaction unit, the price is different according to the transaction amount, but the transaction amount is an integral multiple of the distribution base, the saleable amount is calculated and displayed according to the arrival time and according to the saleable amount management rule, and the buyer can only place orders for purchase within the saleable amount; after a retail buyer logs in, a retail transaction display page is defaulted, the retail transaction display page comprises distribution information of a final point of sale on a map, online shops corresponding to the final point of sale can be accessed by clicking a final point of sale distribution information icon menu on the map, commodities are selected by the online shops to initiate a current-delivery purchase transaction, and a spot commodity is selected by the entity final point of sale to scan codes to initiate a spot purchase transaction; the pre-sold retail base number commodities can be displayed to the buyer according to the arrival date, and the buyer displays the saleable commodities and the transaction term information on the arrival date after selecting the arrival date; an enterprise buyer can jump into a retail display page through a menu to purchase a retail base number, can set that a retail buyer cannot enter a distribution transaction display page to perform distribution purchase, can also set that the retail buyer can enter the distribution transaction display page to perform distribution purchase, can purchase commodities at an associated final point of sale, and can also select to purchase at a non-associated final point of sale, wherein the non-associated final point of sale can accept or reject a purchase request of a client, or increase the collection and distribution cost and the like; each buyer can select different delivery modes according to the purchase amount, such as direct delivery at a sorting transfer point or secondary delivery at a final point of sale or self-service, and the buyer selects one delivery mode according to logistics delivery terms to complete the purchase transaction.
As shown in fig. 7, step F includes: step F1, receiving and/or initiating service request, sending and/or receiving response information; step F2, selecting sorting transfer points one by one according to the principle of top to bottom, selecting the distribution lines to which the sorting transfer points belong one by taking the sorting transfer points as starting points, and generating a sorting plan list according to the line distribution demand information; step F3, generating or associating a locker tag and a sorting tag according to the sorting plan sheet; step F4, carrying out sorting operation on the sorting plan list according to the labels to generate a cabinet loading list of the corresponding line; and F5, generating a delivery order for the packing list according to the loading order and transferring the articles.
Step F1 may be implemented by downloading and displaying the distribution demand through the distribution demand receiving module as in step B1, where the distribution demand content includes: the name and ID of the sorting transfer point, the order number to which the sorting transfer point belongs, the delivery quantity, the receiving address, the delivery line to which the address belongs and the delivery order; the implementation of step F2 may be to establish a sorting plan management module, which may adopt a general three-layer software structure: the system comprises a presentation layer, a service logic layer and a data recording layer, wherein the presentation layer is used for displaying a human-computer interface and realizing human-computer interaction, if a plurality of levels of sorting transfer points exist, a topmost sorting transfer point is selected to start, each distribution line is selected one by taking the sorting transfer point as a starting point, the service logic layer acquires all to-be-distributed orders on a certain distribution day on the line to generate a sorting plan list of the line on the day, and the data recording layer realizes the storage of service logic calculation results-sorting plan information; the three-layer software structure is used for realizing the operations of adding, modifying, deleting and inquiring the database table of the data recording layer and/or the sorting plan of the structural files and/or the non-structural files, and the sorting plan list of one line comprises the following information: the method comprises the steps that a receiver, a receiving address, longitude and latitude of the receiving address, a sender (a delivery party), a commodity name, attributes of the commodity name, transport package specifications, transport package number and total number are established, a sorting plan sheet with the receiver as a key word, the sender (the delivery party), the receiving address, the commodity name, the transport package specifications, the transport package number, the total number, a mapped bar code or two-dimensional code or RFID as information content is established, a plurality of line sorting plan sheets belonging to the same sorting transfer point with the line name as a key word form a sorting transfer point sorting plan sheet, and each sorting transfer point sorting plan sheet is completed one by one; the implementation method in step F3 selects one distribution route in the sorting plan list of the sorting transfer point one by one, and then generates a loading plan according to each receiving address, the contents of which include: the method comprises the steps that a consignee, a delivery date, commodity information and quantity, sorting label serial numbers/total serial numbers are mapped by content information to generate a bar code or a two-dimensional code or an RFID, a packing plan is printed on a paper label of an adhesive sticker or written into an RFID label to generate a sorting label according to the sorting label serial numbers, a packing label of the bar code or the two-dimensional code or the RFID can be carved in advance and pasted or installed on a turnover cabinet, the bar code or the two-dimensional code or the RFID information can adopt any technical scheme, for example, a 13-bit bar code generated based on a random number of a timestamp, the two-dimensional code can also be an IP connection and used for being connected to a shop on a goods source to check detailed commodities, and the packing label and the turnover cabinet are established into an association relationship by installing or pasting the label; step F4 may adopt an intelligent sorting terminal composed of an intelligent terminal of an Android system or a Windows system or other systems and sorting operation software, download a sorting plan sheet of a sorting transit point, select a route from the sorting plan sheet, select a binning plan, then scan any sequence number in the corresponding group of sorting labels, verify whether the information mapped by the label is consistent with the label information of the sequence number corresponding to the binning plan, if not, replace the sorting label or the binning plan, if so, start the sorting logic: selecting a physical commodity according to a sorting label serial number or selecting a sorting label according to the physical commodity, then respectively scanning a sorting label bar code or a two-dimensional code or a RFID corresponding to a physical packing label bar code, verifying whether commodity information in label contents is consistent or not, sending a packing instruction if the commodity information is consistent or not, sending a non-packing instruction if the commodity information is inconsistent, sticking the sorting label on a physical packing box which is consistent in matching, and being incapable of covering the original packing label, generating a packing serial number by an intelligent sorting terminal, establishing association between the sorting label which is consistent in commodity information matching, the packing serial number and the packing label, moving the physical with the sorting label into a turnover cabinet, starting a cabinet sealing logic when the turnover cabinet is fully loaded or the address article is completely loaded, namely clicking a [ cabinet sealing ] menu on the intelligent sorting terminal, and carrying out the commodity name which is already loaded into the turnover cabinet by the intelligent sorting terminal, The quantity and the sorting label serial number are assembled with the label, the cabinet sealing time and the cabinet sealing sorting terminal ID of the current turnover cabinet to generate cabinet sealing label information, then a label printer is driven to print out the cabinet sealing label or an RFID reader-writer is used for generating an RFID label, the RFID label is pasted at the sealing position of the turnover cabinet, and after the cabinet loading operation of one turnover cabinet is completed, a cabinet loading list is generated; if the goods are not sorted, the intelligent sorting terminal automatically generates the next packing serial number, the packing process is repeated until the goods are all loaded into the turnover cabinet in the packing plan, a lowest packing rate (for example, 70%) can be set, and when the actual packing rate of the goods is lower than the lowest packing rate, a non-packing mode, namely a mode of independent loading and transporting according to transport and packaging specifications can be adopted, the sorting label is taken as a packing label or a mode of generating a packing label according to the sorting label, and a shipping-following uniform list of the receiving address can be generated and printed; step F5 may select sorting transfer points one by one, and generate a logistics plan for each line by sorting the turnover cabinets that have been sealed in order of loading, the logistics plan including: sorting the names of the transfer points, the names of the shipping lines, the delivery dates, the names of the destinations, the shipping serial numbers/total serial numbers, the corresponding enclosure label serial numbers and the mapped bar codes or two-dimensional codes or RFID to generate a logistics plan, sending the logistics plan to a logistics dispatcher, adhering the enclosure labels to the outer side of the turnover cabinet for delivery operation or for a receiver to sign for receiving operation, sending each enclosure list one by one and completing the delivery operation after confirmation.
As shown in fig. 8, step G includes: step G1, receiving and/or initiating service request, sending and/or receiving response information; g2, generating a delivery order list according to the logistics demand information and the distribution route planning information; g3, selecting sorting transfer points and distribution lines subordinate to the sorting transfer points one by one according to the principle of from top to bottom, matching the logistics plan with the effective carrier load on the lines, and generating a dispatching plan when the matching of full load or all articles is completed; and G4, issuing the dispatching instructions according to the principle that the load of the carrier is from large to small until all the dispatching instructions obtain confirmed response information.
The implementation of the step G1 may be the same as that of the step B1, receiving logistics requirement information sent by a sorting transit point and a carrier terminal, receiving and verifying sender identity information and registration information before receiving the logistics requirement information, and checking whether it can send the logistics requirement information according to the registered information; the sorting transit points can be verified according to system configuration information, and the carriers need to verify the legality of the bodies and users of the carriers (such as trucks), obtain the types of the carriers, the carrying spaces, the lengths, the widths and the heights of the carriers, associate regional sorting point information and obtain logistics plans of each sorting transit point.
The implementation method of the step G2 may be selecting sorting transit points one by one on a digital map, selecting a distribution route for each sorting transit point one by one, taking the sorting transit point as a starting point, the farthest final point of sale or the associated buyer's receiving address as an end point, selecting a certain receiving address or the final point of sale on the other side of a suitable u-turn road as an end point according to a navigation route, and adding the intermediate final point of sale and other receiving addresses one by one on a routing route according to a route order, so that the navigation route and each route point form a smooth navigation order, or optimizing according to an actual walking route on the basis of the navigation order to generate a delivery order list of the current logistics, and a new delivery order list needs to be generated again when the receiving address changes each time.
The implementation of step G3 may be based on the length, width, and height of the carrier load space with the maximum load available on the distribution line, and set the standards of length, width, and height of the turnover cabinet, so that the carrier space of this type just places a plurality of turnover cabinets, and the turnover cabinet standard is provided for the sorting transfer point; a virtual turnover cabinet can also be arranged for combining order commodities of a customer; the transport package specifications of the seller can be directly used for matching; a minimum carrying rate (e.g. 80%) can be set, and when the carrying rate is not reached, the carrying tool with small load can be replaced; selecting area sorting transfer points one by one according to the principle from top to bottom, selecting a distribution line taking the point as a starting point one by one for each sorting transfer point, taking a virtual turnover cabinet as a scheduling unit for a logistics plan on the distribution line, sorting the virtual turnover cabinets according to the principle that the order of a delivery order is from far to near, selecting a virtual turnover cabinet at the farthest destination as the first loading serial number, generating a loading plan by taking the full load or the lowest carrying rate of the transport appliance as the matching completion, then selecting the next transport appliance, and selecting the transport appliance with smaller load when the carrying rate is lower than the carrying rate so as to improve the full load rate until all the virtual turnover cabinets are matched; the number of the trays which can be carried by the corresponding carrier can be calculated according to the actual volume of the articles in each turnover cabinet loading list; step G4 can generate a scheduling instruction according to each shipping plan, and issue the scheduling instruction, wherein the scheduling instruction comprises a departure place, a delivery route name, a passing unloading point name, a destination name, the current carrying cost, the amount of deposit, the carrying cost and the deposit data, the fixed cost according to the vehicle type, the fixed cost can be calculated according to the carrying load cubic number A, the distance of the carrying distance kilometer B and the unloading times C, and the deposit amount can be calculated according to the carrying load and the type by setting a unit price x unit/cubic meter; if the confirmed information is received, freezing the deposit in the account of the carrier, responding to the information that the order taking of the carrier is successful after the freezing is successful, generating a shipping list, and feeding back a reason prompt (for example, the balance of the account number is insufficient) if the freezing is unsuccessful; if all the carriers with the maximum load are not successfully scheduled, the method feeds back to step G3, the carriers with the second maximum load are replaced to regenerate the shipping plan, then scheduling instructions are sent out until all the scheduling instructions obtain confirmed response information, and the shipping plan confirmed by the carriers is sent to the corresponding sorting transfer points.
As shown in fig. 9, step H includes: step H1, receiving and/or initiating service request, sending and/or receiving response information; step H2, managing and issuing the carrier requirement information of the carrier; step H3, receiving the dispatching command, and sending out acknowledgement information which is confirmed or not confirmed; step H4, signing for the article according to the dispatching instruction; step H5, the item is delivered according to the scheduling instructions.
The implementation of step H1 may be the same as step B1; the implementation manner of step H2 may be to install a carrier APP software, register an account, submit the subject identity information of the carrier, such as the identification document type, number, mobile phone number, mailbox, communication address, and related payment bank card of the carrier owner, and the information of the carrier subject, such as the vehicle license, operation license, load, and space size of the carrier, and the carrying type (e.g., room temperature, refrigeration, freezing, etc.), and further, the driver's license, mobile phone number, etc., and the carrier may also select a sorting transit point as the carrying range; the implementation mode of the step H3 receives a scheduling instruction on an APP or a webpage, wherein the scheduling instruction comprises a departure place, a distribution line name, cost, a guarantee fund limit and the like, whether the instruction is accepted or not is automatically determined, if the instruction is accepted, a confirmation menu is clicked on the APP or the webpage, operation is not performed if the instruction is not accepted, after confirmation, logistics scheduling service starts guarantee fund freezing logic, if the instruction is successfully frozen, the instruction is successfully received, and if the instruction is unsuccessfully frozen, the instruction is changed according to a prompt reason until the instruction is successfully confirmed or abandoned; the step H4 may be implemented by scanning the barcode or two-dimensional code of the shipping plan to obtain the loading information according to the confirmed scheduling instruction to the corresponding sorting transit point, and selecting a confirmation menu on the APP or web page to sign for confirmation after the barcode or two-dimensional code is consistent with the physical verification, and not confirming if the barcode or two-dimensional code is inconsistent with the physical verification until the carrier is fully loaded or the goods in the delivery route are loaded; the step H5 may be implemented by the method that after the carrier arrives at a certain destination, the buyer scans the virtual turnover cabinet label to obtain the information of the commodity in the container, verifies whether the information is consistent with the purchase order information, and then verifies whether the information is consistent with the real object, if so, the buyer selects the confirmation menu on the device to sign, if not, the buyer does not confirm, or confirms the non-purchase order commodity conforming to the seal box label, and the carrier receives the confirmation information and completes the delivery operation of the commodity; or after unloading to the buyer site, the goods are photographed by a shipper and uploaded to the system as sign-in.
The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, combinations, and simplifications are intended to be included in the scope of the present invention.
Claims (8)
1. A distribution route and sales region planning system is characterized by comprising:
the distribution line planner is used for managing and displaying distribution line information;
a final point-of-sale planner for managing and displaying final point-of-sale distribution information;
and the coverage area manager is used for managing and displaying sales and distribution coverage areas of the sales regions.
2. Distribution route planning device, its characterized in that includes:
the sorting transfer point planning module is used for planning and displaying information of the sorting transfer points;
and the distribution line planning module is used for planning and displaying the distribution lines to which the sorting transfer points belong.
3. The distribution line and sales zone planning system of claim 1, wherein the final point-of-sale planner comprises:
a final point-of-sale planning module for planning and managing a final point-of-sale;
a final point of sale display module for displaying a plurality of final point of sale distribution information.
4. The distribution line and sales zone planning system of claim 1, wherein the coverage manager comprises:
the distribution information display module is used for displaying and managing distribution lines and final point-of-sale distribution information;
the zoning coverage area management module is used for managing the association relationship between the distribution lines and the final sales points one by one;
and the final sale range management module is used for managing the association relationship between the final sale point and the receiving address.
5. The distribution line and sales division planning method is characterized by comprising the following steps:
managing and displaying distribution line information;
managing and displaying final point-of-sale distribution information;
sales and distribution coverage is managed and displayed for the sales region.
6. The distribution line planning method is characterized by comprising the following steps:
planning and displaying information of the sorting transfer points;
and planning and displaying distribution lines to which the sorting transfer points belong.
7. The distribution line and sales division planning method of claim 5, wherein said managing and displaying final point-of-sale distribution information comprises the steps of:
planning and managing a final point of sale;
displaying a plurality of final point of sale distribution information.
8. The distribution line and sales block planning method of claim 5, wherein managing and displaying sales and distribution coverage of sales blocks comprises:
managing and displaying distribution lines and final point-of-sale distribution information;
managing the association relationship between the distribution lines and the final point of sale one by one;
and establishing and managing an association relation between the final sale point and the receiving address.
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