CN110738449A - Method and device for obtaining label in warehousing business and warehousing business implementation method - Google Patents

Abstract

The invention provides a method and a device for acquiring labels in warehousing services and a warehousing service implementation method, wherein the method for acquiring labels in the warehousing services is applied to a warehousing node and comprises the steps of receiving M orders, wherein M is a positive integer, triggering a third-party carrier to generate N electronic labels aiming at the M orders, wherein N is a positive integer, the numerical value of N is equal to the total box number of goods included in the M orders, each electronic labels comprise address information corresponding to the electronic labels and order identifications corresponding to the electronic labels, receiving the N electronic labels sent by the third-party carrier, sequencing the N electronic labels, arranging the electronic labels corresponding to the goods of the same type in , and printing the N electronic labels according to the sequenced sequence.

Description

Method and device for obtaining label in warehousing business and warehousing business implementation method

Technical Field

The invention relates to the technical field of logistics, in particular to a method and a device for acquiring a label in warehousing business and a warehousing business implementation method.

Background

The adoption of centralized warehousing management and decentralized delivery to various sites in the sales area are common supply chain management methods for the distribution of goods to retail sites at present, while for centralized warehousing nodes, the storage and management of goods with huge quantities are often conducted by decentralized delivery using the transportation network of a third-party carrier.

At present, in order to ensure that goods ordered by a customer can be accurately and unmistakably distributed and delivered to a destination, in the implementation process of warehousing business, a warehousing manager cooperates with a third-party carrier to complete a warehousing sorting process, the warehousing manager takes and places the goods according to orders after receiving orders sent by the customer for various goods, the third-party carrier also generates paper labels according to the orders and sends the paper labels to the warehousing manager, the warehousing manager correspondingly adheres each paper label to each box of goods, and subsequently, the third-party carrier completes logistics and delivery of the goods according to the labels on each box of goods.

However, the current warehousing business process is more complex, resulting in inefficiency.

Disclosure of Invention

The embodiment of the invention provides a method and a device for acquiring a label in warehousing business and a warehousing business implementation method, which can reduce the complexity of a warehousing business process.

, the embodiment of the present invention provides methods for obtaining labels in warehousing services, which are applied to warehousing nodes, and include:

receiving M orders; wherein M is a positive integer;

triggering a third-party carrier to generate N electronic labels for the M orders;

each electronic labels comprise address information corresponding to the electronic labels and order identifications corresponding to the electronic labels;

receiving the N electronic stickers from the third party carrier;

sorting the N electronic tags, and arranging the electronic tags corresponding to the same kinds of goods at ;

and printing the N electronic labels according to the sorted sequence.

In a possible implementation manner, with reference to the aspect, the triggering the third party carrier to generate N electronic labels for the M orders includes:

establishing M data sets corresponding to the M orders;

for each orders, the steps of putting the order identification, the address information and the information of the total box number of the goods in the order corresponding to the order into a data set corresponding to the order are carried out;

and sending the obtained M data sets to the third-party carrier.

In a second possible implementation manner, with reference to any of the possible implementation manners of the th aspect and the th aspect, the sorting the N electronic tags and arranging the electronic tags corresponding to the same kinds of goods at includes:

step S1: determining the total number K of the goods types included in the M orders;

wherein K is a positive integer;

step S2: i is 1;

step S3: for the current class K_iOf the goods of (1), search for the category K_iAt least st orders for the goods in (a);

step S4, obtaining at least attribute information of the order from the current order;

step S5: determining an electronic label which is not selected;

step S6, selecting each electronic label comprising the attribute information of at least th orders from the unselected electronic labels;

step S7, arranging the currently selected electronic tags at ;

step S8: i is i + 1;

step S9: and judging whether i is larger than K, if so, ending the current flow, and otherwise, returning to the step S3.

In a third possible implementation manner, with reference to the second possible implementation manner of the aspect, the order attribute information includes address information and/or an order identifier;

in step S3, the search for the category K_iAt least st orders of goods in (c) include:

determining the class K_iThe item number of the goods of (1);

and searching the order where the cargo number is located, and determining at least searched orders as the th orders of at least .

In a fourth possible implementation manner, with reference to the aspect above, the method further includes determining geographic storage locations of the K goods included in the M orders in an entity warehouse;

the sorting of the N electronic labels further comprises determining the sequence of the electronic labels corresponding to the K kinds of goods according to the sequence of the geographical storage positions of the K kinds of goods.

In a fifth possible implementation manner, with reference to any of the aspect, the possible implementation manner of the aspect, the second possible implementation manner, the third possible implementation manner, and the fourth possible implementation manner, the data format of the electronic tag includes a reserved field;

the method further includes:

generating at least pieces of box and label information, wherein the box and label information comprises second order attribute information;

to every case mark information, all carry out:

determining an electronic tag corresponding to the box label information according to the second order attribute information included in the box label information;

and filling the information of the box label into the th field of the corresponding electronic tag.

In a sixth possible implementation manner, with reference to the fifth possible implementation manner of the aspect, the second order attribute information includes an order identifier and a type of goods.

In a second aspect, an embodiment of the present invention further provides an storage service implementation method, including:

obtaining N entity labels by using of any one of the th aspect, the th possible implementation manner of the th aspect, the th possible implementation manner of the th aspect, the th possible implementation manner of the th aspect, the th possible implementation manner of the th aspect, the th possible implementation manner of the th aspect, and the sixth possible implementation manner of the aspect;

sorting out N boxes of goods included in the M orders in sequence from an entity warehouse;

placing N boxes of goods, and placing the goods of the same type as in ;

posting the N physical labels on the N boxes of merchandise on a shelf.

In , with reference to the second aspect, the placing N boxes of cargo further includes:

and determining the placing sequence among the K kinds of cargos according to the sequence of the geographic storage positions of the K kinds of cargos.

In a third aspect, an embodiment of the present invention further provides kinds of apparatuses for acquiring a label in a warehousing service, including:

the order processing module is used for receiving M orders; wherein M is a positive integer;

the interface module is used for triggering a third-party carrier to generate N electronic labels aiming at the M orders received by the order processing module and receiving the N electronic labels sent by the third-party carrier, wherein N is a positive integer, and the numerical value of N is equal to the total box number of goods in the M orders;

the sorting module is used for sorting the N electronic tags received by the interface module and arranging the electronic tags corresponding to the same kinds of goods at ;

and the printing module is used for printing the N electronic labels according to the sequence sequenced by the sequencing module.

In possible implementation manners, with reference to the third aspect, the order processing module is further configured to establish M data sets corresponding to the M orders, and for each orders, perform that information of an order identifier, address information, and total box number of goods in the order corresponding to the order is placed in the data set corresponding to the order;

correspondingly, the interface module sends the M data sets obtained by the order processing module to the third-party carrier, so as to trigger the third-party carrier to generate N electronic tags for the M orders received by the order processing module.

In a second possible implementation manner, with reference to the third aspect, when the sorting module sorts the N electronic tags and arranges the electronic tags corresponding to the same kinds of goods, the sorting module may perform the following process:

step S1: determining the total number K of the goods types included in the M orders;

wherein K is a positive integer;

step S2: i is 1;

step S3: for the current class K_iOf the goods of (1), search for the category K_iAt least st orders for the goods in (a);

step S4, obtaining at least attribute information of the order from the current order;

step S5: determining an electronic label which is not selected;

step S6, selecting each electronic label comprising the attribute information of at least th orders from the unselected electronic labels;

step S7, arranging the currently selected electronic tags at ;

step S8: i is i + 1;

step S9: and judging whether i is larger than K, if so, ending the current flow, and otherwise, returning to the step S3.

In a third possible implementation manner, with reference to the third aspect, the sorting module is further configured to obtain geographic storage locations of the K kinds of goods included in the M orders in the entity warehouse, and determine, when performing the sorting, an arrangement order of the electronic tags corresponding to the K kinds of goods according to an order of the geographic storage locations of the K kinds of goods.

In a fourth possible implementation manner, with reference to any of the third aspect, the possible implementation manners of the third aspect, the second possible implementation manner of the third aspect, and the third possible implementation manner of the third aspect, the data format of the electronic tag includes a reserved field;

, it includes a box label information process module,

the information processing module of the box label is used for generating at least box label information, the box label information comprises second order attribute information, before the printing module prints the N electronic labels, the box label information processing module executes the second order attribute information aiming at each box label information, the electronic label corresponding to the box label information is determined according to the second order attribute information included in the box label information, and the box label information is filled in the field of the corresponding electronic label, wherein the second order attribute information comprises order identification and the type of goods.

According to the technical scheme, the warehousing node does not directly obtain physical labels from the third-party carrier, but triggers the third-party carrier to generate and send electronic labels, so that the electronic labels can be processed by the warehousing node, the electronic labels corresponding to goods of the same type are arranged at , and then the N electronic labels are printed according to the sorted sequence, so that the physical labels obtained by the warehousing node are physical labels arranged according to the requirements of the warehousing node, namely, the physical labels obtained by the warehousing node are not arranged according to the order sequence, but arranged according to the principle of arranging physical labels corresponding to goods of the same type at dimension 8651, because in the actual warehousing, goods of each type are stored at 8655, the sequence of the physical labels is adjusted to be arranged at corresponding to goods of the same type , the geographical storage rules of the goods are followed, so that when goods of the next type are picked, goods of the same type are taken out, the goods of the same type are taken out, and the quantity of the goods in the warehousing node is determined by sorting process of the sorting operation according to the sorting operation of the order of the warehousing node, namely, so that the goods of the sorting operation is not required sorting operation, the sorting operation of the sorting operation is achieved by the sorting operation of the sorting.

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 embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a flow chart of obtaining a label in a warehousing service according to an embodiment of the present invention.

Fig. 2 is a flow chart of sorting electronic stickers, as provided by an embodiment of the present invention .

Fig. 3 is a flow chart of incorporating the shipping label information into the electronic label according to an embodiment of the present invention.

Fig. 4 is a flowchart of implementing warehousing services on the warehousing node side according to an embodiment of the present invention.

Fig. 5 is a flow diagram illustrating a warehousing operation performed by a warehousing node in cooperation with a third party carrier in an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of an apparatus for acquiring labels in warehousing services in an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of another kinds of devices for acquiring labels in warehousing services according to an embodiment of the present invention.

Detailed Description

The following explains items in warehousing business:

1. the orders relate to information including order number, type of goods ordered, quantity of each kinds of goods, address information and contact information of the destination and recipient, etc.

2. The number N of labels generated by the third party carrier is the total number of boxes of all goods included in all orders that need to be processed for the lot, so that labels can be applied to each boxes of goods for subsequent logistics.

In the existing technology, third-party carriers generate labels according to the order of orders, so in order to accurately label, after picking up goods, the goods are usually placed according to the order at the warehousing node side, so that each labels are pasted on the corresponding goods one by one.

For example, the warehousing node 1 receives 100 orders and orders 200 kinds of goods, respectively, for a total of 1 ten thousand boxes, as follows:

the order R1 orders goods as: 10 cases of goods A, 50 cases of goods B and 30 cases of goods C; 2 boxes of goods D;

the goods ordered by order R2 include: 30 boxes of goods A, 80 boxes of goods D and 6 boxes of goods E;

the goods ordered by order R3 include: 200 boxes of goods C, 6 boxes of goods F;

……

the goods ordered by order R100 include: 70 boxes of goods A, 50 boxes of goods G and 1 box of goods H.

Then, in the prior art, 10 boxes of goods a, 50 boxes of goods B, 30 boxes of goods C and 2 boxes of goods D related to the order R1 are sorted and placed at , 30 boxes of goods a, 80 boxes of goods D and 6 boxes of goods E related to the order R2 are sorted and placed at , and so on until the goods related to the order R100 are sorted and placed at , when sorting is performed, not only how many orders are considered, i.e., the number of orders is 100, but also how many goods are in each orders, the number of boxes of each goods is very large, and the workload is very large.

For this feature, embodiments of the present invention propose methods for obtaining labels in warehousing services, see fig. 1, the methods applied to warehousing nodes, including:

step 101: m orders are received.

Wherein M is a positive integer.

Step 102: triggering a third party carrier to generate N electronic labels for the M orders.

Because each boxes of goods need to be labeled, the number of labels needs to be the same as the total number of boxes of goods in the M orders, i.e., the value of N is equal to the total number of boxes of goods included in the M orders.

Step 103: receiving the N electronic stickers sent by the third party carrier.

And 104, sequencing the received N electronic tags, and arranging electronic tags corresponding to the same goods.

Step 105: and printing the N electronic labels according to the sorted sequence.

As can be seen from the above-mentioned flow chart shown in fig. 1, in this embodiment of the present invention, the warehousing node does not directly obtain physical labels from the third-party carrier, but triggers the third-party carrier to generate and send electronic labels, so that the warehousing node can process the electronic labels, including sorting the received N electronic labels, arranging the electronic labels corresponding to the goods of the same category at , and then printing the N electronic labels in the sorted order, so that the physical labels obtained by the warehousing node are physical labels arranged according to its own requirements, that is, the physical labels obtained by the warehousing node are no longer arranged according to the order sequence, but arranged according to the principle of arranging the physical labels corresponding to the goods of the same category at . since in the actual warehousing, every category goods is stored in the warehouse , the goods need to be sorted according to the order, the workload is greatly increased, and in the sorting of the category of the goods corresponding to the category is adjusted to the sorting operation, that the sorting operation of the goods of the category of the goods is performed according to the geographical sorting operation of the category of the goods, namely, the sorting operation of the category of the goods is performed according to the sorting operation of the geographical sorting operation of the category of the sorting of the category of the goods corresponding to the category of the sorting label found in the sorting operation 363875, and the sorting operation of the category of the goods is not to the category of the goods, namely, so that the goods is only the sorting operation of the goods is performed by sorting operation of the category of the goods corresponding to the category of goods of the category of goods.

For the above step 101, the warehousing node may receive M orders in preset receiving cycles, that is, triggering times of warehousing business including label acquisition, sorting and label posting every receiving cycles, it is understood that receiving cycles are set according to the principle of satisfying the order processing requirement of the warehousing node side, for example, receiving cycles may be a preset fixed number of days, for example, days, that is, all orders M received in days may be processed, triggering times of warehousing business including label acquisition, sorting and label posting.

Every electronic labels contain address information (such as destination address, recipient name and contact) corresponding to the electronic label and order mark (for identifying which orders the electronic label corresponds to). The electronic label contains address information and order mark is used to identify the order of the goods and the address to be sent by the label when the goods in the order are distributed.

There are many ways to implement the above step 102. For example, a network communication interface is set between the warehousing node side and the third-party carrier in advance, and the warehousing node side sends information of the M orders to the third-party carrier through the network communication interface, so that the third-party carrier is triggered to generate the N electronic tags for the M orders. Of course, the warehousing node side may also send the information of the M orders to the third-party carrier through other manners such as offline copy, so as to trigger the third-party carrier to generate the N electronic tags for the M orders.

For example, M orders are corresponding to M data sets, the order information of the M orders is correspondingly put into the M data sets by , and then the order information is sent to the third party carrier.

Regardless of the manner in which the third party carrier is triggered to generate the N electronic labels, the information of the orders provided by the warehousing node party to the third party carrier may include only the order identification of every orders, the address information to which the orders refer, and the total number of cases of goods to which the orders refer.

For example, the total box count of various goods related in the order 1 is 100, the total box count of various goods related in the order 2 is 80, the third-party carrier generates 100 electronic labels corresponding to the order 1, wherein each electronic labels include the order identifier of the order 1 and the address information of the order 1, the third-party carrier generates 80 electronic labels corresponding to the order 2, wherein each electronic labels include the order identifier of the order 2 and the address information of the order 2, and according to the mode, the total number N of the electronic labels finally generated by the third-party carrier is equal to the total box count of the goods included in the M orders.

After the third-party carrier generates the electronic labels, the N electronic labels can be sent to the warehousing node side through the network communication interface.

In the sorting process, in order to arrange electronic labels corresponding to the same kinds of goods, in embodiments of the present invention, the following process shown in fig. 2 may be adopted, which includes:

step 201: the total number of cargo categories K included in the M orders is determined.

Wherein K is a positive integer.

Step 202: i is 1.

Step 203: for the current class K_iOf the goods of (1), search for the category K_iAt least st order.

Step 204, acquiring at least th order attribute information from the current th order.

Step 205: and determining the electronic label which is not selected.

And step 206, selecting each electronic label comprising attribute information of at least current orders from the unselected electronic labels.

Step 207, arranging currently selected electronic tags at ;

step 208: i is i + 1;

step 209: and judging whether i is larger than K, if so, ending the current flow, otherwise, returning to the step 203.

order attribute information is common to the same orders for different types of goods, in embodiments of the present invention, the order attribute information involved in the process of fig. 2 includes address information and/or order identifications, that is, different goods in the same order all correspond to the same address information and/or order identification.

Since the electronic labels generated by third party carriers typically only have logistics information such as address information and order information, and typically no information about the goods, that is, for different types of goods from the same orders, the electronic labels may correspond to any and any goods for the order as long as they correspond to the same order identification and address information, the electronic labels corresponding to the same types of goods may be arranged at by the process of fig. 2 described above.

In embodiments of the present invention, the category K is looked up in step 203_iThe manner of the at least orders for the goods in (1) comprises:

determining the class K_iThe item number of the goods of (1);

and searching the order of the cargo number, and determining at least orders which are currently searched as the -th order of at least .

The process shown in fig. 2 is illustrated by taking kinds of goods a as an example, in the M orders, the order ordering the goods a comprises order 1, order 2 and order 3, then order 1, order 2 and order 3 each comprise the goods a number a of the goods a, so in step 203, all the received orders may be traversed first, so that the order in which the goods a is located comprises order 1, order 2 and order 3, that is, order 1, order 2 and order 3 are the " th order" mentioned above, then the address information and/or order identification of order 1 is obtained from order 1, the address information and/or order identification of order 2 is obtained from order 2 and the address information and/or order identification of order 3 is obtained from order 3, respectively, then a search is performed from all electronic labels that have not been selected currently, if any electronic labels that have not been selected currently comprise the address information and/or order identification of order 1, then the electronic label may be selected as the electronic label corresponding to the goods a, if any electronic label that has not been selected currently comprises the selected electronic label and the selected electronic label comprises the selected electronic label identifier , then the selected electronic label may be used as an electronic label comprising the selected electronic label identifier , and the selected electronic label.

The sorting process described above for step 104 is to arrange the electronic labels corresponding to goods in , and after sorting in this way, the printed physical labels are also those of goods in . thus, in the warehouse sorting process, after sorting the goods times from the warehouse storing every goods, it is not necessary to sort twice according to which goods are included in the order, and it is only necessary to place the goods directly and paste the labels corresponding to the goods on each box.

The ordering rules for electronic labels corresponding to the same kinds of goods are described above (e.g., rule 1: electronic labels corresponding to the same kinds of goods can be arranged at .) the ordering rules between electronic labels corresponding to different kinds of goods are also provided in embodiments of the present invention (e.g., rule 2: the ordering sequence between electronic labels corresponding to the K kinds of goods is determined according to the ordering sequence of the geographical storage locations of the K kinds of goods). rule 2 is described below.

In the actual warehouse, the goods are stored according to the types of the goods, for example, all the goods a are placed in the area 1 of the warehouse, all the goods B are placed in the area 2 of the warehouse, all the goods C are placed in the area 3 of the warehouse, and the like.

The actual storage rules of the goods are that the goods of the same kind are stored at , and the goods of different kinds are stored at the geographical storage positions in the sequence 1, the sequence of the electronic labels is equal to the sequence of the goods stored in the actual warehouse through the sorting processing of the above rule 1 and rule 2, that is, the sorted electronic labels are also the electronic labels corresponding to the goods of the same kind arranged at , and the electronic labels corresponding to the goods of different kinds are arranged at according to the sequence 1.

In actual business implementation, some customers need to know various information of a warehouse, and therefore, can paste a box label on a cargo box generally in the current implementation mode, the warehouse node side can print the box label and paste on the corresponding cargo after obtaining the label of paper provided by a third party carrier in order to provide the box label information for the customers, that is, the cargo box can have two physical labels, are the labels of the third party carrier, are the box label labels.

In embodiments of the present invention, in order to simplify the business process by steps, reduce the working time, and reduce the error probability, the label information of the box label can be merged into the existing electronic label, so that the label of the subsequently printed entity includes the logistics label information of the third party carrier and the box label information of the warehousing node side, when the label is pasted, only entity labels need to be pasted, and specific implementation methods are shown in fig. 3, including:

and step 300, presetting th reserved fields in the data format of the electronic tag.

This th field may be left empty when data is filled in at the third party carrier.

And 301, the warehousing node side generates at least box labels according to the customer requirements, wherein the box labels comprise second order attribute information, namely order identification and the types of goods.

The shipping label information may more specifically include: supplier name, goods name, customer internal goods number, order mark, number of pieces in the total number of pieces of order goods, and number of pieces of the goods of the kind.

For each pieces of label information, the following processing from step 302 to step 303 is performed.

Step 302: and determining the electronic tag corresponding to the box label information according to the second order attribute information included in the box label information.

And step 303, filling the information of the box label into the th field of the corresponding electronic tag.

In above-mentioned step 302, the order sign and the kind of goods in the second order attribute information need be used simultaneously to the process of confirming the electronic tags that the container mark information corresponds, specifically can include: firstly, according to the types of the goods included in the box label information, the electronic labels corresponding to the goods of the types after sequencing are determined, and then the electronic labels including the order marks in the second order attribute information are searched from the determined electronic labels, so that the electronic labels corresponding to the box label information are finally determined.

embodiments of the present invention provide warehousing service implementation methods, see fig. 4, including:

step 401: by using the method for obtaining the label in any embodiment of the invention, N entity labels are obtained by printing.

Step 402: sorting out the N boxes of goods included in the M orders in sequence from an entity warehouse.

And 403, placing N boxes of goods, and placing the goods of the same type as in .

And step 404, posting the N entity labels on the placed N boxes of goods one by one.

In step 403, when placing N containers of goods, is performed to determine the placement sequence of the K kinds of goods according to the sequence of the geographical storage locations of the K kinds of goods in the M orders.

The actual storage rule of the goods is that the goods of the same kind are stored at , and the goods of different kinds are stored at the geographical storage positions in the sequence 1, through the warehousing business implementation method, the sequence of the entity labels is the same as the sequence of the goods stored in the actual warehouse, that is, the obtained entity labels are also arranged at corresponding to the entity labels of the same kind, and are arranged according to the sequence 1, in the process shown in the above fig. 4, the sorting and placing sequence of the goods is the same as the sequence of the entity labels, therefore, the worker can directly post the entity labels by boxes of goods placed without identifying any order or goods kind, and the posting result is that the goods are corresponding to the labels, thus greatly simplifying the posting process and complexity of the worker.

Referring to fig. 5, in embodiments of the present invention, the warehousing service is implemented by cooperation of a warehousing node party and a third party carrier, and includes:

step 500: the data format of the electronic tag is preset to include a reserved field 1.

In step 501, the warehousing node side receives a total of 100 orders from each customer in days.

The step is processed times according to days as the receiving period, in other embodiments, other days are also used as units, for example, 2 days is used as receiving periods, of course, the order number can also be used as receiving periods, for example, times are processed every 100 orders as the receiving period, etc.

Taking 100 orders received in this step as an example, for example, the 100 orders always order 200 toys, and total 1 ten thousand boxes.

The information corresponding to order 1 includes: order identification 1, address information 1, contact information 1, 10 boxes of toy A, 50 boxes of toy B and 30 boxes of toy C; order 1 ordered a total of 90 boxes of toys, requiring 90 stickers.

The information corresponding to order 2 includes: order identification 2, address information 2, contact information 2, 30 boxes of toys A and 80 boxes of toys D; order 2 ordered a total of 110 boxes of toys, requiring 110 stickers.

The information corresponding to order 3 includes: order identification 3, address information 3, contact information 3, 5 boxes of toys B and 10 boxes of toys E; order 3 ordered 15 boxes of toys in total, requiring 15 stickers.

By analogy, 100 orders provide the identification of the order, address information, contact information, the type of goods, i.e., toys, and the number of boxes per types of goods, i.e., toys.

And 502, the warehousing node side generates box label information according to the needs of the clients, wherein each box labels comprise corresponding order identifications and types of goods.

For example, 800 shipping labels are generated in this step.

Each box labels information can include supplier name, toy name, customer internal goods number, order mark, number of pieces in total number of pieces of order toys and number of pieces of this kind toys.

Step 503: the warehousing node side establishes 100 data sets corresponding to 100 orders.

And 504, the warehousing node side puts the order identification, the address information and the information of the total box number of the goods required by the order into a data set corresponding to the order, wherein the order identification and the address information correspond to each orders.

For example, order identification 1, address information 1 and 90 boxes of information are put into a data set 1 corresponding to the order 1; placing the order identification 2, the address information 2 and the 110-box information into a data set 2 corresponding to the order 2; order identification 3, address information 3 and 15 boxes of information are put into the data set 3 corresponding to the order 3.

Step 505: the warehousing node side sends 100 data sets to the third party carrier.

And step 506, the third-party carrier generates the electronic labels of the total boxes in the data set for every received data sets, and generates 1 ten thousand electronic labels in total.

For example, for the data set 1, since the information in the data set 1 is 90 boxes, 90 electronic tags are generated corresponding to the data set 1, wherein each electronic tags include the order identification 1 and the address information 1 in the data set 1.

For the data set 2, since the information in the data set 2 is 110 boxes, 110 electronic tags are generated corresponding to the data set 2, wherein each electronic tags include the order identification 2 and the address information 2 in the data set 2.

Step 507: the third party carrier sends 1 ten thousand electronic labels to the warehousing node party through the network communication interface.

Step 508: the warehousing node side extracts 200 goods numbers corresponding to 200 toys in 100 orders, establishes a summary order picking table, and puts the 200 goods numbers into the summary order picking table.

Step 509: and the warehousing node side sorts 200 goods numbers corresponding to the 200 toys in the summary picking list according to the sequence of the actual geographic storage positions of the 200 toys in the warehouse.

For example, in a warehouse, the actual geographic storage locations for 200 toys are sequenced as follows: toy a, toy B, toy C … … through to toy Z.

Then, the sequence of 200 goods numbers is ordered as: item number a of toy a, item number B of toy B, item number C … … of toy C, through item number Z of toy Z.

Step 510, for every good numbers, selecting all electronic labels corresponding to the good numbers from the electronic labels that have not been selected, placing the currently selected respective electronic labels in the aggregated pick list at the location corresponding to the good numbers, and listing .

Through the processing of the steps in fig. 5, the arrangement sequence of 1 ten thousand electronic tags in the summary picking list includes the sequence of the electronic tags corresponding to different types of toys according to of the geographical storage positions of 200 types of toys related to the order in the actual warehouse, and the sequence of the electronic tags corresponding to the same type of toys is arranged at .

Step 511: the warehousing node side fills the information of, for example, 800 boxes generated in step 502 into field 1 of corresponding 800 electronic labels, respectively.

Step 512: and the warehousing node side prints the current summary picking table to obtain 1 ten thousand entity labels.

And 513, taking out every goods in sequence by the warehousing node side according to the sequence of the actual geographical storage positions of 200 goods in 100 orders in the warehouse, and placing the goods of the same type as at .

And 514, the warehousing node side sequentially posts 1 ten thousand entity labels to the put 1 ten thousand boxes of toys.

The embodiments of the present invention further provide apparatus for obtaining labels in warehousing, referring to fig. 6, including:

an order processing module 601, configured to receive M orders; wherein M is a positive integer;

the interface module 602 is configured to trigger a third party carrier to generate N electronic labels for the M orders received by the order processing module 601, receive the N electronic labels sent by the third party carrier, where N is a positive integer, and a numerical value of N is equal to a total number of boxes of goods included in the M orders;

a sorting module 603, configured to sort the N electronic tags received by the interface module 602, and arrange electronic tags corresponding to goods of the same category;

a printing module 604, configured to print the N electronic labels according to the sequence sorted by the sorting module 603.

In embodiments of the present invention, the order processing module 601 further is configured to establish M data sets corresponding to the M orders, and for each orders, perform the steps of placing the information of the order identifier, the address information, and the total number of boxes of the goods in the order corresponding to the order into the data set corresponding to the order;

accordingly, the interface module 602 sends the M data sets obtained by the order processing module 601 to the third party carrier, so as to trigger the third party carrier to generate N electronic tags for the M orders received by the order processing module.

In embodiments of the present invention, the sorting module 603, when sorting the N electronic tags and arranging the electronic tags corresponding to the same kinds of goods at , may perform the following processes:

step S1: determining the total number K of the goods types included in the M orders;

wherein K is a positive integer.

Step S2: i is 1;

step S3: for the current class K_iOf the goods of (1), search for the category K_iAt least st orders for the goods in (a);

step S4, obtaining at least attribute information of the th order from the current th order.

Step S5: determining an electronic label which is not selected;

step S6, selecting each electronic label comprising the attribute information of at least th orders from the unselected electronic labels;

step S7, arranging the currently selected electronic tags at ;

step S8: i is i + 1;

step S9: and judging whether i is larger than K, if so, ending the current flow, and otherwise, returning to the step S3.

In embodiments of the present invention, the sorting module 603 is further configured to obtain geographic storage locations of the K kinds of goods included in the M orders in the entity warehouse, and determine an arrangement order of the electronic tags corresponding to the K kinds of goods according to an order of the geographic storage locations of the K kinds of goods when the sorting is performed.

In embodiments of the present invention, the data format of the electronic tag includes the reserved th field, referring to fig. 7, the device for acquiring labels in warehousing services further includes a shipping label information processing module 701,

the shipping label information processing module 701 is used for generating at least shipping label information, the shipping label information includes second order attribute information, before the printing module 604 prints the N electronic labels, the shipping label information processing module 701 executes each shipping label information, determines the electronic labels corresponding to the shipping label information according to the second order attribute information included in the shipping label information, and fills the shipping label information in the field of the corresponding electronic labels sorted by the sorting module 603.

Since the information interaction, execution process, and the like between the units in the apparatus are based on the concept of , the specific contents may refer to the description in the method embodiment of the present invention, and are not described herein again.

In the embodiments of the invention, the error probability { ei } originally existing in each independent order execution processes is accumulated to obtain the total error probability e₀＝1-∏(1-e_i) And the error probability of the embodiments of the present invention is based on the number check rule of the continuous labels and the block association relation with kinds of goods

When the order quantity M>10, e is reduced by orders of magnitude compared to e0, and this reduction in error performance will be more pronounced when M is greater.

In the embodiments of the present invention, two independent labels in the existing solution are labeled , and the label is associated with only of the goods as the goods number, so the overall error probability is still e, no error is additionally introduced, and compared with the prior art solution, no extra workload is required, and the error probability is greatly reduced.

The present invention also provides computer readable media storing instructions for causing a computer to perform a method of retrieving stickers in warehousing services as described herein, in particular, a system or apparatus may be provided that is equipped with a storage medium having stored thereon software program code that implements the functionality of any of the embodiments in the above-described embodiments, and causes the computer (or CPU or MPU) of the system or apparatus to read out and execute the program code stored in the storage medium.

In this case, the program code itself read from the storage medium can realize the functions of any of the embodiments in the above-described embodiments, and thus the program code and the storage medium storing the program code constitute part of the present invention.

Examples of the storage medium for supplying the program code include a floppy disk, a hard disk, a magneto-optical disk, an optical disk (e.g., CD-ROM, CD-R, CD-RW, DVD-ROM, DVD-RAM, DVD-RW, DVD + RW), a magnetic tape, a nonvolatile memory card, and a ROM. Alternatively, the program code may be downloaded from a server computer via a communications network.

Further, it should be clear that the functions of any embodiments in the above embodiments can be realized not only by executing the program code read out by the computer, but also by causing an operating system or the like operating on the computer to perform a part or all of the actual operations based on the instructions of the program code.

Further, it is to be understood that the program code read out from the storage medium is written to a memory provided in an expansion board inserted into the computer or to a memory provided in an expansion unit connected to the computer, and then causes a CPU or the like mounted on the expansion board or the expansion unit to perform part or all of the actual operations based on instructions of the program code, thereby realizing the functions of any embodiment in the above-described embodiments.

It should be noted that not all steps and modules in the above flows and system structure diagrams are necessary, and some steps or modules may be omitted according to actual needs.

For example, hardware elements may include permanent dedicated circuitry or logic (such as a -specific processor, FPGA, or ASIC) to perform the corresponding operations.

It should be noted that, in this document, relational terms such as and second are only used to distinguish entities or operations from another entities or operations, and no necessarily requires or implies that any such actual relationship or order exists between the entities or operations, furthermore, the terms "comprises," "comprising," or any other variation thereof are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a series of elements does not include only those elements but also other elements not expressly listed or inherent to such process, method, article, or apparatus.

While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims (10)

1. The method for obtaining labels in warehousing business is applied to warehousing nodes and comprises the following steps:

   receiving M orders; wherein M is a positive integer;

   triggering a third-party carrier to generate N electronic labels for the M orders;

   wherein N is a positive integer, and the numerical value of N is equal to the total number of boxes of goods included in the M orders;

   receiving the N electronic labels sent by the third-party carrier, wherein each electronic labels comprise address information corresponding to the electronic labels and order identifications corresponding to the electronic labels;

   sorting the N electronic tags, and arranging the electronic tags corresponding to the same kinds of goods at ;

   and printing the N electronic labels according to the sorted sequence.
2. 2. The method of claim 1,

   said triggering the third party carrier to generate N electronic stickers for said M orders comprises:

   establishing M data sets corresponding to the M orders;

   for each orders, the steps of putting the order identification, the address information and the information of the total box number of the goods in the order corresponding to the order into a data set corresponding to the order are carried out;

   sending the obtained M data sets to the third party carrier;

   and/or;

   the sorting the N electronic tags, arranging the electronic tags corresponding to the same category of goods at comprises:

   step S1: determining the total number K of the goods types included in the M orders;

   wherein K is a positive integer;

   step S2: i is 1;

   step S3: for the current class K_iOf the goods of (1), search for the category K_iAt least st orders for the goods in (a);

   step S4, obtaining at least attribute information of the order from the current order;

   step S5: determining an electronic label which is not selected;

   step S6, selecting each electronic label comprising the attribute information of at least th orders from the unselected electronic labels;

   step S7, arranging the currently selected electronic tags at ;

   step S8: i is i + 1;

   step S9: and judging whether i is larger than K, if so, ending the current flow, and otherwise, returning to the step S3.
3. 3. The method of claim 2,

   order attribute information comprises address information and/or order identification;

   in step S3, the search for the category K_iAt least st orders of goods in (c) include:

   determining the class K_iThe item number of the goods of (1);

   and searching the order where the cargo number is located, and determining at least searched orders as the th orders of at least .
4. 4. The method of claim 1,

   the method further includes determining a chronological order of the geographic storage locations of the K items included in the M orders in the physical warehouse;

   the sorting of the N electronic labels further comprises determining an order of the electronic labels corresponding to the K types of goods according to the order of the geographical storage locations of the K types of goods.
5. 5. The method of , wherein the electronic tag includes a reserved field in its data format;

   the method further includes:

   generating at least pieces of box and label information, wherein the box and label information comprises second order attribute information;

   to every case mark information, all carry out:

   determining an electronic tag corresponding to the box label information according to the second order attribute information included in the box label information;

   and filling the information of the box label into the th field of the corresponding electronic tag.
6. 6, kinds of warehousing business implementation methods, characterized by, including:

   printing N physical labels by the method of acquiring labels in warehousing business as claimed in any one of claims 1 to 5 ;

   sorting out N boxes of goods included in the M orders from a warehouse in sequence;

   placing N boxes of goods, and placing the goods of the same type as in ;

   posting the N physical labels on the N boxes of merchandise on a shelf.
7. 7. The method of claim 6, wherein said placing N boxes of cargo further comprises :

   and determining the placing sequence among the K kinds of cargos according to the sequence of the geographic storage positions of the K kinds of cargos.
8. 8, apparatus for obtaining labels in warehousing, comprising:

   the order processing module is used for receiving M orders; wherein M is a positive integer;

   the interface module is used for triggering a third-party carrier to generate N electronic labels aiming at the M orders received by the order processing module and receiving the N electronic labels sent by the third-party carrier, wherein N is a positive integer, and the numerical value of N is equal to the total box number of goods in the M orders;

   the sorting module is used for sorting the N electronic tags received by the interface module and arranging the electronic tags corresponding to the same kinds of goods at ;

   and the printing module is used for printing the N electronic labels according to the sequence sequenced by the sequencing module.
9. 9. The apparatus of claim 8,

   the sorting module is further configured to , where the sorting module is configured to obtain a sequence of geographic storage locations of the K kinds of goods included in the M orders in the entity warehouse, and determine an arrangement sequence of the electronic tags corresponding to the K kinds of goods according to the sequence of the geographic storage locations of the K kinds of goods when the sorting is performed.
10. 10. The apparatus according to claim 8 or 9, wherein the data format of the electronic tag comprises th field reserved;

    , it includes a box label information process module,

    the information processing module of the box label is used for generating at least box label information, the box label information comprises second order attribute information, before the printing module prints the N electronic labels, the information processing module of the box label executes the information of each box labels, the information processing module of the box label determines the electronic label corresponding to the box label information according to the second order attribute information included in the box label information, and the box label information is filled in the field of the corresponding electronic label.

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