CN112184103A - Order processing method, device and system - Google Patents

Abstract

The invention discloses an order processing method, a device and a system, wherein the method comprises the following steps: acquiring an unprocessed order; generating order labels corresponding to the orders according to commodity data contained in the orders; classifying the orders according to the order labels; judging whether each order label meets the processing condition; and when the order label meets the processing condition, all orders corresponding to the order label enter a picking process. The order processing method, the order processing device and the order processing system mark the order by using the order label and classify the order according to the order label, and can combine similar orders into one batch for processing, so that the order processing efficiency can be greatly improved, the complexity of order processing is reduced, and the error rate is reduced.

Description

Order processing method, device and system

Technical Field

The invention relates to the technical field of storage, in particular to an order processing method, device and system.

Background

For the brand cabin, the business characteristics are as follows:

1. the number of commodities is small, the total number of commodity types does not exceed 10,000, and the commodity types in the sale state do not exceed 1,000, even about 600.

2. During the period of promotion, the number of orders can be very large, and the number of commodity types in each order is about 3-4 on average.

In such a case, a number of order groups may be generated, each group having orders that require the same type of goods in close proximity or even completely coincident order groups. At present, the same order can be changed into a batch by the prior art, but the method has two limitations, namely, the number of the commodities must be 1, and the number of the orders must be equal to a box gauge (namely, the number of packages in each box), so that only a small part of problems are solved, for the orders with the quantity of the commodities being not 1, due to the uncertainty of the commodity type and the quantity of the commodities in the orders, the orders can only be processed independently, and the method for processing the orders is low in efficiency, complex in work and high in error rate.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the prior art, the invention provides an order processing method, device and system with high efficiency and low error rate.

The technical scheme is as follows: to achieve the above object, an order processing method according to the present invention includes:

acquiring an unprocessed order;

generating order labels corresponding to the orders according to commodity data contained in the orders;

classifying the orders according to the order labels;

judging whether each order label meets the processing condition;

and when the order label meets the processing condition, all orders corresponding to the order label enter a picking process.

Further, each item has a unique identification code, and generating an order label corresponding to each order according to item data included in each order includes:

acquiring identification codes of all commodities in the order;

sequencing all the acquired identification codes;

and splicing all the sequenced identification codes in sequence to obtain the order label.

Further, the obtaining the order label by sequentially splicing all the sorted identification codes includes:

and arranging all the sequenced identification codes in sequence, and inserting a separator between every two adjacent identification codes to obtain the order label.

Further, after classifying the order according to the order label, the method further includes:

sequencing all the order labels according to the number of orders corresponding to each order label or the total number of all commodities in all the orders corresponding to the order labels;

and sequencing all orders corresponding to the same order label according to the sum of the quantity of the commodities contained in the orders.

Further, the step of judging whether each order label meets the processing condition comprises one or more of the following steps:

judging whether the number of the orders corresponding to the order labels is larger than or equal to a first set value or not;

judging whether the total number of commodities contained in all orders corresponding to the order labels is larger than or equal to a second set value or not;

and judging whether the number of the commodity types contained in the order label is less than or equal to a third set value.

Further, before or after generating the order label corresponding to each order according to the commodity data included in each order, the method further includes:

and sequencing all the orders according to the latest delivery time.

Further, the picking process comprises:

outputting all orders corresponding to the order labels meeting the processing conditions;

counting a commodity detail list corresponding to the current order label, wherein the commodity detail list comprises all types of commodities included in the order label and the total number of all types of commodities in all orders corresponding to the order label;

and sorting all the commodities according to the commodity detail list to obtain all the commodities corresponding to the order labels.

Further, a packaging process is further included after the picking process, and the packaging process includes:

sorting various commodities with corresponding quantity from all commodities corresponding to the order labels according to the commodity data of each order and filling the commodities into a packaging container.

An order processing apparatus, comprising:

the order acquisition module is used for acquiring unprocessed orders;

the label generating module is used for generating order labels corresponding to the orders according to the commodity data contained in the orders;

the classification module is used for classifying the orders according to the order labels;

the judging module is used for judging whether each order label meets the processing condition;

and the processing module is used for enabling all orders corresponding to the order labels to enter a picking process when the order labels meet processing conditions.

An order processing system comprises a memory and a controller, wherein the memory stores an executable program, and the controller can run the executable program to realize the order processing method.

Has the advantages that: the order processing method, the order processing device and the order processing system mark the order by using the order label and classify the order according to the order label, and can combine similar orders into one batch for processing, so that the order processing efficiency can be greatly improved, the complexity of order processing is reduced, and the error rate is reduced.

Drawings

FIG. 1 is a schematic diagram showing the configuration of an order processing system;

FIG. 2 is a schematic flow chart of an order processing method;

fig. 3 is a schematic block diagram of an order processing apparatus.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Example one

The order processing method of the present invention is applied to an order processing system 100, as shown in fig. 1, the order processing system 100 at least includes a memory 101 and a controller 102, in an embodiment of the present invention, the memory 101 and the controller 102 may be connected by a bus or by other means, where fig. 1 illustrates the connection by the bus. An executable program is stored in the memory 101, and the controller 102 can run the executable program to implement an order processing method as shown in fig. 2, where the order processing method includes the following steps S201 to S205, and the following steps are executed by the controller 102:

step S201, obtaining unprocessed orders;

in this step, taking the e-commerce platform as an example, unprocessed orders are generally generated by clients through clients, and after receiving the orders, the e-commerce platform sends the orders to an order processing system for processing, and a controller of the order processing system.

Step S202, generating order labels corresponding to the orders according to commodity data contained in the orders;

in this step, the order labels are generated according to all the types of the items in the order, and since the types of the items contained in different orders may be the same (the number of specific items is not necessarily the same), the order labels generated by the controller 102 for different orders may be the same.

Step S203, classifying the orders according to the order labels;

in this step, orders with the same order label are classified into one category.

Step S204, judging whether each order label meets the processing condition;

step S205, when the order label meets the processing condition, all orders corresponding to the order label enter the picking process.

Preferably, each item has a unique identification code, where the identification code is preferably a code of the item itself, and based on this, the step S202 of generating an order label corresponding to each order according to the item data included in each order includes the following steps S301 to S303:

step S301, acquiring identification codes of all commodities in the order;

step S302, sequencing all the obtained identification codes;

in this step, the sorting mode may be an ascending mode or a descending mode, and in this embodiment, the sorting is performed according to the ascending mode.

And step S303, splicing all the sequenced identification codes in sequence to obtain the order label.

In this step, the specific method for obtaining the order label is as follows: and arranging all the sorted identification codes in sequence, and inserting a separator (such as "- - & - -) between every two adjacent identification codes to obtain the order label. In this way, an order label can be generated, and the order label can be reversely analyzed to find the unique identification code of the commodity corresponding to the order label.

Preferably, after the step S202 of classifying the order according to the order label, the method further includes the following steps S401 to S402:

step S401, sequencing all the order labels according to the number of the orders corresponding to each order label or the total number of all the commodities in all the orders corresponding to the order labels;

in this step, the sorting mode is preferably a descending sorting mode from large to small.

Step S402, sorting all orders corresponding to the same order label according to the total number of the commodities included in the order.

In this step, the sorting mode is preferably a descending sorting mode from large to small.

After the processing of the above steps S401 to S402, a data structure can be obtained: the first level of the data structure is the order label, ordered from large to small in the number of corresponding orders it owns, and it is clear that this method focuses on the fulfillment speed of the orders. Alternatively, the items may be sorted from large to small according to their total number of items they own, which focuses on the picking speed. The second layer of the data structure is an order list corresponding to each order label, and the order lists are arranged in descending order according to the total number of the commodities in each order from large to small.

Through the steps S401 to S402, order labels can be managed conveniently in the following process, and if the order labels are required to be screened according to the number of orders corresponding to the order labels or the total number of commodities included in all orders of the same order label (as in the process of S501 to S503), due to the arrangement, when screening is performed from front to back, if it is determined that a certain order label does not meet the processing condition, all order labels behind the order label do not meet the processing condition, so that the determination process of the order labels which obviously do not meet the condition in the following process can be omitted, and the screening efficiency can be improved.

Preferably, the step S204 of determining whether each of the order labels satisfies the processing condition includes the following steps S501 to S503:

step S501, judging whether the number of the orders corresponding to the order labels is larger than or equal to a first set value or not;

in this step, if the determination result is yes, it represents that the condition is satisfied, and if the determination result is no, it indicates that the number of the orders corresponding to the order label is too small, and it is not worth performing batch processing.

Step S502, judging whether the total number of commodities contained in all orders corresponding to the order labels is larger than or equal to a second set value;

in this step, if the determination result is yes, it means that the condition is satisfied, and if the determination result is no, it indicates that the total number of the commodities is too small, and it is not worth batch processing.

Step S503 is executed to determine whether the number of the product types included in the order label is less than or equal to a third setting value.

In this step, if the determination result is yes, it means that the condition is satisfied, and if the determination result is no, it means that the category of the commodity is too large, and if the batch processing is performed, the efficiency of picking and packaging may be damaged.

For the order label with the negative determination result in any of the above steps S501-S503, the controller 102 may directly discard the order label, and the corresponding order returns to the order pool of the unprocessed order, and when the unprocessed orders with the same order label are accumulated to a certain number, the order label will meet the processing condition and be selected by the controller 102, and the orders corresponding to the order label will enter the picking process together.

In addition, the order labels that do not satisfy steps S501 and S502 may be combined with other order labels, and preferably, the order labels that do not satisfy steps S501 and S502 may be combined with other order labels that satisfy the other conditions and include all the commodity types of the order labels that do not satisfy the conditions, that is, the set of all the commodity types in the order labels that do not satisfy the conditions is a subset of the set of all the commodity types in the order labels that satisfy the conditions.

Preferably, before or after the step S202 of generating the order label corresponding to each order according to the product data included in each order, the method further includes the following step S601:

step S601, sequencing all the orders according to the latest delivery time;

in this step, during the promotion period like twenty-one or twenty-two, there are a large number of orders, the latest delivery time is the same, and is often the last day of the promotion period, and the delivery of the order is not required for that day, which is helpful to improve the optimization effect of the algorithm, and the controller 102 can collect and process the orders with the same latest delivery time according to the latest delivery time.

Preferably, the picking procedure in step S205 includes the following steps S701-S703:

step S701, outputting all orders corresponding to the order labels meeting the processing conditions;

in this step, the object of order data output may be an inferior system (e.g., an automatic sorting system) or a picking employee. If the output object is a picking staff, the order data output mode is as follows: and printing all orders corresponding to each order label by a printer to form a surface sheet, wherein the surface sheet can list the types and the quantity of the commodities.

Step S702, counting a commodity detail list corresponding to the current order label, wherein the commodity detail list comprises all types of commodities included in the order label and the total number of all types of commodities in all orders corresponding to the order label;

and step S703, sorting all the commodities according to the commodity detail list to obtain all the commodities corresponding to the order labels.

This step may be performed by the controller 102 controlling the subordinate system, or may be performed manually by a picker. Because the types of the commodities are less and the picking number of each commodity is larger, all the commodities of all orders corresponding to the same order label are accumulated and sorted together, and the picking efficiency can be greatly accelerated.

Preferably, the picking procedure is followed by a packing procedure, and the packing procedure comprises the following steps S801-S802:

step S801, sorting the various commodities with the corresponding quantity from all the commodities corresponding to the order labels according to the commodity data of each order, and loading the sorted commodities into a packaging container.

In this step, the form of the packaging container may be a packaging box, a packaging bag, or the like.

Step S802, a surface sheet corresponding to the order is pasted on the packaging container.

The above steps S801-S802 may be performed by the controller 102 controlling the subordinate system, or may be performed manually by a picker.

Example two

The present invention also provides an order processing apparatus 900, as shown in fig. 3, which is a schematic diagram of program modules of the order processing apparatus 900, in this embodiment, the order processing apparatus 900 may include or be divided into one or more program modules, and the one or more program modules are stored in a storage medium and executed by one or more processors to complete the present invention, and implement the order processing method. The program module referred to in the embodiments of the present invention refers to a series of computer program instruction segments capable of performing specific functions, and is more suitable for describing the execution process of the order processing method in the storage medium than the program itself. The following description will specifically describe the functions of the program modules of the present embodiment:

an order obtaining module 901, configured to take an unprocessed order;

a label generating module 902, configured to generate an order label corresponding to each order according to the commodity data included in each order;

a sorting module 903, configured to sort the orders according to the order labels;

a judging module 904, configured to judge whether each of the order labels meets a processing condition;

and the processing module 905 is configured to enable all orders corresponding to the order label to enter a picking process when the order label meets the processing condition.

The flow of implementing the order processing method based on the order processing apparatus 900 is described in detail in the first embodiment, and is not described herein again.

The order processing method, the order processing device and the order processing system mark the order by using the order label and classify the order according to the order label, and can combine similar orders into one batch for processing, so that the order processing efficiency can be greatly improved, the complexity of order processing is reduced, and the error rate is reduced.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.

Claims (10)

1. An order processing method, comprising:

acquiring an unprocessed order;

generating order labels corresponding to the orders according to commodity data contained in the orders;

classifying the orders according to the order labels;

judging whether each order label meets the processing condition;

and when the order label meets the processing condition, all orders corresponding to the order label enter a picking process.

2. The order processing method according to claim 1, wherein each item has a unique identification code, and the generating an order label corresponding to each order from item data included in each order comprises:

acquiring identification codes of all commodities in the order;

sequencing all the acquired identification codes;

and splicing all the sequenced identification codes in sequence to obtain the order label.

3. The order processing method according to claim 2, wherein the splicing the sorted identification codes in sequence to obtain the order label comprises:

and arranging all the sequenced identification codes in sequence, and inserting a separator between every two adjacent identification codes to obtain the order label.

4. The order processing method of claim 1, wherein after classifying the order according to the order label further comprises:

sequencing all the order labels according to the number of orders corresponding to each order label or the total number of all commodities in all the orders corresponding to the order labels;

and sequencing all orders corresponding to the same order label according to the sum of the quantity of the commodities contained in the orders.

5. The order processing method according to claim 1, wherein determining whether each of the order labels satisfies a processing condition includes one or more of:

judging whether the number of the orders corresponding to the order labels is larger than or equal to a first set value or not;

judging whether the total number of commodities contained in all orders corresponding to the order labels is larger than or equal to a second set value or not;

and judging whether the number of the commodity types contained in the order label is less than or equal to a third set value.

6. The order processing method according to claim 1, wherein before or after generating the order label corresponding to each order according to the product data included in each order, the method further comprises:

and sequencing all the orders according to the latest delivery time.

7. The order processing method of claim 1, wherein the picking process comprises:

outputting all orders corresponding to the order labels meeting the processing conditions;

counting a commodity detail list corresponding to the current order label, wherein the commodity detail list comprises all types of commodities included in the order label and the total number of all types of commodities in all orders corresponding to the order label;

and sorting all the commodities according to the commodity detail list to obtain all the commodities corresponding to the order labels.

8. The order processing method of claim 7, further comprising a packaging process following the picking process, the packaging process comprising:

sorting various commodities with corresponding quantity from all commodities corresponding to the order labels according to the commodity data of each order and filling the commodities into a packaging container.

9. An order processing apparatus, comprising:

the order acquisition module is used for acquiring unprocessed orders;

the label generating module is used for generating order labels corresponding to the orders according to the commodity data contained in the orders;

the classification module is used for classifying the orders according to the order labels;

the judging module is used for judging whether each order label meets the processing condition;

and the processing module is used for enabling all orders corresponding to the order labels to enter a picking process when the order labels meet processing conditions.

10. An order processing system comprising a memory having an executable program stored therein and a controller operable to execute the executable program to implement the order processing method of any one of claims 1 to 8.

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