CN113962627A - Block chain-based order processing method and platform for cross-border e-commerce - Google Patents
Block chain-based order processing method and platform for cross-border e-commerce Download PDFInfo
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Abstract
The invention provides a block chain-based order processing method for cross-border e-commerce, which comprises the following steps: the API captures orders in a preset mode; judging whether order combination is needed or not according to the order information, if so, combining the orders and turning to the next step, and if not, directly turning to the next step; judging whether a gift exists, if so, combining the gift with the issued commodity, and turning to the next step, otherwise, directly turning to the next step; judging whether the warehouse has goods or not; if yes, entering a warehouse processing flow; if not, entering a purchasing processing flow; after entering a warehouse processing flow, reading a logistics list number from a logistics warehouse, and automatically matching a list number printing list; generating a quick pairing code according to the surface list; and (4) taking the commodities out of the warehouse and inquiring logistics information through the API. The invention also provides an order processing platform of the cross-border e-commerce based on the block chain, overcomes the defects of the cross-border e-commerce in the aspect of order processing in the prior art, and further improves the efficiency and the accuracy of order processing.
Description
Technical Field
The invention relates to the field of cross-border e-commerce, in particular to an order processing method and platform of a block chain-based cross-border e-commerce.
Background
The global development brings a large number of overseas shopping conditions, cross-border e-commerce logistics are generated, global commodity transactions can be carried out on the same platform, and great convenience is brought to both buyers and sellers. With the rapid development of the blockchain technology in these years, more and more industries begin to apply the characteristics of decentralization, traceability and non-falsification of the blockchain to their own fields, and how to combine the blockchain with the e-commerce industry is also a problem that needs to be solved urgently.
Due to the wide application range of cross-border e-commerce, the cross-border e-commerce system can involve many countries and regions in the world, and needs to participate in real-time communication and data transmission of merchants and customers of an e-commerce platform; in order processing of cross-border e-commerce commodities, further improvement is needed, so that the efficiency and accuracy of order processing are improved.
Disclosure of Invention
In order to solve the technical problems, the invention provides an order processing method and a platform of a cross-border e-commerce based on a block chain, aiming at overcoming the defects of the cross-border e-commerce in the prior art in order processing and further improving the efficiency and the accuracy of order processing.
In order to achieve the above object, the present invention provides an order processing method for a block chain-based cross-border e-commerce, comprising the following steps:
the API captures orders in a preset mode;
judging whether order combination is needed or not according to the order information, if so, combining the orders and turning to the next step, and if not, directly turning to the next step;
judging whether a gift exists, if so, combining the gift with the issued commodity, and turning to the next step, otherwise, directly turning to the next step;
judging whether the warehouse has goods or not; if yes, entering a warehouse processing flow; if not, entering a purchasing processing flow;
after entering a warehouse processing flow, reading a logistics list number from a logistics warehouse, and automatically matching a list number printing list;
generating a speed-matching code according to the surface list;
and (4) taking the commodities out of the warehouse and inquiring logistics information through the API.
Preferably, the warehouse entry processing flow includes: and judging to enter a domestic warehouse or a foreign warehouse according to the strategy.
Preferably, after entering the domestic warehouse, the commodities are transferred to the foreign warehouse after being delivered out of the warehouse to read the logistics order number.
Preferably, the reading of the logistics list number from the logistics repository further comprises:
judging whether the commodity is put on shelf or not; if so, putting the commodity off shelf and entering a flow of reading a logistics list number from a logistics warehouse; if not, directly entering a flow of reading the logistics list number from the logistics library.
Preferably, the order processing method for the block chain-based cross-border e-commerce further comprises the following steps: if no single number of stream exists, the speed-pair code is directly generated.
Preferably, the grasping manner includes: automatic, manual, or timed.
Preferably, the order information includes: recipient address, name, phone.
Preferably, the speed-matching code comprises: number of boxes of goods, delivery date, order information, and domestic logistics information.
Preferably, the purchasing process includes the following steps:
selecting a commodity; selecting a SKU; filling in the purchase quantity; generating a commodity bar code; judging whether the commodity is put on shelf or not; if so, putting the commodity off shelf and transferring to the next step, and if not, directly transferring to the next step; calling the commodity; generating a quick pairing code; warehousing and checking; and (5) putting the purchased commodities on shelves.
In order to achieve the above object, the present invention further provides an order processing platform for a block chain-based cross-border e-commerce, comprising: the order grabbing module is used for grabbing orders in a preset mode; the control module is used for judging whether order combination is needed or not according to the order information, and if so, controlling the order combination; the system is also used for judging whether a gift exists or not, and if so, controlling to combine the gift with the order-placing commodity; and is used for judging whether the warehouse has goods; the logistics reading module is used for entering a warehouse processing flow when the control module judges that the warehouse has goods, reading a logistics list number from the logistics warehouse and automatically matching the list number to print a bill; the purchasing module is used for entering a purchasing processing flow when the control module judges that the warehouse has no goods; the generating module is used for generating a speed-pair code according to the surface list; and the logistics inquiry module is used for inquiring the logistics information through the API after the commodities are delivered from the warehouse.
Preferably, the warehouse entry processing flow includes: and judging to enter a domestic warehouse or a foreign warehouse according to the strategy.
Preferably, after entering the domestic warehouse, the commodities are transferred to the foreign warehouse after being delivered out of the warehouse to read the logistics order number.
Preferably, the control module is further configured to determine whether the commodity is put on shelf before the logistics reading module reads the logistics single number from the logistics repository; if yes, the commodity is placed on shelf and then enters a flow of reading the logistics list number from the logistics warehouse.
Preferably, the generating module is further configured to directly generate the quick pairing code when the logistics reading module does not read the logistics single number.
Preferably, the grasping manner includes: automatic, manual, or timed.
Preferably, the order information includes: recipient address, name, phone.
Preferably, the speed-matching code comprises: number of boxes of goods, delivery date, order information, and domestic logistics information.
Preferably, the purchasing module comprises:
a selection unit for selecting a commodity and selecting a SKU; a filling unit for filling in the purchase quantity; the generating unit is used for generating a commodity bar code and a quick check code; the judging unit is used for judging whether the commodity is put on the shelf or not; the execution unit is used for putting the commodities off the shelves when the commodities are judged to be on the shelves; the transfer unit is used for transferring commodities; a collation unit for warehousing and collation of the commodity; and the shelving unit is used for shelving the purchased commodities.
The invention has the beneficial effects that: the method overcomes the defects of cross-border e-commerce in order processing in the prior art, and further improves the efficiency and accuracy of order processing.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
FIG. 1 is a schematic flowchart of an order processing method for a block chain-based cross-border e-commerce according to the present invention;
FIG. 2 is a purchasing flow chart in an order processing method for a block chain-based cross-border e-commerce according to the present invention;
FIG. 3 is a general detailed flowchart of an order processing method for a block chain-based cross-border e-commerce according to the present invention;
FIG. 4 is a block diagram of an order processing platform of a block chain-based cross-border e-commerce according to the present invention;
fig. 5 is a block diagram of sub-units of a purchasing module in an order processing platform of a cross-border e-commerce based on a block chain according to the present invention.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and embodiments, it being understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention. The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.
The invention provides an order processing method of a cross-border e-commerce based on a block chain. Referring to fig. 1, the order processing method for the block chain-based cross-border e-commerce comprises the following steps:
the API captures orders through a preset mode.
In this step, the API is an application program interface, which belongs to the public technology and is not described in detail herein. Wherein the preset mode includes but is not limited to: automatic, manual, or timed. When the order is captured at a fixed time, the fixed time is required to be preset.
And judging whether order combination is needed or not according to the order information, if so, combining the orders and turning to the next step, and if not, directly turning to the next step.
In this step, the order information includes, but is not limited to: recipient address, name, phone. For example: if the names and/or addresses of the recipients are consistent in the currently grabbed order, combining the currently grabbed order; if the condition does not exist, judging that the order needing to be merged does not exist.
And judging whether a gift exists, if so, combining the gift and the order placing commodity, and turning to the next step, otherwise, directly turning to the next step.
In the step, whether the current order commodity has a gift attached condition is judged, if yes, the gift and the order-placing commodity are combined; if the situation does not exist, the judgment result is that no gift needing to be merged exists.
Judging whether the warehouse has goods or not; if yes, entering a warehouse processing flow; if not, entering a purchasing processing flow.
In this step, when the warehouse is judged to have goods, a warehouse processing flow is performed, wherein the warehouse processing flow includes entering a domestic warehouse or a foreign warehouse, and entering the domestic warehouse or the foreign warehouse is judged according to a policy, wherein the policy specifically comprises: the logistics warehouse has a set sequencing order according to whether the goods in the order are in domestic or foreign warehouses.
When entering the processing flow of the domestic warehouse or the foreign warehouse, firstly judging whether the commodity is put on shelf or not; if so, putting the commodity off shelf and entering a flow of reading a logistics list number from a logistics warehouse; if not, directly entering a flow of reading the logistics list number from the logistics library. After reading the logistics list number from the logistics library, the API system automatically matches the list number and prints the list; if the bill is printed, the printing state is changed to 'printed'. If no single number of stream exists, the speed-pair code is directly generated.
And generating a speed-pair code according to the surface list.
In this step, the quick code includes but is not limited to: number of boxes of goods, delivery date, order information, and domestic logistics information. The quick check code can be generated manually or printed automatically, and whether a bar code of the quick check code is generated or not can be further selected.
And (4) taking the commodities out of the warehouse and inquiring logistics information through the API.
If the commodity is delivered from the domestic warehouse, the commodity cannot look up new logistics information at present and needs to be transferred to a foreign warehouse; and further executing the racking judgment process, the logistics list number reading process, the surface list printing process, the quick code matching generation process and the like of the foreign warehouse, and then delivering the goods from the foreign warehouse. After the commodity is delivered from the warehouse, the user can inquire the logistics information through scanning the code at a high speed, if the commodity is printed with the receipt, the user pops up a reminding frame when scanning the code to remind the user whether to print the receipt, and the printing state of the receipt is changed according to the actual selection condition of the user. After logistics information is input to the platform through the API, goods can be automatically delivered in happy days, Yahu can be set to be automatic or manual, and API operation is not needed.
And if no goods exist in the warehouse, entering a commodity purchasing process. Wherein, the purchasing process comprises the following steps, see fig. 2:
selecting a commodity; selecting a SKU; filling in the purchase quantity; generating a commodity bar code; judging whether the commodity is put on shelf or not; if so, putting the commodity off shelf and transferring to the next step, and if not, directly transferring to the next step; calling the commodity; generating a quick pairing code; warehousing and checking; and (5) putting the purchased commodities on shelves. Wherein the commodity barcode includes: and the corresponding product SKU information and the customer information (name, address, telephone and the like) can be checked through code scanning. By the mode, the goods in short of stock can be purchased in time and put on shelves in the domestic warehouse.
However, some abnormal situations may occur in the purchasing process and need to be handled, for example: due to commodity outage, short backorders, and defective goods. When an abnormal condition occurs and needs to be handled, it is specifically referred to fig. 3. If the purchase fails due to commodity production stoppage, the event enters an abnormal part list; if the purchasing fails due to transient shortage, returning to execute the purchasing process again; if the purchasing is failed due to the commodity defects, the defective products are changed preferentially, the purchasing process is returned to be executed again, and if force-inefficacy factors exist, the purchasing is paid again and recorded in the financial loss.
In order to achieve the above object, the present invention further provides an order processing platform for a block chain-based cross-border e-commerce, comprising: the order grabbing module is used for grabbing orders in a preset mode; the control module is used for judging whether order combination is needed or not according to the order information, and if so, controlling the order combination; the system is also used for judging whether a gift exists or not, and if so, controlling to combine the gift with the order-placing commodity; and is used for judging whether the warehouse has goods; the logistics reading module is used for entering a warehouse processing flow when the control module judges that the warehouse has goods, reading a logistics list number from the logistics warehouse and automatically matching the list number to print a bill; the purchasing module is used for entering a purchasing processing flow when the control module judges that the warehouse has no goods; the generating module is used for generating a speed-pair code according to the surface list; and the logistics inquiry module is used for inquiring the logistics information through the API after the commodities are delivered from the warehouse.
In this embodiment, the API is an application program interface, which belongs to the public technology and is not described in detail herein. Wherein the preset mode includes but is not limited to: automatic, manual, or timed. When the order is captured at a fixed time, the fixed time is required to be preset.
In this embodiment, the order information includes, but is not limited to: recipient address, name, phone. For example: if the names and/or addresses of the recipients are consistent in the currently grabbed order, the control module merges the currently grabbed order; if the condition does not exist, the judgment result of the control module is that no order needing to be combined exists. The control module is also used for further judging whether the current order commodity has a gift attached condition, if so, the gift is combined with the order-placing commodity; if the situation does not exist, the judgment result of the control module is that no gift needing to be merged exists.
In this embodiment, when the control module determines that the warehouse has a good, the warehouse processing flow is performed, where the warehouse processing flow includes entering a domestic warehouse or a foreign warehouse, and entering the domestic warehouse or the foreign warehouse is determined according to a policy, where the policy specifically is: the logistics warehouse has a set sequencing order according to whether the goods in the order are in domestic or foreign warehouses.
When entering the processing flow of the domestic warehouse or the foreign warehouse, firstly judging whether the commodity is put on shelf or not; if so, putting the commodity off shelf and entering a flow of reading a logistics list number from a logistics warehouse; if not, directly entering a flow of reading the logistics list number from the logistics library. After the logistics reading module finishes reading the logistics list number from the logistics library, the API system automatically matches the list number and prints the list; if the bill is printed, the printing state is changed to 'printed'. And if the single number of the stream does not exist, the generation module directly generates the speed-matching code.
In this embodiment, the quick code includes, but is not limited to: number of boxes of goods, delivery date, order information, and domestic logistics information. The quick check code can be generated manually or printed automatically, and whether a bar code of the quick check code is generated or not can be further selected.
If the commodity is delivered from the domestic warehouse, the commodity cannot look up new logistics information at present and needs to be transferred to a foreign warehouse; and further executing the racking judgment process, the logistics list number reading process, the surface list printing process, the quick code matching generation process and the like of the foreign warehouse, and then delivering the goods from the foreign warehouse. After the commodity is delivered from the warehouse, the user can inquire the logistics information through the logistics inquiry module, if the commodity is printed with the receipt, the user pops up a reminding frame when scanning the code to remind the user whether to print the receipt, and the printing state of the receipt is changed according to the actual selection condition of the user. After logistics information is input to the platform through the API, goods can be automatically delivered in happy days, Yahu can be set to be automatic or manual, and API operation is not needed.
And if the control module judges that no goods exist in the warehouse currently, entering a commodity purchasing process of a purchasing module. Wherein, the purchase module includes: a selection unit for selecting a commodity and selecting a SKU; a filling unit for filling in the purchase quantity; the generating unit is used for generating a commodity bar code and a quick check code; the judging unit is used for judging whether the commodity is put on the shelf or not; the execution unit is used for putting the commodities off the shelves when the commodities are judged to be on the shelves; the transfer unit is used for transferring commodities; a collation unit for warehousing and collation of the commodity; and the shelving unit is used for shelving the purchased commodities. Wherein the commodity barcode includes: and the corresponding product SKU information and the customer information (name, address, telephone and the like) can be checked through code scanning. Through the purchase module, can in time purchase the short of supply commodity to put in storage in the warehouse and put on shelf in domestic.
However, some abnormal situations may occur in the purchasing process and need to be handled, for example: due to commodity outage, short backorders, and defective goods. If the purchase fails due to commodity production stoppage, the event enters an abnormal part list; if the purchasing fails due to transient shortage, returning to the selection unit again to execute the action of selecting the commodity; if the purchasing is failed due to the commodity defect, the defective commodity is changed preferentially, and returns to the re-returning selection unit to execute the action of selecting the commodity, if the force-ineffectiveness factor exists, the purchasing is paid again, and the financial loss is recorded.
The foregoing is considered as illustrative of the preferred embodiments of the invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.
Claims (10)
1. A block chain-based order processing method for cross-border e-commerce is characterized by comprising the following steps:
the API captures orders in a preset mode;
judging whether order combination is needed or not according to the order information, if so, combining the orders and turning to the next step, and if not, directly turning to the next step;
judging whether a gift exists, if so, combining the gift with the issued commodity, and turning to the next step, otherwise, directly turning to the next step;
judging whether the warehouse has goods or not; if yes, entering a warehouse processing flow; if not, entering a purchasing processing flow;
after entering a warehouse processing flow, reading a logistics list number from a logistics warehouse, and automatically matching a list number printing list;
generating a speed-matching code according to the surface list;
and (4) taking the commodities out of the warehouse and inquiring logistics information through the API.
2. The method of claim 1, wherein the entering a warehouse process flow comprises: and judging to enter a domestic warehouse or a foreign warehouse according to the strategy.
3. The block chain based cross-border e-commerce order processing method as claimed in claim 2, wherein the step of reading the logistics order number is performed after the commodity is delivered from the warehouse after entering the domestic warehouse and the commodity is delivered to the foreign warehouse.
4. The order processing method for block chain based cross-border e-commerce according to claim 1, wherein before reading the logistics order number from the logistics repository, the method further comprises:
judging whether the commodity is put on shelf or not; if so, putting the commodity off shelf and entering a flow of reading a logistics list number from a logistics warehouse; if not, directly entering a flow of reading the logistics list number from the logistics library.
5. The block chain based cross-border e-commerce order processing method of claim 1, further comprising the steps of: if no single number of stream exists, the speed-pair code is directly generated.
6. The block chain based cross-border e-commerce order processing method according to claim 1, wherein the capturing manner comprises: automatic, manual, or timed.
7. The method of claim 1, wherein the order information comprises: recipient address, name, phone.
8. The block chain based cross-border e-commerce order processing method of claim 1, wherein the speed-pair code comprises: number of boxes of goods, delivery date, order information, and domestic logistics information.
9. The method for processing an order of a block chain based cross-border e-commerce according to any one of claims 1 to 8, wherein the purchasing process comprises the following steps:
selecting a commodity; selecting a SKU; filling in the purchase quantity; generating a commodity bar code; judging whether the commodity is put on shelf or not; if so, putting the commodity off shelf and transferring to the next step, and if not, directly transferring to the next step; calling the commodity; generating a quick pairing code; warehousing and checking; and (5) putting the purchased commodities on shelves.
10. An order processing platform of a block chain-based cross-border e-commerce, comprising: the order grabbing module is used for grabbing orders in a preset mode; the control module is used for judging whether order combination is needed or not according to the order information, and if so, controlling the order combination; the system is also used for judging whether a gift exists or not, and if so, controlling to combine the gift with the order-placing commodity; and is used for judging whether the warehouse has goods; the logistics reading module is used for entering a warehouse processing flow when the control module judges that the warehouse has goods, reading a logistics list number from the logistics warehouse and automatically matching the list number to print a bill; the purchasing module is used for entering a purchasing processing flow when the control module judges that the warehouse has no goods; the generating module is used for generating a speed-pair code according to the surface list; and the logistics inquiry module is used for inquiring the logistics information through the API after the commodities are delivered from the warehouse.
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