CN112435086A - E-commerce multi-item order sorting method and device - Google Patents

Abstract

The invention discloses a method and a device for sorting e-commerce multi-item orders. The E-commerce multi-item order sorting method comprises the following steps: acquiring an E-commerce multi-item order, combining a plurality of E-commerce multi-item orders according to a predefined order combination strategy, and generating a plurality of sowing wave order forms; after each sowing wave order is sorted, combining a plurality of sowing wave orders according to the order combining strategy to generate a plurality of sorting wave orders; distributing a bin to each sorting wave order, and putting the goods in each sorting wave order into the corresponding bin through automatic sorting equipment. The invention can automatically sort the E-commerce multi-item orders and improve the sorting efficiency of the E-commerce multi-item orders.

Description

E-commerce multi-item order sorting method and device

Technical Field

The invention relates to the technical field of intelligent logistics, in particular to a method and a device for sorting e-commerce multi-item orders.

Background

In recent years, with the rapid development of the e-commerce industry, more and more orders are sold through e-commerce channels. The e-commerce orders are generally divided into single-item orders and multi-item orders, and due to the fact that the multi-item orders involve a large number of skus, when the multi-item orders are delivered, the e-commerce logistics companies often need to arrange a large number of people to pick up the items of each multi-item order from thousands of items. The traditional manual sorting operation mode has low efficiency and high error rate, so that the current sorting requirement of the multi-item orders is difficult to meet, and the delivery speed of the multi-item orders is influenced, so that a method for sorting the E-commerce multi-item orders needs to be researched, and the sorting efficiency of the E-commerce multi-item orders is improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the method and the device for sorting the E-commerce multi-item orders, which can automatically sort the E-commerce multi-item orders and improve the sorting efficiency of the E-commerce multi-item orders.

In order to solve the above technical problem, an embodiment of the present invention provides an e-commerce multi-item order sorting method, including:

acquiring an E-commerce multi-item order, combining a plurality of E-commerce multi-item orders according to a predefined order combination strategy, and generating a plurality of sowing wave order forms;

after each sowing wave order is sorted, combining a plurality of sowing wave orders according to the order combining strategy to generate a plurality of sorting wave orders;

distributing a bin to each sorting wave order, and putting the goods in each sorting wave order into the corresponding bin through automatic sorting equipment.

Further, the acquiring of the e-commerce multi-item order, and merging the e-commerce multi-item order according to a predefined order merging strategy to generate a plurality of sowing wave order specifically includes:

receiving or creating the E-commerce multi-item order through a warehouse management system, merging a plurality of E-commerce multi-item orders according to the order merging strategy, and generating a plurality of sowing wave order forms; wherein the total number of the seeding wave orders does not exceed the total number of the grids.

Further, after each of the seeding order orders is sorted, merging a plurality of the seeding order orders according to the order merging strategy to generate a plurality of sorting order orders, specifically:

after each sowing wave order is sorted, the plurality of sowing wave orders are led into an intelligent sorting system through a warehouse management system, so that the intelligent sorting system merges the plurality of sowing wave orders according to the order merging strategy to generate the plurality of sorting wave orders.

Further, the enabling the intelligent sorting system to merge a plurality of the sowing order according to the order merging strategy to generate a plurality of the sorting order, specifically:

and the intelligent sorting system checks the plurality of seeding wave order orders, and merges the plurality of seeding wave order according to the order merging strategy when the plurality of seeding wave order passes the check to generate a plurality of sorting wave order.

Further, the step of putting the goods in each sorting order into the corresponding bin through the automatic sorting equipment specifically includes:

scanning goods in the sorting wave order through an intelligent sorting system, and driving automatic sorting equipment to put the goods into correspondence when the goods scanning is successful.

In a second aspect, an embodiment of the present invention provides an e-commerce multi-item order sorting apparatus, including:

the electronic commerce multi-item order generation module is used for acquiring an electronic commerce multi-item order, combining a plurality of electronic commerce multi-item orders according to a predefined order combination strategy and generating a plurality of seeding wave order;

a sorting wave order generating module, configured to merge multiple sowing wave orders according to the order merging strategy to generate multiple sorting wave orders after each sowing wave order is sorted;

and the order goods automatic sorting module is used for distributing bins to each sorting wave order and putting goods in each sorting wave order into the corresponding bin through automatic sorting equipment.

Further, the acquiring of the e-commerce multi-item order, and merging the e-commerce multi-item order according to a predefined order merging strategy to generate a plurality of sowing wave order specifically includes:

receiving or creating the E-commerce multi-item order through a warehouse management system, merging a plurality of E-commerce multi-item orders according to the order merging strategy, and generating a plurality of sowing wave order forms; wherein the total number of the seeding wave orders does not exceed the total number of the grids.

Further, after each of the seeding order orders is sorted, merging a plurality of the seeding order orders according to the order merging strategy to generate a plurality of sorting order orders, specifically:

after each sowing wave order is sorted, the plurality of sowing wave orders are led into an intelligent sorting system through a warehouse management system, so that the intelligent sorting system merges the plurality of sowing wave orders according to the order merging strategy to generate the plurality of sorting wave orders.

Further, the enabling the intelligent sorting system to merge a plurality of the sowing order according to the order merging strategy to generate a plurality of the sorting order, specifically:

and the intelligent sorting system checks the plurality of seeding wave order orders, and merges the plurality of seeding wave order according to the order merging strategy when the plurality of seeding wave order passes the check to generate a plurality of sorting wave order.

Further, the step of putting the goods in each sorting order into the corresponding bin through the automatic sorting equipment specifically includes:

scanning goods in the sorting wave order through an intelligent sorting system, and driving automatic sorting equipment to put the goods into correspondence when the goods scanning is successful.

The embodiment of the invention has the following beneficial effects:

the method comprises the steps of obtaining an E-commerce multi-item order, combining a plurality of E-commerce multi-item orders according to a predefined order combining strategy, generating a plurality of sowing wave order, combining a plurality of sowing wave order according to the order combining strategy after each sowing wave order is sorted, generating a plurality of sorting wave orders, distributing bins to each sorting wave order, and putting goods in each sorting wave order into the corresponding bins through automatic sorting equipment. Compared with the prior art, the embodiment of the invention generates the plurality of seeding wave order orders by combining the plurality of E-commerce multi-item orders, can uniformly pick corresponding goods in the plurality of E-commerce multi-item orders according to the seeding wave order, generates the plurality of sorting wave order orders by combining the plurality of seeding wave order orders, can uniformly pick corresponding goods in the plurality of seeding wave order orders according to the sorting wave order, delivers the goods of the sorting wave order through automatic sorting equipment, and can rapidly and accurately deliver the goods, thereby realizing automatic sorting facing the E-commerce multi-item orders and improving the sorting efficiency of the E-commerce multi-item orders.

Drawings

Fig. 1 is a schematic flow chart illustrating a method for sorting e-commerce multi-item orders according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an e-commerce multi-item order sorting apparatus according to a second embodiment of the present invention.

Detailed Description

The technical solutions in the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, the step numbers in the text are only for convenience of explanation of the specific embodiments, and do not serve to limit the execution sequence of the steps. The method provided by the embodiment can be executed by the relevant server, and the server is taken as an example for explanation below.

The first embodiment:

as shown in fig. 1, the first embodiment provides a method for sorting e-commerce multi-item orders, which includes steps S1-S3:

s1, acquiring the E-commerce multi-commodity orders, combining the E-commerce multi-commodity orders according to a predefined order combination strategy, and generating a plurality of sowing wave order forms;

s2, after each sowing wave order is sorted, combining a plurality of sowing wave orders according to an order combining strategy to generate a plurality of sorting wave orders;

and S3, distributing bins to each sorting wave order, and putting the goods in each sorting wave order into the corresponding bins through the automatic sorting equipment.

It should be noted that the e-commerce multi-item order is an SO order (shipping order).

In an embodiment of the present invention, the obtaining an e-commerce multi-item order, merging a plurality of e-commerce multi-item orders according to a predefined order merging policy, and generating a plurality of sowing wave orders specifically includes: receiving or creating an E-commerce multi-item order through a warehouse management system, merging a plurality of E-commerce multi-item orders according to an order merging strategy, and generating a plurality of sowing wave order forms; wherein, the total number of the seeding wave orders does not exceed the total number of the grids.

Illustratively, in step S1, the e-commerce multi-item order sent by the e-commerce platform is received or directly created by the warehouse management system, and the e-commerce multi-item orders are merged according to a predefined order merging strategy to generate a plurality of seeding wave order for picking up goods according to the seeding wave order.

Typically, a customer will fill in order information on an e-commerce platform or warehouse management system (such as a WMS system) to create an e-commerce multi-item order. If a customer creates an E-commerce multi-item order on the E-commerce platform, wherein the order comprises information such as an order number, order quantity, sku details and the like, the E-commerce platform sends the E-commerce multi-item order to a warehouse management system through an interface to establish a new E-commerce multi-item order, and order information is guaranteed to be complete; if the customer creates the E-commerce multi-item order on the warehouse management system, the E-commerce multi-item order is directly stored and maintained on the page.

The predefined order merging strategy is distributed to the grids according to the number of orders, namely, the grids are merged according to the same order or a plurality of orders. The combination mode comprises the following steps: one is manual combination, and a user directly checks a plurality of orders on an interface of a warehouse management system to combine the orders; the other method needs to select the number of the grids on the interface of the warehouse management system for combination; and the other method is that the warehouse management system transmits the information of the order, sku details, order quantity, goods volume and the like to the intelligent sorting system, so that the intelligent sorting system calculates the cell capacity ratio by using the volume and returns the judged available cell number for merging.

And merging the plurality of E-commerce multi-item orders through a warehouse management system to generate a plurality of seeding wave order orders, wherein the seeding wave order comprises information of all E-commerce multi-item orders, such as order numbers, SKU detailed goods information corresponding to the orders and the like. Wherein, the total number of the sowing wave orders is required to not exceed the total number specified by the grid, for example, 200 grids exist, the number of the combined single sowing wave orders can not be more than 200 in principle, and corresponding abnormal grids are reserved, such as 198 waves, between which the sowing wave order number and the sowing position number are generated. The whole sowing wave is generated, a warehouse management system is needed to complete the operation, and complete sowing information and document corresponding information exist. In order to ensure the sorting efficiency and the reasonable distribution of the system, the total quantity of the orders of the sowing wave times is required to be not more than the total quantity specified by the grid when the wave times are combined, and one grid is preferably an order, so that the sorting and rechecking steps are not required to be repeated when the subsequent goods enter the packing stage.

The embodiment generates a plurality of seeding wave order orders by combining a plurality of E-commerce multi-item orders, can uniformly pick corresponding goods in the plurality of E-commerce multi-item orders according to the seeding wave order, and is favorable for improving the sorting efficiency of the E-commerce multi-item orders.

In a preferred embodiment, after each seeding wave order is sorted, the multiple seeding wave orders are merged according to an order merging strategy to generate multiple sorting wave orders, specifically: after each sowing wave order is sorted, the plurality of sowing wave orders are led into the intelligent sorting system through the warehouse management system, so that the intelligent sorting system merges the plurality of sowing wave orders according to an order merging strategy to generate a plurality of sorting wave orders.

In a preferred embodiment, said enabling the intelligent sorting system merges a plurality of seeding order orders according to an order merging strategy to generate a plurality of sorting order orders, specifically: and the intelligent sorting system checks the plurality of sowing wave orders, and merges the plurality of sowing wave orders according to the order merging strategy when the plurality of sowing wave orders pass the check to generate a plurality of sorting wave orders.

Illustratively, in step S2, the sowing wave orders are printed by the warehouse management system, the warehouse personnel pick up the items according to the sowing wave orders, after each sowing wave order is sorted, the plurality of sowing wave orders are imported into the intelligent sorting system by the warehouse management system, so that the intelligent sorting system checks the plurality of sowing wave orders, and when the plurality of sowing wave orders pass the check, the plurality of sowing wave orders are merged according to the order merging strategy to generate the plurality of sorting wave orders, so as to pick up the items according to the sorting wave orders subsequently.

The order combining strategy defined in advance can combine orders according to the goods storage positions, and a plurality of E-commerce multi-item orders containing goods adjacent to the storage positions are combined into the same sowing wave order, so that the sorting efficiency of the E-commerce multi-item orders is improved.

The mode of leading-in seeding ripples order to intelligent letter sorting system includes following several: one is that firstly, a sowing order needing to be sorted is led out from a warehouse management system, and then the led-out sowing order is led into an intelligent sorting system according to the same template; and the other method is that the warehouse management system sends a sowing order to the intelligent sorting system through an interface.

After receiving a plurality of sowing wave order forms, the intelligent sorting system firstly checks the sowing wave order forms, for example, judges whether the sku information is accurately added, whether the volume of the goods is sent, whether the ledger (order form) information is complete, and the like, so as to ensure that the sorting wave order forms can be generated. If the conditions for generating the sorting wave order are not met, the intelligent sorting system has corresponding error reporting information, and if the conditions for generating the sorting wave order are met, the intelligent sorting system can generate the sorting wave order and start a sorting task, so that sorting of the sorting wave order can be performed through automatic sorting equipment.

This embodiment generates a plurality of letter sorting ripples order through merging a plurality of seeding ripples order, can be based on letter sorting ripples order and unified the corresponding goods of picking in a plurality of seeding ripples order, is favorable to improving the letter sorting efficiency of many article orders of electricity merchant.

In a preferred embodiment, the step of putting the goods in each sorting order into the corresponding bin by the automated sorting equipment specifically comprises: and scanning the goods in the sorting wave order through the intelligent sorting system, and driving the automatic sorting equipment to put the goods into the corresponding bins when the goods are successfully scanned.

Illustratively, in step S3, each sorting wave order is assigned a bin, so that when the sorting task of one sorting wave order is executed, the scanning device connected to the intelligent sorting system scans the goods in the sorting wave order, when the goods scanning is successful, the automatic sorting device is driven to put the goods into the corresponding bin, and the next goods are continuously scanned and delivered until all the goods in the sorting wave order are sorted.

Typically, the bins need to be prepared before they are assigned to each sort wave order. A bin is bound to each grid opening, after a sorting wave order is generated, the bin needs to be bound to the position of each grid opening, each grid opening can roughly contain the position of one bin, the size and the capacity of the bin need to be preset before distribution, the specification of the bin with the grid openings can be unified, different bins can be distributed to different sorting wave orders, the specific requirement is determined according to business requirements, after the bin is bound, a bin label needs to be printed and attached to the bin, and therefore a scanning device can be used for checking bin numbers and bin packing information later.

The automatic matching of the seeding position number to the grid number and the order number through the intelligent sorting system can be analyzed according to the grid needs allocated by the current order and the number of the current times, for example, 200 grids exist, 5 lists are provided for the combined sorting order, namely, a list 150, two lists 100 and two lists 50, the intelligent sorting system allocates the grids according to the needs, the 150 lists are allocated to 150 grid positions firstly, the continuous distribution is realized, if 100 lists are followed, the distribution is realized when the number of the grids meets 100, and if 50 lists are followed, the distribution of 50 grids can be sequentially discharged and allocated after 150 grids for the next order sorting.

The packing list is printed by the warehouse management system, and is delivered according to the seeding position number in the packing list and the seeding position number pasted on the lattice, and the information is confirmed, so that the back goods can be checked conveniently.

The scanning equipment connected with the intelligent sorting system scans goods in the sorting wave order, once the goods are scanned successfully, the automatic sorting equipment (such as a sorting trolley, a balance wheel sorting machine and the like) is driven to put the goods into a corresponding bin, and when the goods scanning fails (such as the number of the actually delivered goods is inconsistent with the number of the goods in the sorting wave order), the intelligent sorting system can automatically close the sorting wave order to wait for manual processing.

When the sorting order is finished, the warehouse staff is prompted to go to the corresponding bin opening through the intelligent sorting system to collect the bin, the warehouse staff can control the electronic tag conversion color (such as blue) at the bin opening where the bin is located to indicate that the sorting is finished and the bin replacement is waited, and similarly, after the bin replacement is finished, the electronic tag conversion color (such as green) at the bin opening where the bin is located can be controlled to indicate that the normal sorting is finished, and the bin opening is released to wait for executing the sorting task of the next sorting order. Then, the warehouse personnel can scan the information such as the packing list and the goods bar code printed by the warehouse management system by using the scanning equipment for rechecking, print the bill after packing and weighing, close the order after completing the shipping action in the warehouse management system and complete the shipping.

The embodiment delivers the goods of the sorting wave order through the automatic sorting equipment, and can rapidly and accurately deliver the goods, so that the automatic sorting is realized facing to the E-commerce multi-item order, and the sorting efficiency of the E-commerce multi-item order is improved.

Second embodiment:

as shown in fig. 2, a second embodiment provides an e-commerce multi-item order sorting apparatus, including: a sowing wave order generating module 21, configured to obtain an e-commerce multi-item order, merge multiple e-commerce multi-item orders according to a predefined order merging strategy, and generate multiple sowing wave order orders; a sorting wave order generating module 22, configured to merge multiple sowing wave orders according to an order merging strategy after each sowing wave order is sorted, so as to generate multiple sorting wave orders; and the order goods automatic sorting module 23 is used for distributing bins to each sorting wave order and putting the goods in each sorting wave order into the corresponding bin through the automatic sorting equipment.

It should be noted that the e-commerce multi-item order is an SO order (shipping order).

In an embodiment of the present invention, the obtaining an e-commerce multi-item order, merging a plurality of e-commerce multi-item orders according to a predefined order merging policy, and generating a plurality of sowing wave orders specifically includes: receiving or creating an E-commerce multi-item order through a warehouse management system, merging a plurality of E-commerce multi-item orders according to an order merging strategy, and generating a plurality of sowing wave order forms; wherein, the total number of the seeding wave orders does not exceed the total number of the grids.

Illustratively, the order generation module 21 receives the e-commerce multi-item orders sent by the e-commerce platform through the warehouse management system or directly creates the e-commerce multi-item orders, and merges the e-commerce multi-item orders according to a predefined order merging strategy to generate a plurality of seeding wave orders for picking up goods according to the seeding wave orders.

Typically, a customer will fill in order information on an e-commerce platform or warehouse management system (such as a WMS system) to create an e-commerce multi-item order. If a customer creates an E-commerce multi-item order on the E-commerce platform, wherein the order comprises information such as an order number, order quantity, sku details and the like, the E-commerce platform sends the E-commerce multi-item order to a warehouse management system through an interface to establish a new E-commerce multi-item order, and order information is guaranteed to be complete; if the customer creates the E-commerce multi-item order on the warehouse management system, the E-commerce multi-item order is directly stored and maintained on the page.

The predefined order merging strategy is distributed to the grids according to the number of orders, namely, the grids are merged according to the same order or a plurality of orders. The combination mode comprises the following steps: one is manual combination, and a user directly checks a plurality of orders on an interface of a warehouse management system to combine the orders; the other method needs to select the number of the grids on the interface of the warehouse management system for combination; and the other method is that the warehouse management system transmits the information of the order, sku details, order quantity, goods volume and the like to the intelligent sorting system, so that the intelligent sorting system calculates the cell capacity ratio by using the volume and returns the judged available cell number for merging.

And merging the plurality of E-commerce multi-item orders by using a warehouse management system to generate a plurality of seeding wave order orders, wherein the seeding wave order comprises information of all E-commerce multi-item orders, such as order numbers, SKU detailed goods information corresponding to the orders and the like. Wherein, the total number of the sowing wave orders is required to not exceed the total number specified by the grid, for example, 200 grids exist, the number of the combined single sowing wave orders can not be more than 200 in principle, and corresponding abnormal grids are reserved, such as 198 waves, between which the sowing wave order number and the sowing position number are generated. The whole sowing wave is generated, a warehouse management system is needed to complete the operation, and complete sowing information and document corresponding information exist. In order to ensure the sorting efficiency and the reasonable distribution of the system, the total quantity of the orders of the sowing wave times is required to be not more than the total quantity specified by the grid when the wave times are combined, and one grid is preferably an order, so that the sorting and rechecking steps are not required to be repeated when the subsequent goods enter the packing stage.

According to the embodiment, the sowing wave order generating module 21 is used for combining a plurality of E-commerce multi-item orders to generate a plurality of sowing wave orders, corresponding goods in the E-commerce multi-item orders can be picked in a unified mode according to the sowing wave orders, and the method is favorable for improving the sorting efficiency of the E-commerce multi-item orders.

In a preferred embodiment, after each seeding wave order is sorted, the multiple seeding wave orders are merged according to an order merging strategy to generate multiple sorting wave orders, specifically: after each sowing wave order is sorted, the plurality of sowing wave orders are led into the intelligent sorting system through the warehouse management system, so that the intelligent sorting system merges the plurality of sowing wave orders according to an order merging strategy to generate a plurality of sorting wave orders.

In a preferred embodiment, said enabling the intelligent sorting system merges a plurality of seeding order orders according to an order merging strategy to generate a plurality of sorting order orders, specifically: and the intelligent sorting system checks the plurality of sowing wave orders, and merges the plurality of sowing wave orders according to the order merging strategy when the plurality of sowing wave orders pass the check to generate a plurality of sorting wave orders.

Illustratively, by the sorting order generation module 22, the warehouse management system is used to print the sowing order, the warehouse personnel picks the goods according to the sowing order, after each sowing order is sorted, the warehouse management system is used to introduce the sowing orders into the intelligent sorting system, so that the intelligent sorting system checks the sowing orders, and when the sowing orders pass the checking, the sowing orders are merged according to the order merging strategy to generate the sorting orders, so as to pick the goods according to the sorting order.

The order combining strategy defined in advance can combine orders according to the goods storage positions, and a plurality of E-commerce multi-item orders containing goods adjacent to the storage positions are combined into the same sowing wave order, so that the sorting efficiency of the E-commerce multi-item orders is improved.

The mode of leading-in seeding ripples order to intelligent letter sorting system includes following several: one is that firstly, a sowing order needing to be sorted is led out from a warehouse management system, and then the led-out sowing order is led into an intelligent sorting system according to the same template; and the other method is that the warehouse management system sends a sowing order to the intelligent sorting system through an interface.

After receiving a plurality of sowing wave order forms, the intelligent sorting system firstly checks the sowing wave order forms, for example, judges whether the sku information is accurately added, whether the volume of the goods is sent, whether the ledger (order form) information is complete, and the like, so as to ensure that the sorting wave order forms can be generated. If the conditions for generating the sorting wave order are not met, the intelligent sorting system has corresponding error reporting information, and if the conditions for generating the sorting wave order are met, the intelligent sorting system can generate the sorting wave order and start a sorting task, so that sorting of the sorting wave order can be performed through automatic sorting equipment.

In the embodiment, the sorting order generation module 22 is used for combining a plurality of sowing order to generate a plurality of sorting order, so that corresponding goods in a plurality of sowing order can be picked in a unified manner according to the sorting order, and the sorting efficiency of the e-commerce multi-item order is improved.

In a preferred embodiment, the step of putting the goods in each sorting order into the corresponding bin by the automated sorting equipment specifically comprises: and scanning the goods in the sorting wave order through the intelligent sorting system, and driving the automatic sorting equipment to put the goods into the corresponding bins when the goods are successfully scanned.

Illustratively, bins are assigned to each sort wave order by the order item automatic sorting module 23, such that when a sort job of one sort wave order is performed, the items in the sort wave order are scanned by a scanning device connected to the intelligent sorting system, and when the item scanning is successful, the automatic sorting device is driven to drop the items into the corresponding bins, and the next item is continuously scanned and delivered until all the items in the sort wave order are sorted.

Typically, the bins need to be prepared before they are assigned to each sort wave order. A bin is bound to each grid opening, after a sorting wave order is generated, the bin needs to be bound to the position of each grid opening, each grid opening can roughly contain the position of one bin, the size and the capacity of the bin need to be preset before distribution, the specification of the bin with the grid openings can be unified, different bins can be distributed to different sorting wave orders, the specific requirement is determined according to business requirements, after the bin is bound, a bin label needs to be printed and attached to the bin, and therefore a scanning device can be used for checking bin numbers and bin packing information later.

The automatic matching of the seeding position number to the grid number and the order number through the intelligent sorting system can be analyzed according to the grid needs allocated by the current order and the number of the current times, for example, 200 grids exist, 5 lists are provided for the combined sorting order, namely, a list 150, two lists 100 and two lists 50, the intelligent sorting system allocates the grids according to the needs, the 150 lists are allocated to 150 grid positions firstly, the continuous distribution is realized, if 100 lists are followed, the distribution is realized when the number of the grids meets 100, and if 50 lists are followed, the distribution of 50 grids can be sequentially discharged and allocated after 150 grids for the next order sorting.

The packing list is printed by the warehouse management system, and is delivered according to the seeding position number in the packing list and the seeding position number pasted on the lattice, and the information is confirmed, so that the back goods can be checked conveniently.

The scanning equipment connected with the intelligent sorting system scans goods in the sorting wave order, once the goods are scanned successfully, the automatic sorting equipment (such as a sorting trolley, a balance wheel sorting machine and the like) is driven to put the goods into a corresponding bin, and when the goods scanning fails (such as the number of the actually delivered goods is inconsistent with the number of the goods in the sorting wave order), the intelligent sorting system can automatically close the sorting wave order to wait for manual processing.

When the sorting order is finished, the warehouse staff is prompted to go to the corresponding bin opening through the intelligent sorting system to collect the bin, the warehouse staff can control the electronic tag conversion color (such as blue) at the bin opening where the bin is located to indicate that the sorting is finished and the bin replacement is waited, and similarly, after the bin replacement is finished, the electronic tag conversion color (such as green) at the bin opening where the bin is located can be controlled to indicate that the normal sorting is finished, and the bin opening is released to wait for executing the sorting task of the next sorting order. Then, the warehouse personnel can scan the information such as the packing list and the goods bar code printed by the warehouse management system by using the scanning equipment for rechecking, print the bill after packing and weighing, close the order after completing the shipping action in the warehouse management system and complete the shipping.

According to the automatic sorting device, the order goods automatic sorting module 23 is adopted, the automatic sorting equipment delivers goods of the sorting wave order, and the goods can be rapidly and accurately delivered, so that automatic sorting is realized for the E-commerce multi-goods order, and the sorting efficiency of the E-commerce multi-goods order is improved.

In summary, the embodiments of the present invention have the following beneficial effects:

the method comprises the steps of obtaining an E-commerce multi-item order, combining a plurality of E-commerce multi-item orders according to a predefined order combining strategy, generating a plurality of sowing wave order, combining a plurality of sowing wave order according to the order combining strategy after each sowing wave order is sorted, generating a plurality of sorting wave orders, distributing bins to each sorting wave order, and putting goods in each sorting wave order into the corresponding bins through automatic sorting equipment. According to the embodiment of the invention, the plurality of E-commerce multi-item orders are combined to generate the plurality of seeding wave order, corresponding goods in the plurality of E-commerce multi-item orders can be picked in a unified mode according to the seeding wave order, the plurality of seeding wave order are combined to generate the plurality of sorting wave order, corresponding goods in the plurality of seeding wave order can be picked in a unified mode according to the sorting wave order, the goods in the sorting wave order are delivered through automatic sorting equipment, the goods can be delivered quickly and accurately, therefore, automatic sorting facing to the E-commerce multi-item orders is realized, and the sorting efficiency of the E-commerce multi-item orders is improved.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that all or part of the processes of the above embodiments may be implemented by hardware related to instructions of a computer program, and the computer program may be stored in a computer readable storage medium, and when executed, may include the processes of the above embodiments. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

Claims (10)

1. An e-commerce multi-item order sorting method is characterized by comprising the following steps:

acquiring an E-commerce multi-item order, combining a plurality of E-commerce multi-item orders according to a predefined order combination strategy, and generating a plurality of sowing wave order forms;

after each sowing wave order is sorted, combining a plurality of sowing wave orders according to the order combining strategy to generate a plurality of sorting wave orders;

distributing a bin to each sorting wave order, and putting the goods in each sorting wave order into the corresponding bin through automatic sorting equipment.

2. The e-commerce multi-item order sorting method according to claim 1, wherein the step of obtaining an e-commerce multi-item order, merging a plurality of e-commerce multi-item orders according to a predefined order merging strategy, and generating a plurality of sowing wave order forms specifically comprises:

receiving or creating the E-commerce multi-item order through a warehouse management system, merging a plurality of E-commerce multi-item orders according to the order merging strategy, and generating a plurality of sowing wave order forms; wherein the total number of the seeding wave orders does not exceed the total number of the grids.

3. The method for sorting e-commerce multi-commodity orders as claimed in claim 1, wherein after each of the seeding wave orders is sorted, the seeding wave orders are merged according to the order merging strategy to generate a plurality of sorting wave orders, specifically:

after each sowing wave order is sorted, the plurality of sowing wave orders are led into an intelligent sorting system through a warehouse management system, so that the intelligent sorting system merges the plurality of sowing wave orders according to the order merging strategy to generate the plurality of sorting wave orders.

4. The e-commerce multi-commodity order sorting method according to claim 3, wherein the enabling of the intelligent sorting system merges a plurality of the seeding wave order according to the order merging strategy to generate a plurality of the sorting wave order, specifically:

and the intelligent sorting system checks the plurality of seeding wave order orders, and merges the plurality of seeding wave order according to the order merging strategy when the plurality of seeding wave order passes the check to generate a plurality of sorting wave order.

5. The method for sorting e-commerce multi-item orders as claimed in claim 1, wherein the step of placing the items in each sorting wave order into the corresponding bin by the automated sorting equipment comprises:

scanning goods in the sorting wave order through an intelligent sorting system, and driving automatic sorting equipment to put the goods into correspondence when the goods scanning is successful.

6. An e-commerce multi-item order sorting device, comprising:

the electronic commerce multi-item order generation module is used for acquiring an electronic commerce multi-item order, combining a plurality of electronic commerce multi-item orders according to a predefined order combination strategy and generating a plurality of seeding wave order;

a sorting wave order generating module, configured to merge multiple sowing wave orders according to the order merging strategy to generate multiple sorting wave orders after each sowing wave order is sorted;

and the order goods automatic sorting module is used for distributing bins to each sorting wave order and putting goods in each sorting wave order into the corresponding bin through automatic sorting equipment.

7. The e-commerce multi-item order sorting device according to claim 6, wherein the step of obtaining an e-commerce multi-item order, merging a plurality of e-commerce multi-item orders according to a predefined order merging strategy, and generating a plurality of sowing wave orders comprises:

receiving or creating the E-commerce multi-item order through a warehouse management system, merging a plurality of E-commerce multi-item orders according to the order merging strategy, and generating a plurality of sowing wave order forms; wherein the total number of the seeding wave orders does not exceed the total number of the grids.

8. The e-commerce multi-commodity order sorting device according to claim 6, wherein after each of the seeding wave orders is sorted, the seeding wave orders are merged according to the order merging strategy to generate a plurality of sorting wave orders, specifically:

after each sowing wave order is sorted, the plurality of sowing wave orders are led into an intelligent sorting system through a warehouse management system, so that the intelligent sorting system merges the plurality of sowing wave orders according to the order merging strategy to generate the plurality of sorting wave orders.

9. The e-commerce multi-item order sorting device of claim 8, wherein the enabling of the intelligent sorting system merges a plurality of the seeding wave order according to the order merging strategy to generate a plurality of the sorting wave order, specifically:

and the intelligent sorting system checks the plurality of seeding wave order orders, and merges the plurality of seeding wave order according to the order merging strategy when the plurality of seeding wave order passes the check to generate a plurality of sorting wave order.

10. The e-commerce multi-item order sorting device of claim 6, wherein the placing of the items in each of the sorting wave orders into the corresponding bin by the automated sorting equipment is specifically:

scanning goods in the sorting wave order through an intelligent sorting system, and driving automatic sorting equipment to put the goods into correspondence when the goods scanning is successful.

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