CN114626780A

CN114626780A - Warehouse-out operation method, electronic equipment, medium and product

Info

Publication number: CN114626780A
Application number: CN202210150902.8A
Authority: CN
Inventors: 魏威
Original assignee: Beijing Kuangshi Robot Technology Co Ltd
Current assignee: Beijing Kuangshi Robot Technology Co Ltd
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-06-14

Abstract

The embodiment of the application provides a warehouse-out operation method, which comprises the following steps: matching the goods detail information of goods in the container to be delivered with the original label information configured on the container to be delivered; and under the condition that the two are not matched, triggering to execute the ex-warehouse correction operation, wherein the ex-warehouse correction operation comprises the following steps: generating ex-warehouse sub-label information and correction information based on the cargo detail information and the original label information; and performing ex-warehouse operation on part or all goods in the container based on the ex-warehouse sub-label information; the correction information is used for indicating that warehousing and/or supplementary ex-warehouse operation is carried out on the goods corresponding to the first difference information between the goods detail information and the original label information; the goods in the ex-warehouse sub-label information are classified in the original label information, and the number of the goods in each classification is smaller than or equal to the number recorded in the original label information.

Description

Warehouse-out operation method, electronic equipment, medium and product

Technical Field

The present application relates to the field of warehousing technologies, and in particular, to a warehouse-out operation method, an electronic device, a medium, and a product.

Background

In the warehousing operation, sorting, binning and delivery are performed, wherein sorting means taking out the goods required by a plurality of orders from the shelves, and then binning the taken goods according to the orders. After the boxes are separated, the warehouse can be taken out.

In practice, label information is generally generated according to an order, information such as the type of goods to be transported, the number of the goods in each type, and a receiving address is recorded on the label information, the label information is printed and then attached to a container, and when the container needs to be taken out of a warehouse, the goods stored in the container are checked according to the label information so as to judge whether a real object stored in the container is consistent with the record of the label information. For example, whether the type of the goods stored in the container matches the type described in the tag information, and whether the number of the goods in each type matches the type described in the tag information.

In the related art, when the discrepancy between the goods stored in the container and the label information is checked, the delivery of the container is suspended, and the delivery of the container is started after the goods stored in the container are subjected to error correction until the goods stored in the container and the label information are consistent. However, the error correction includes the situations of manually re-picking the missing goods, re-replacing the goods with different categories and the like, and the waiting time is long, so that the delivery efficiency is not high, and the delivery time of the delivery place client is prolonged.

Disclosure of Invention

In view of the above problems, a method, an electronic device, a medium, and a product of an ex-warehouse operation according to embodiments of the present application are proposed to overcome or at least partially solve the above problems.

In a first aspect of an embodiment of the present application, a method for ex-warehouse operation is provided, where the method includes:

matching the cargo detail information of the cargo in the container to be delivered with the original label information configured for the container to be delivered;

and under the condition that the two are not matched, triggering to execute the ex-warehouse correction operation, wherein the ex-warehouse correction operation comprises the following steps:

generating ex-warehouse sub-label information and correction information based on the cargo detail information and the original label information; the partial or all goods in the container to be delivered are delivered based on the delivery sub-label information;

the correction information is used for indicating warehousing and/or supplementary ex-warehouse operation of the goods corresponding to the first difference information between the goods detail information and the original label information; the goods types included in the ex-warehouse sub-label information appear in the original label information, and the number of the goods corresponding to each goods type is smaller than or equal to the number recorded in the original label information.

Optionally, the method further comprises at least one of:

carrying out warehousing operation on redundant goods indicated by the correction information;

and performing supplementary delivery operation on the goods which are lack and indicated by the correction information.

Optionally, the supplementary delivery operation is performed on the missing goods indicated by the correction information, and includes:

generating corresponding replenishment sub-label information based on the original label information and the goods lacking indicated by the correction information, and associating the replenishment sub-label information with the original label information;

executing the delivery operation of the replenishment container configured with the replenishment sub-label information;

wherein, the replenishment sub-label information comprises the category and/or the quantity of the missing goods.

Optionally, the executing the warehouse-out operation of the replenishment container configured with the replenishment sub-label information includes:

detecting whether the cargo detail information corresponding to the replenishment container is matched with the replenishment sub-label information;

and in case of no match, triggering to execute the ex-warehouse ordering operation aiming at the restocking ex-warehouse operation.

Optionally, the cargo detail information includes multiple pieces of cargo data, and the generating of ex-warehouse sub-tag information and correction information based on the cargo detail information and the original tag information includes:

matching each piece of cargo data in the cargo detail information with the original label information to obtain a matching result; the matching result is used for representing whether the goods data are consistent with the goods data recorded in the original label information or not, and the goods data comprise goods categories and goods quantity;

determining first goods sub-detail information matched with the original label information and second goods sub-detail information unmatched with the original label information based on the matching result and the goods detail information;

generating the ex-warehouse sub-label information based on the first goods sub-detail information; and generating the correction information based on the second cargo detail information.

Optionally, determining, based on the matching result and the cargo detail information, first cargo sub-detail information that matches the original tag information and second cargo sub-detail information that does not match the original tag information, including:

adding first target data in the cargo detail information into an unmatched data set, and adding second target data in the cargo detail information into a matched data set; the goods category corresponding to the first target data is not included in the original label information; the goods category corresponding to the second target data and the corresponding goods quantity are consistent with those recorded by the original label information;

determining second difference information between the quantity of the goods corresponding to the remaining goods data and the quantity of the goods recorded in the original label information aiming at the remaining goods data except the first target data and the second target data in the goods detail information; the second difference information comprises a difference type and a difference quantity;

reserving or updating the quantity of the goods recorded by each piece of remaining goods data based on the second difference information to obtain first sub-goods data to be added into the matching data set; generating second sub-cargo data to be added into the unmatched data set based on the second difference information;

adding the first sub-cargo data into the matching data set to obtain the first cargo sub-detail information; and adding the second sub-cargo data into the unmatched data to obtain the second cargo sub-detail information.

Optionally, the performing a supplementary warehouse-out operation on the missing goods indicated by the correction information includes:

determining at least one target correction information matched with the lacked goods from other correction information which is not in a warehousing state currently; the redundant goods included in the other correction information are not put in storage;

and performing the supplementary delivery operation on the missing goods based on the target position of the redundant goods in the target correction information.

Optionally, the warehousing the redundant goods indicated by the correction information includes:

generating at least one piece of sub-warehousing information corresponding to the correction information based on the category of the redundant goods included in the correction information, wherein different pieces of sub-warehousing information include different categories of redundant goods;

and generating a warehousing task corresponding to the sub-warehousing information so as to convey the redundant goods of the category corresponding to the sub-warehousing information to the position corresponding to the category goods.

In a second aspect of the embodiments of the present application, there is also provided an ex-warehouse operation device, including:

the matching module is used for matching the cargo detail information of the cargo in the container to be delivered with the original label information configured for the container to be delivered;

the correction module is used for triggering and executing the ex-warehouse correction operation, and the ex-warehouse correction operation comprises the following steps:

the correction information is used for indicating that warehousing and/or supplementary ex-warehouse operation is carried out on the goods corresponding to the first difference information between the goods detail information and the original label information; the goods categories included in the ex-warehouse sub-label information appear in the original label information, and the number of the goods corresponding to each goods category is smaller than or equal to the number recorded in the original label information.

An embodiment of the present application further discloses an electronic device, which includes a memory, a processor, and a computer program stored on the memory, where the processor executes the computer program to implement the ex-warehouse operation method according to the first aspect.

The embodiment of the present application further discloses a computer-readable storage medium, on which a computer program/instruction is stored, and when the stored computer program/instruction is executed by a processor, the method for performing a ex-warehouse operation according to the embodiment of the first aspect of the present application is implemented.

The embodiment of the present application further discloses a computer program product, which includes a computer program/instruction, and when the computer program/instruction is executed by a processor, the method for performing a library operation according to the embodiment of the first aspect is implemented.

By adopting the ex-warehouse operation method provided by the embodiment of the application, the ex-warehouse correction operation is triggered under the condition that the cargo detail information corresponding to the container to be ex-warehouse is determined to be unmatched with the original label information configured on the container, and the ex-warehouse correction operation comprises the following steps: generating ex-warehouse sub-label information and correction information based on the cargo detail information and the original label information; carrying out ex-warehouse operation on part or all goods in the container to be ex-warehouse based on the ex-warehouse sub-label information; the correction information can be used for indicating that warehousing and/or supplementary ex-warehouse operation are/is carried out on the goods corresponding to the first difference information between the goods detail information and the original label information.

The embodiment of the application at least comprises the following advantages:

because the goods stored in the container are not consistent with the goods recorded by the original label information, the part or all of the goods which are consistent with the original label information in the container can be preferentially taken out of the container based on the out-of-warehouse sub-label information, and the goods which are different from the goods recorded by the original label information can be put in the container and/or taken out of the container complementarily according to the correction information, so that the goods included in the out-of-warehouse sub-label information can be taken out of the container in advance under the condition that the goods stored in the container are not consistent with the goods recorded by the original label information, and the long-time-consuming goods correction is not needed. Thus, the long time-consuming delivery waiting is avoided when the error correction comprises the situations of manually re-picking the missing goods, re-replacing the goods with different categories and the like.

By adopting the ex-warehouse operation method, on one hand, the ex-warehouse efficiency of the order is improved, and the goods in the order can be received by the customer at the receiving place as early as possible. On the other hand, as part or all of the goods in the container to be delivered can be delivered in advance, the correction of the goods in the container to be delivered is not required to be waited, such as replenishment or replacement of the goods, so that the problems that the corrected container to be delivered is always retained in the warehouse to cause the accumulation of the containers and the large occupied space in the waiting process are avoided, and the delivery efficiency is further improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required to be used in the description of the embodiments of the present application will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings may be obtained according to these drawings without inventive labor.

FIG. 1 is a flowchart illustrating steps of a method for ex-warehouse operations according to an embodiment of the present application;

FIG. 2 is a flowchart illustrating steps of a flowchart for generating outbound sub-label information and correction information according to an embodiment of the present application;

FIG. 3 is a flowchart illustrating steps for performing supplemental outbound operations on goods according to one embodiment of the present application;

FIG. 4 is a flowchart illustrating the steps of checking the outbound details according to one embodiment of the present application;

FIG. 5 is a schematic view of an overall process of the ex-warehouse operation method according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a warehouse-out operation device according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying figures of the present application are described in detail below, clearly and completely, and it is to be understood that the described embodiments are part of the present application and not all of the 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 application.

With the development of Intelligent technologies such as internet of things, artificial intelligence and big data, the requirement of transforming and upgrading the traditional Logistics industry by using the Intelligent technologies is stronger, and Intelligent Logistics (Intelligent Logistics System) becomes a research hotspot in the Logistics field. The intelligent logistics utilizes artificial intelligence, big data, various information sensors, radio frequency identification technology, Global Positioning System (GPS) and other Internet of things devices and technologies, is widely applied to basic activity links of transportation, storage, distribution, packaging, loading and unloading of goods, information service and the like, and realizes intelligent analysis and decision, automatic operation and high-efficiency optimization management in the goods management process. The internet of things technology comprises sensing equipment, an RFID technology, laser infrared scanning, infrared induction recognition and the like, the internet of things can effectively connect goods in logistics with a network, the goods can be monitored in real time, environmental data such as humidity and temperature of a warehouse can be sensed, and the storage environment of the goods is guaranteed. All data in logistics can be sensed and collected through a big data technology, the data are uploaded to an information platform data layer, operations such as filtering, mining and analyzing are carried out on the data, and finally accurate data support is provided for business processes (such as links of transportation, warehousing, storing and taking, sorting, packaging, sorting, ex-warehouse, checking, distribution and the like). The application direction of artificial intelligence in logistics can be roughly divided into two types: 1) the AI technology is used for endowing intelligent equipment such as an unmanned truck, an AGV, an AMR, a forklift, a shuttle, a stacker, an unmanned distribution vehicle, an unmanned aerial vehicle, a service robot, a mechanical arm, an intelligent terminal and the like to replace part of labor; 2) the labor efficiency is improved through software systems such as a transportation equipment management system, a storage management system, an equipment scheduling system, an order distribution system and the like driven by technologies or algorithms such as computer vision, machine learning, operation optimization and the like. With the research and progress of intelligent logistics, the technology is applied to a plurality of fields, such as retail and electric commerce, electronic products, tobacco, medicine, industrial manufacturing, shoes and clothes, textile, food and the like.

In the related art, in a distribution link in the logistics field, goods in an order are generally delivered according to label information, wherein the label information is generated according to the order, and the goods in a container are generally manually picked into the container, so that the content recorded in the label information is consistent with the order, and the goods in the container are manually picked, so that the problems of missed picking, wrong picking, multiple picking and the like of the goods inevitably occur. Therefore, when the container corresponding to each order is delivered, it is necessary to check whether the goods in the container are consistent with the label information based on the label information.

If the goods in the container are inconsistent, the goods in the container need to be corrected and then delivered out of the warehouse. For example, if the container is out of stock after being sorted to the container compared with the label information, if the container is wrong in sorting of the goods compared with the label information, for example, the goods required in the order are pencils, and the pen is stored in the container, the pen needs to be replaced by the pencil and then the goods need to be sorted out of stock, and the sorting process is long, and the sorting efficiency is low.

In view of this, the present application provides a warehouse-out operation method, and the core concept is as follows: when goods in the container are inconsistent with the recorded label information, the ex-warehouse sub-label information is generated for the goods which can be ex-warehouse currently in the container, then the goods which can be ex-warehouse are ex-warehouse firstly based on the ex-warehouse sub-label information, and then the goods which need to be restocked or replaced are subjected to subsequent supplementary ex-warehouse operation, so that the current container to be ex-warehouse can be ex-warehouse on time, and the goods do not need to be ex-warehouse after error correction is completed, and therefore the ex-warehouse efficiency is improved.

First, a communication environment according to an optional embodiment of the present application is introduced, including an intelligent device, a server, and an information acquisition device, where the information acquisition device is in communication connection with the intelligent device, and the intelligent device is in communication connection with the server.

The ex-warehouse operation method can be executed by the server, the intelligent device or both the server and the intelligent device, and the client can be operated on the intelligent device to display information in the ex-warehouse operation process, such as correction information, ex-warehouse sub-label information, replenishment sub-label information and the like.

The intelligent device can communicate with the server and the information acquisition device, and report the generated correction information, the ex-warehouse sub-tag information and the result of executing the ex-warehouse operation to the server. The server is used for acquiring the correction information, the ex-warehouse sub-label information, the reported result and the like generated by the intelligent equipment, further storing the results to guide subsequent supplementary ex-warehouse and redundant goods warehousing, and can be used for storing the order information of each order to be ex-warehouse.

The information acquisition equipment and the intelligent equipment can be integrated in one equipment or can be independent equipment.

Wherein, smart machine and information acquisition equipment can set up in the department of leaving warehouse, and in reality, a warehouse can have a plurality of departments of leaving warehouse, and every department of leaving warehouse all is used for treating the container of leaving warehouse and carries out the operation of leaving warehouse, specifically speaking, can treat the goods in the container of leaving warehouse and check, and after checking the completion, packing the goods that can leave warehouse and leave warehouse. The warehouse comprises a warehouse area, a storage position and a storage position, wherein the storage position of redundant goods can be further arranged near the warehouse outlet position of the warehouse, the storage position of the redundant goods is used for storing the redundant goods in a container, when the missing goods need to be restocked, the restocking can be selected from the goods stored in the storage position of the redundant goods nearby, the warehouse area is used for storing the goods to be delivered, and generally, when the goods to be delivered are selected according to orders, the needed goods are selected from the warehouse area.

Of course, in some other embodiments, the ex-Warehouse operation method of the present application may be performed by a software System, for example, a WES (ware Execution System) System. The WES can work together with a plurality of WCSs (ware house Control systems ), and is very suitable for unmanned warehouses with high automation degree, such as scenes of a plurality of line side warehouses in intelligent logistics projects in factories with a plurality of automation devices and complicated logistics routes. Based on the characteristic that the WES has obvious advantages in the execution logic of the operation tasks, such as the selection of logistics routes, the sorting sequence and the like, the WES can be used for executing the ex-warehouse operation method.

Referring to fig. 1, a flowchart of steps of the ex-warehouse operation method of the present application is shown, and as shown in fig. 1, the method may specifically include the following steps:

step S101: and matching the cargo detail information of the cargo in the container to be delivered with the original label information configured for the container to be delivered.

The cargo detail information at least includes the category and the quantity of the cargo stored in the container, and in some cases, may also include information such as the name and the identification of the cargo. The original label information is generally a text with a fixed format generated according to an order, and is printed and posted to the container when the container is delivered, so that the original label information is configured on each container to be delivered, and is used for recording the type and the number of the goods in the container and the delivery address to be delivered.

Since the goods stored in the container to be delivered from the warehouse are obtained through the processes of earlier picking, sorting and the like, the problem of wrong goods picking or wrong sorting may inevitably occur in the picking and sorting, and therefore, the goods stored in the container to be delivered from the warehouse are not necessarily consistent with the goods recorded on the original label information, and therefore, when the container to be delivered from the warehouse is delivered from the warehouse, at least whether the category and the number of the goods stored in the container to be delivered from the warehouse are consistent with the goods recorded on the original label information needs to be checked.

During specific implementation, cargo information of the cargo in the container to be delivered can be acquired through the information acquisition equipment, such as scanning of a bar code of the cargo, and after scanning is completed, cargo detail information of the cargo in the container to be delivered is obtained. Specifically, the cargo detail information may show the category and the quantity of the cargo stored in the container to be delivered from the warehouse through a plurality of pieces of cargo data, one piece of cargo data corresponds to one category of cargo, and each piece of cargo data records the category of the cargo and the quantity of the cargo of the category.

For example, when 10 pencils and 3 erasers are stored in the container, the barcode of the 10 pencils and the barcode of the 3 erasers are scanned, and the obtained detailed information of the goods includes 10 pencils and 3 erasers.

In still other implementations, the information collecting device may be an image collecting device, such as a camera, and when the cargo detail information is obtained, image information of the cargo in the container may be collected by the image collecting device, and then the image information is subjected to image recognition to determine the category of the cargo, so as to obtain the cargo detail information.

The category of the goods may refer to the category to which the goods belong, and is a category with a relatively coarse granularity, such as a pencil, an eraser, a cup, and the like. Under further elaboration, categories may also include a goods category, i.e., a category to which the goods themselves belong, and a brand category, which is used to identify the merchant from which the goods emanate. For example, in the above example, when 10 pencils and 3 erasers are stored in the container, 2 out of the 10 pencils are of brand a, and the other 8 are of brand B, 2 pencils from brand a, 8 pencils from brand B, and 3 erasers from brand C are described in the goods detail information. Specifically, the goods detail information includes 3 pieces of data, which correspond to a brand a pencil, a brand B pencil, and a brand C eraser, respectively.

Under the condition that the categories comprise commodity categories and brand categories, the warehouse can be more adaptive to orders in the warehousing field, and the accuracy of goods discharged from the warehouse is improved. In this case, the goods category described in the original tag information includes a product category and a brand category.

After the goods detail information is acquired, the categories of the goods and the quantity of the goods in each category recorded in the goods detail information are respectively matched with the categories of the goods needing to be delivered and the quantity of the goods in each category recorded in the original label information, so that whether the categories and the quantity of the goods stored in the container to be delivered are consistent with those recorded in the original label information is determined.

And triggering the warehouse-out correction operation under the condition that the goods stored in the container to be warehoused are not matched with the goods recorded by the original label information. The ex-warehouse correction operation comprises the following steps: and (4) delivering the goods which can be delivered currently in the container to be delivered, and performing later abnormal treatment on part of goods which are different from the original label information records.

As shown in fig. 1, the ex-warehouse correction operation includes the following steps:

step S102: and generating ex-warehouse sub-label information and correction information based on the cargo detail information and the original label information.

The goods categories included in the ex-warehouse sub-label information appear in the original label information, and the quantity of the goods corresponding to each goods category is less than or equal to the quantity recorded in the original label information; and the correction information is used for indicating that warehousing and/or supplementary ex-warehouse operation is carried out on the goods corresponding to the first difference information between the goods detail information and the original label information.

Step S103: and based on the ex-warehouse sub-label information, carrying out ex-warehouse on part or all goods in the container.

In this embodiment, by comparing the detailed information of the goods corresponding to the container to be delivered from the warehouse with the original tag information, it can be determined whether the category and the number of the goods stored in the container are both consistent with those recorded in the original tag information. When any one of the category and the quantity is not matched, it can be determined that the cargo detail information is not matched with the original label information, which indicates that the cargo stored in the container is not consistent with the original label information, that is, is inconsistent with the order record.

For example, when 10 pencils and 3 erasers are described in the item specification information and 8 pencils and 1 eraser are described in the original label information, the item specification information and the original label information do not match each other and are considered to be mismatched.

When the goods are inconsistent with the original label information, the ex-warehouse sub-label information and the correction information can be generated based on the goods detail information and the original label information, the ex-warehouse sub-label information is used for indicating the goods types and the goods quantity which can be ex-warehouse currently in the container to be ex-warehouse, the correction information is used for indicating the goods types and the goods quantity which can not be ex-warehouse currently in the container to be ex-warehouse, and the correction information can be used for indicating the goods types and the goods quantity which are lacked in the container to be ex-warehouse.

During specific implementation, the category and the quantity of each piece of goods data in the goods detail information can be matched with those recorded in the original tag information, so that the multiple pieces of goods data of the goods detail information can be split based on the matching result to obtain goods data which can be delivered from a warehouse and goods data which need abnormal processing, the goods data which need abnormal processing serve as first difference information, and the current goods data which can be delivered from the warehouse are used for generating the delivery sub-tag information. The first difference information records the goods detail of the difference between the category and/or the quantity of the goods stored in the container to be delivered and the original label information.

In the cargo data that can be delivered, the category of the cargo is necessarily matched with the original tag information, and the quantity of the cargo represents the quantity that can be delivered, and generally speaking, the quantity that can be delivered is less than or equal to the quantity described in the original tag information, wherein the quantity that can be delivered is generally obtained by comparing the quantity described in the cargo detail information with the quantity described in the original tag information. If the number described in the item detail information is greater than the number described in the original tag information, the number of exportable items is the number described in the original tag information, and if the number described in the item detail information is less than the number described in the original tag information, the number of exportable items is the number described in the item detail information.

In the first difference information, the goods data with the difference between the category and/or the quantity and the original tag information are recorded, for example, if the category of the goods is not recorded in the original tag information, the whole goods data in the goods detail information is split to be used as the goods data which cannot be delivered. If the category of the goods is recorded in the original tag information, the difference quantity and the difference type corresponding to the piece of goods data in the first difference information can be further determined according to the difference value between the quantity of the goods of the category recorded in the goods detail information and the quantity recorded in the original tag information detail, so as to serve as the goods data needing exception handling.

If the quantity recorded in the detail information of the differential type representation goods is less than the quantity recorded in the original label information, the goods shortage is indicated; therefore, exception handling can be performed based on the difference type and the difference quantity, for example, warehousing is performed on redundant goods, and supplementary ex-warehousing is performed on the missing goods.

The ex-warehouse sub-label information is mainly used for indicating the current goods which can be ex-warehouse in the container to be ex-warehouse, so that part or all goods in the container to be ex-warehouse can be ex-warehouse based on the ex-warehouse sub-label information, and specifically, the goods of corresponding categories can be ex-warehouse according to the categories and the number of the goods which can be ex-warehouse recorded in the ex-warehouse sub-label information.

The generated correction information may instruct warehousing and/or supplementary warehouse-out operations to be performed on the goods indicated by the first difference information, where the warehousing and/or supplementary warehouse-out operations may be collectively referred to as warehouse-out exception handling. Of course, in the warehousing field, the supplementary warehouse-out operation refers to the later stage of independent warehouse-out of the missing goods.

When partial or all goods in the container to be delivered are delivered based on the delivery sub-label information, the original label information configured on the container to be delivered can be updated to the delivery sub-label information, and delivery operation is performed. That is, the ex-warehouse sub-label information is used as the label information of the new configuration of the container to be ex-warehouse.

In actual operation, the warehouse-out sub-label information can be printed and covered on the original label information of the container to be warehoused, and then the goods which can be warehoused from the container to be warehoused are warehoused according to the category and the quantity of the goods recorded in the warehouse-out sub-label information. For example, in the scene of shortage of goods, all goods in the container are directly taken out of the container along with the information of the ex-warehouse sub-label, and in the scene of multiple goods, after taking out the redundant goods, part of the goods in the container are taken out of the container. Therefore, the goods do not need to be delivered after the error correction processing is finished, particularly under the condition of goods shortage or goods error, the goods do not need to be replenished or replaced and then delivered, and the replenished or replaced goods can be delivered at the later stage through the replenishing delivery operation, so that the delivery efficiency is improved.

And because partial or all goods in the container can be delivered out of the warehouse in advance according to the delivery sub-label information, the error correction of the goods in the container to be delivered out of the warehouse is not needed, the problems that the containers to be delivered out of the warehouse are accumulated and occupy larger space due to the fact that the error-corrected containers to be delivered out of the warehouse are always retained in the warehouse in the waiting process are avoided, and the delivery efficiency is further improved.

Of course, in an embodiment, in a case where the cargo detail information matches the original tag information, that is, in a case where the category and the number of the cargo stored in the container to be delivered are both consistent with the category and the number of the cargo described in the original tag information, the delivery operation may be performed on all the cargo stored in the container to be delivered based on the original tag information.

As described in the above embodiments, the ex-warehouse exception handling may include: and the supplementary warehouse-out operation and the redundant goods warehouse-in operation. When the first difference information included in the correction information includes the missing goods, supplementary warehouse-out operation can be performed on the missing goods indicated by the correction information, and when the first difference information included in the correction information includes the redundant goods, warehouse-in operation can be performed on the redundant goods indicated by the correction information.

In practice, because some or all of the goods in the container to be delivered are delivered along with the delivery sub-tag information, the goods lacking as indicated by the order information can be taken as replenishment goods for the order to be delivered separately, specifically, in order to ensure the association between the delivery of the replenishment goods and the container delivered, the goods for replenishment and the goods delivered from the previous stage belong to the same order, and when the replenishment goods are subjected to the replenishment delivery operation, the corresponding replenishment sub-tag information can be generated based on the lacking goods and the original tag information indicated in the order information; then, the replenishment sub-label information is associated with the original label information, so that the delivery operation of the replenishment container configured with the replenishment sub-label information is performed.

When the delivery operation is performed based on the replenishment sub-label information, the difference cargo may be complementarily delivered based on the category and the number of the cargo described in the replenishment sub-label information. With this embodiment, goods for later replenishment can be individually delivered, for example, 2 missing erasers can be individually loaded into one container, and then the container is labeled with replenishment sub-label information, and then 2 erasers in the container are delivered.

In practice, the replenishment sub-label information and the delivery sub-label information are associated with the original label information on the container to be delivered, so as to indicate that the goods included in the replenishment sub-label information and the delivery sub-label information belong to the same order. In the warehouse-out operation method according to the embodiment of the application, if a situation that goods shortage needs to be replenished occurs, the delivery of goods in an order is completed through two containers, wherein one container is provided with the warehouse-out sub-label information, and the other container is provided with the replenishment sub-label information.

In one embodiment, when the replenishment container configured with the replenishment sub-label information is delivered from the warehouse based on the replenishment sub-label information, when the arrival of the replenishment container is detected, whether the cargo detail information corresponding to the replenishment container is matched with the replenishment sub-label information or not can be further detected; and in case of no match, triggering to execute the warehouse-out correction operation aiming at the restocking warehouse-out operation.

Specifically, when a replenishment container arrives, the tasks of steps S101 to S103 are still performed, that is, the replenishment container is regarded as a new container to be delivered, it is checked whether the type and quantity of the goods stored in the replenishment container are consistent with those described in the replenishment sub-label information, and if not, the above-described delivery correction operation is still performed until no new replenishment sub-label information is associated with the original label information.

A process of generating the ex-warehouse sub-label information and the correction information based on the cargo detail information and the original label information will be described.

As described in the above embodiment, each piece of cargo data recorded in the cargo detail information may be matched one by one with reference to the description of the original tag information, so as to obtain a matching result, where the matching result is a result of whether the category and the number corresponding to each piece of cargo data in the cargo detail information are respectively matched with the original tag information. Then, each piece of goods data in the goods detail information can be processed according to the matching result, and the ex-warehouse sub-label information and the correction information are obtained.

In specific implementation, referring to fig. 2, a flowchart of steps for generating ex-warehouse sub-tag information and correction information is shown, and as shown in fig. 2, the steps may specifically include the following steps:

step S201: matching each piece of cargo data in the cargo detail information with the original label information to obtain a matching result; and the matching result is used for representing whether the goods data is consistent with the goods data recorded in the original label information or not, and the goods data comprises goods categories and goods quantity.

Step S202: and determining first goods sub-detail information matched with the original label information and second goods sub-detail information unmatched with the original label information based on the matching result and the goods detail information.

Step S203: and generating the ex-warehouse sub-label information based on the first goods sub-detail information, and generating the correction information based on the second goods sub-detail information.

The category of each piece of goods data in the first goods sub-detail information appears in the original label information, the quantity of the goods recorded in each piece of goods data is less than or equal to the quantity of the goods recorded in the original label information, the goods category corresponding to each piece of goods data in the second goods sub-detail information does not appear in the original label information or the category appears in the original label information, but the recorded goods quantity is the difference quantity between the quantity of the goods in the container to be delivered and the quantity recorded in the original label information.

The first goods sub-detail information records the goods data of which the category appears in the original label information and the quantity of the goods is less than or equal to the quantity recorded in the original label information, so that the ex-warehouse sub-label information can be generated based on the first goods sub-detail information.

The second cargo sub-detail information is recorded as cargo data of which the category does not appear in the original label information or the quantity of the cargo is different from that recorded in the original label information, and the cargo corresponding to the part of the cargo data either needs to be warehoused or needs to be restocked, or possibly needs to be warehoused and restocked at the same time, so that order information can be generated based on the second cargo sub-detail information, and warehousing and/or supplementary ex-warehouse operation is performed on the cargo corresponding to the first difference information through the order information indication.

As described above, since the first difference information may include the difference amount and the difference type corresponding to each piece of goods data, the corresponding goods may be warehoused or complementarily warehoused based on the difference type and the difference amount.

During specific implementation, the data on matching of the cargo type and the cargo quantity in the cargo detail information can be included in the matching data set, and the cargo data on which the cargo type is not matched can be included in the unmatched data set; and recombining the goods data with the matched categories and the unmatched quantity according to the quantity and the type of difference between the quantity of the goods corresponding to the goods data and the quantity of the goods recorded in the original label information, so as to obtain the goods data to be added into the matched data set and the goods data added into the unmatched data set, wherein the goods data in the matched data set form first goods sub-detail information, and the goods data in the unmatched data set form second goods sub-detail information.

In specific implementation, the process of obtaining the first cargo sub-detail information and the second cargo sub-detail information may be as follows:

firstly, adding first target data in the cargo detail information into an unmatched data set, and adding second target data in the cargo detail information into a matched data set; the goods category corresponding to the first target data does not appear in the original label information; the goods category and the corresponding goods quantity corresponding to the second target data are consistent with those recorded by the original label information.

Then, second difference information between the quantity of the goods corresponding to the remaining goods data and the quantity of the goods recorded in the original label information is determined for the remaining goods data except the first target data and the second target data in the goods detail information; the second difference information includes a difference type and a difference number.

Then, reserving or updating the quantity of the goods recorded in each piece of remaining goods data based on the second difference information to obtain first sub-goods data; and generating second child cargo data based on the second difference information.

Then, adding the first sub-cargo data into the matching data set to obtain the first cargo sub-detail information; and adding the second sub-cargo data into the unmatched data to obtain the second cargo sub-detail information.

In this embodiment, the unmatched data set is used to record the goods data of which the category does not appear in the original tag information and the data of which the quantity of the goods does not conform to the original tag information, and the matched data set is used to store the goods data of which the category appears in the original tag information and the quantity of the goods is less than or equal to the quantity recorded in the original tag information. Generally, the goods data recorded in the matching data set are goods that can be delivered from the container to be delivered.

In specific implementation, cargo data of which the category does not appear in the original tag information can be added into the unmatched data set, and cargo data of which the category appears in the original tag information and the quantity of the cargo is consistent with the record of the original tag information can be added into the matched data set. In this way, the remaining item data in the item detail information is item data in which the category appears in the original tag information, but the number of items is smaller or larger than the number described in the original tag information.

Next, the difference amount and the difference type between the amount of the goods recorded in each piece of remaining goods data and the amount recorded in the original tag information may be determined, thereby constituting second difference information corresponding to each piece of remaining goods data, and the second difference information may reflect whether the remaining goods data is in a good-over state or a bad-out state, and the excess amount in the good-over state and the missing amount in the bad-out state with respect to the original tag information.

In this way, the remaining cargo data may be retained or the number of cargos described in the remaining cargo data may be updated based on the second difference information, thereby obtaining the first child cargo data. For example, when the difference type is the short-order type, the remaining item data may be directly retained to obtain the first sub item data, and when the difference type is the multiple item type, the item quantity described in the remaining item data may be updated to the item quantity described in the original tag information to obtain the first sub item data, and the first sub item data may be directly added to the matching data set to form the first item sub detail information.

And generating second child cargo data based on the difference quantity and the difference type in the second difference information, wherein the difference type can reflect that the goods are multiple goods or short goods, and the difference quantity refers to the quantity of the multiple goods or the quantity of the short goods, so that the generated second child cargo data corresponds to the goods which are short goods or multiple goods and can indicate the quantity of the short goods or the quantity of the multiple goods. And adding the second sub-cargo data into the unmatched data set to indicate warehousing or replenishment of corresponding cargos.

Illustratively, 10 pencils and 3 erasers are stored in the container, 8 pencils and 1 eraser are recorded in the original label information, the data of the pencils in the goods detail information should be retained to the matching data set, and then the difference quantity of the pencil quantity between the goods detail information and the original label information is 1, and second sub-goods data is generated according to the category of the pencils to indicate that the number of the different pencils is 1, and the second sub-goods data is added to the unmatched data set.

Further, for example, 10 pencils and 3 erasers are stored in the container, 8 pencils and 1 eraser are recorded in the original tag information, if the number of data records of the erasers in the cargo detail information needs to be updated to the number recorded in the original tag information, the data added to the matching data set is "1 eraser", and then if the number of the erasers different from the number of data records in the cargo detail information and the original tag information is 2, second child cargo data is generated according to the type of the erasers to indicate 2 erasers, and the second child cargo data is added to the unmatched data set.

As seen from the above examples, there may be many mismatched situations, for example, if there are goods whose categories do not match but the quantity of the goods matches, there are goods whose categories match but the quantity of the goods does not match, there are goods whose categories and quantity do not match, and there are many different types of differences, including the type of shortage, the type of the multiple goods, and some containers even including both the type of shortage and the type of the multiple goods.

In practice, when the goods of multiple types are the goods which are extra, the goods need to be put in storage in practice, that is, the goods are put back to the shelf or the designated position. For the goods of the out-of-stock type, which means that the goods are the goods that are out of stock, that is, the goods are less placed in the container, the goods need to be filled, that is, the goods are sorted from the shelf and then the goods are delivered out of the warehouse. If a container to be delivered includes both the missing goods and the extra goods, in this case, the container needs to be delivered and delivered simultaneously.

In practice, the corresponding correction information may be generated based on the goods that need warehousing and/or supplementary warehouse-out operations. In specific implementation, the difference type corresponding to each cargo data included in the second cargo sub-detail information may be determined based on the second difference information; the difference type comprises a multiple-item type and a backorder type; generating warehousing correction information based on the goods data of the multiple goods types; and/or generating warehouse-out correction information based on the goods data of the out-of-stock type.

In this embodiment, when determining the difference type corresponding to each cargo included in the second cargo sub-detail information, it may be determined according to the second difference information, that is, the difference type of the cargo whose category is not included in the original tag information in the second cargo sub-detail information is determined as the multiple cargo type; the category in the second goods sub-detail information is included in the original label information, and the difference type of the goods with the quantity representing the goods in the container larger than the quantity recorded in the original label information is determined as a multi-goods type; and including the category in the second goods sub-detail information in the original label information, wherein the difference type of the goods with the quantity representing the quantity of the goods in the container smaller than the quantity recorded in the original label information is determined as the out-of-stock type.

And then, generating warehouse-out correction information based on the data of the goods belonging to the out-of-stock type in the second goods sub-detail information, and generating warehouse-in correction information based on the data of the goods belonging to the multi-goods type in the second goods sub-detail information. The second cargo sub-detail information may include corresponding ex-warehouse correction information and corresponding in-warehouse correction information.

Accordingly, warehousing processing can be performed on the goods of the multiple goods types based on the warehousing entry correction information. Or, based on the delivery correction information, the supplementary delivery operation is performed on the goods of the out-of-stock type. Or, the goods of the multiple goods types are put in the warehouse and processed based on the warehouse entry correction information, and the supplementary warehouse-out operation is carried out on the different goods of the shortage types based on the warehouse-out correction information.

In this embodiment, for warehousing operation, a warehousing task may be issued to the transfer robot based on the category and the number of redundant goods to be warehoused, so that the goods to be warehoused are transferred to the target address through the transfer robot for warehousing processing. Wherein, the transfer robot can be a forklift, an AGV trolley and the like as described in the above embodiments.

In specific implementation, at least one piece of sub-warehousing information corresponding to the correction information can be generated based on the category of the redundant goods included in the correction information, and different pieces of sub-warehousing information include different categories of redundant goods; further generating a warehousing task corresponding to the sub-warehousing information so as to convey the redundant goods of the category corresponding to the sub-warehousing information to the position corresponding to the category,

when the implementation mode is adopted, the sub-warehousing information can be correspondingly generated for each category of goods, so that warehousing tasks are respectively generated for different categories of goods, and the goods of different categories are classified and warehoused to the specified positions.

The warehousing task may include a location of a goods to be warehoused, a target address and a shelf identifier, the target address may refer to a location of a shelf for storing the goods set in the warehouse, the shelf identifier is used to identify the shelf for storing the goods, or the target address may be another address for placing redundant goods in the warehouse.

For the supplementary delivery operation, according to the type and number of the goods described in the order information, processes such as sorting and binning may be performed to obtain a container for the delivery order information, and the container may be delivered to complete delivery of the goods for replenishment. Specifically, the supplementary delivery operation may be performed according to the category and the number of the goods described in the delivery correction information.

In the foregoing, as the warehousing correction information for warehousing is generated, the warehousing correction information is for the multiple-item type goods, in practice, the multiple-item type goods need to be put back to a shelf or a specified position for waiting for next sorting, and in an actual scene, the containers to be warehoused corresponding to multiple orders will produce multiple-item type goods, so that the multiple-item type goods to be warehoused again for waiting for next sorting are numerous.

In one embodiment, where a replenishment shipment operation is to be performed, replenishment may first be performed from among a plurality of multiple-shipment-type shipments already in place. For example, 10 pencils, 10 pens and 20 writing cases are placed on the shelf or at a designated position again to wait for next sorting, and if the goods in the out-of-stock type are 2 pencils, the goods can be replenished from the 2 pencils in the out-of-stock type, so that the quick replenishment of the different goods in the out-of-stock type is completed.

Referring to fig. 3, a flowchart illustrating steps of a supplementary delivery operation for goods is shown, and as shown in fig. 3, the method may specifically include the following steps:

step S301: determining at least one target correction information matched with the lacked goods from other correction information which is not in a warehousing state currently; the unnecessary goods included in the other correction information are not put in storage.

Step S302: and performing the supplementary delivery operation on the missing goods based on the target position of the redundant goods in the target correction information.

In practice, the goods included in the other correction information in the non-warehousing state may be located on a shelf near the ex-warehouse location or at a designated location at the ex-warehouse location, or at a current location which is selected from other containers to be ex-warehouse and has not yet come into warehousing or placed at the designated location.

For example, when the warehousing processing of the goods is performed for the warehousing correction information, the target position may be set at a position closer to the position of the container to be shipped out, and for example, a plurality of shelves may be provided at the shipment position for storing the redundant goods. In this case, the extra goods are not put on the shelf to which the goods originally belong, but put on a shelf near the delivery location, and thus, the goods are not put in the storage. Therefore, the correction information may be used as other correction information in an unstuffed state.

For example, for some goods with large delivery requirements, if the delivery requirements of the pencils are large, when a container to be delivered has multiple pencils, the pencils are directly placed near the delivery position or at the delivery position without being delivered to a warehouse, and then the pencil is directly replenished at the delivery position when the container to be delivered corresponding to other subsequent orders is short of the goods pencils.

The target correction information matched with the missing goods refers to: the target-correction information includes items in accordance with the category of the missing items. Of course, if a plurality of categories of missing goods are included, each piece of target correction information may include one of the categories of the backorder goods, so that the category of the goods included in the entire pieces of target correction information may cover the plurality of categories of the backorder goods.

In this embodiment, based on the position where the goods included in each target correction information are located and the number of the missing goods, a picking task may be issued to the transfer robot to notify the transfer robot to pick out a corresponding number of goods from the position where the goods of each category are located for supplementary delivery.

When the picking task is reached, if the quantity of the missing goods is less than or equal to the quantity of the goods in one piece of target ordering information, the corresponding quantity of goods can be directly picked from the piece of target ordering information, and if the quantity of the missing goods is greater than the quantity of the goods in one piece of target ordering information, the corresponding quantity of goods can be picked from a plurality of pieces of target ordering information with the goods.

When the embodiment is adopted, when the needle is used for supplementary delivery operation, the excess goods which are not delivered are preferentially picked, and the positions where the excess goods are stored are closer to the delivery position, so that the rapid delivery can be realized.

Of course, in still other cases, since the warehouse-out is performed separately for the warehouse-out correction information and the warehouse-in is performed based on the warehouse-in correction information, at least one target sub-warehouse entry information of the goods satisfying the shortage type can be determined from all the sub-warehouse entry information included in at least one target warehouse-in correction information based on the category and the number of the goods included in the warehouse-out correction information; and then, based on the at least one target sub-warehousing information, carrying out supplementary ex-warehousing on the goods of the stock shortage type.

In this embodiment, the goods of the out-of-stock type have a category and a quantity, and the target warehousing correction information includes the category of the goods to be restocked in the ex-warehouse correction information. The warehousing correction information is divided into a plurality of sub-warehousing information according to the category of the goods so as to separately manage the stock of the goods with multiple goods of different categories, so that when at least one target warehousing correction information is obtained, the target sub-warehousing information meeting the quantity of the goods needing replenishment in the ex-warehousing correction information can be determined.

For example, the ex-warehouse correction information includes 2 erasers, and it is determined that the target-warehouse entry information 1 and the target-warehouse entry information 2 have the category of the erasers, but the erasers in the target-warehouse entry information 1 are only 1, and the erasers in the target-warehouse entry information 2 are 3, so that the sub-warehouse entry information belonging to the erasers in the target-warehouse entry information 2 can be used as the target sub-warehouse entry information meeting the ex-warehouse correction information.

By adopting the embodiment, the inventories of different types of goods in the warehousing correction information can be separately managed, and the supplementary delivery is carried out according to the redundant goods in the existing warehousing correction information based on the type and the quantity of the goods required to be supplemented in the delivery correction information.

Of course, if the goods to be restocked are not included in the existing warehousing order information, the goods can be picked and delivered according to the original goods picking and box separating process.

In another embodiment, all goods lacking in the delivery order information can be picked according to the original picking and box separating process.

In another embodiment, the container to be delivered may correspond to a second delivery specification, where the second delivery specification is obtained after recording an identifier of the stored goods when the goods are stored in the container to be delivered; the second delivery particulars comprise the identification of the goods which are picked out of the warehouse and correspond to the containers to be delivered out of the warehouse.

The second delivery details are obtained based on the identification of the goods assigned to the order when the order is picked and delivered, and there is a possibility that the identification of the goods stored in the container and the identification of the assigned goods are not matched by a mistake in the subsequent processes of picking, binning, storing the goods in the container, and the like. For example, the pencil mark assigned to the order is 1-10, and the pencil mark recorded in the second delivery detail is 1-10, but during the picking delivery, the pencil mark possibly stored in the container is 1-9,8, which leads to a situation that the mark of the goods stored in the container is inconsistent with the second delivery detail. This may lead to inconsistent actual inventory and records, which is not conducive to efficient warehousing management.

In this application, in order to avoid the discrepancy between the identification of the shipment and the record in the second shipment details, the second shipment details may be checked based on the identification of the shipment. Referring to fig. 4, a flowchart of the step of checking the second ex-warehouse statement in the present application is shown, and as shown in fig. 4, the method may specifically include the following steps:

step S401: and under the condition of carrying out ex-warehouse operation on part or all goods in the container to be ex-warehouse, acquiring the identification of the goods to be ex-warehouse to obtain a first ex-warehouse detail.

In this embodiment, when the partial or all of the goods in the container are taken out of the warehouse with respect to the information of the ex-warehouse sub-tag, or when the entire goods in the container are taken out of the warehouse with respect to the information of the original tag, and the goods in the replenishment container are taken out of the warehouse with respect to the information of the replenishment sub-tag, the identifier of the goods taken out of the warehouse in the container is collected, and the first ex-warehouse detail is obtained, and the identifier of the goods determined to be taken out of the warehouse is recorded in the first ex-warehouse detail.

The identification of the goods to be delivered from the container can be obtained by collecting the bar codes of the goods to be delivered from the container.

Step S402: determining whether the first export details are consistent with second export details corresponding to the container.

Wherein the second delivery particulars include an identification of the deposited goods recorded at the time of depositing the goods into the container.

In this embodiment, the first ex-warehouse statement and the second ex-warehouse statement may be compared in a consistent manner, so as to determine whether the identifier in the first ex-warehouse statement is also in the second ex-warehouse statement.

Of course, the first delivery particulars and the second delivery particulars may include a plurality of records, with different records being for different identified items. For example, a pencil has 10 notes, identified as 1-10, for the pencil. In practice, the consistency comparison of the first ex-warehouse statement and the second ex-warehouse statement can be performed record by record.

Step S403: and updating the second ex-warehouse particulars based on the first ex-warehouse particulars in case of inconsistency.

In this embodiment, if the identifier of each record in the first ex-warehouse statement is consistent with that recorded in the second ex-warehouse statement, the consistency check passes. And if a record exists, wherein the identifier in the first ex-warehouse detail is inconsistent with the identifier in the second ex-warehouse detail, updating the identifier of the record in the second ex-warehouse detail to the identifier of the record in the first ex-warehouse detail.

For example, if 10 pencils exist, the identifier of the second warehouse-out detail record is 1-10, and the identifier of the first warehouse-out detail record is 1-9,8, the record corresponding to the identifier 10 in the second warehouse-out detail record is updated to the record corresponding to the identifier 8 in the first warehouse-out detail record.

By adopting the embodiment, the identification of the goods actually delivered from the warehouse can be ensured to be consistent with the identification of the goods delivered from the warehouse recorded in the second delivery particulars, so that the purposes that the category and the quantity of the goods in the container actually delivered from the warehouse are consistent with the identification recorded in the original label information on the container and the identification of the goods in the container actually delivered from the warehouse is consistent with the identification of the goods recorded in the second delivery particulars can be achieved, the accuracy of delivery is ensured, and the goods delivered from the warehouse can be traced.

Next, the overall procedure of the ex-warehouse operation method of the present application will be described. Referring to fig. 5, which is a schematic diagram illustrating an overall process of the warehouse-out operation method according to the present application, as shown in fig. 5, when a container to be warehouse-out corresponding to each order arrives, it is determined whether the detail information of the goods stored in the container to be warehouse-out matches with the original label information. That is, it is determined whether the category and the number of the goods stored in the container to be delivered are both consistent with those described in the original tag information.

If not, entering the flow of the ex-warehouse correction operation, wherein the flow of the ex-warehouse correction operation is as described in the above embodiments from step S102 to step S103. As shown in fig. 5, the warehouse-out correction flow mainly includes an S1 flow and an S2 flow, S1 corresponds to a supplementary warehouse-out operation, and S2 corresponds to a warehouse-in operation.

In the supplementary delivery operation in the delivery order process, because the goods in the delivery order information need to be delivered separately in the supplementary delivery operation, the replenishment sub-label information needs to be generated for the goods delivered separately. The determining process of the ex-warehouse correction information refers to the above embodiments, and is not described herein again.

Specifically, replenishment sub-label information corresponding to the ex-warehouse correction information may be generated and associated to the original label information. Then, when detecting that the replenishment container configured with the replenishment sub-label information is delivered from the warehouse, determining whether the cargo detail information corresponding to the replenishment container is matched with the replenishment sub-label information, namely returning to the step: and determining whether the category and the quantity of the goods stored in the container to be delivered are consistent with those recorded in the original label information. And if the information is inconsistent with the information, entering the process of ex-warehouse correction operation, and continuously carrying out ex-warehouse correction on the replenishment containers with the replenishment sub-label information.

As shown in fig. 6, if a replenishment of the replenishment container is necessary again in the process of the shipment order of the replenishment container of the replenishment sub-label information, the process returns to the step of: when detecting that the replenishment container configured with the new replenishment sub-label information is delivered from the warehouse, determining whether the category and the quantity of the goods stored in the container to be delivered from the warehouse are consistent with those recorded in the original label information or not until detecting that no new replenishment sub-label information is associated with the original label information, and completing the delivery operation of all the goods required in the order.

If only warehouse-in operation is included in the warehouse-out correction operation, the warehouse-out process can be ended, warehouse-in correction information according to the warehouse-in operation can be put into the database, and meanwhile, the storage positions of redundant goods are recorded, so that goods lacking in other containers to be warehouse-out can be supplemented nearby.

In practice, when it is detected that no new replenishment sub-label information is associated with the original label information, it indicates that the warehouse-out operation for all the goods required by the order is completed, and the warehouse-out process may also be ended.

The original label information and each replenishment sub-label information and each ex-warehouse sub-label information associated to the original label information can be used as a father node and each ex-warehouse sub-label information as a child node, a tree structure of each replenishment sub-label information is constructed according to the subrelationship among the replenishment sub-label information, and then the tree structure is used as a subtree of the father node, so that a relation tree of the original label information is constructed.

Taking an initial delivery box 1 corresponding to an order a as an example, a delivery operation method of the present application is exemplarily described below, where goods required to be delivered in the order a include 10 pencils and 3 erasers, and goods stored in the box 1 include 10 pencils, 1 eraser, and 1 pen:

firstly, when the box 1 needs to be taken out of a warehouse, the category and the quantity of the goods in the box 1 are collected to obtain goods detail information, and then whether the category and the quantity of the goods stored in the box 1 are consistent with the record of the original label information 1 pasted on the box 1 or not is determined based on the goods detail information and the original label information 1. Of course, it can be seen from the above example that the goods stored in the box 1 do not conform to the original label information.

Then, the operation of warehouse-out correction is entered. Firstly, matching original label information 1 with cargo detail information of a box 1 to determine that 10 pencils and 1 eraser can be taken out of the box 1; 2 goods needing supplementary warehouse-out operation are provided with the erasers, and 1 pen is provided for warehouse-in processing.

Generating ex-warehouse sub-label information, warehouse entry correction information and ex-warehouse correction information based on the original label information 1 and the cargo detail information of the box 1, wherein 10 pencils and 1 eraser are recorded in the ex-warehouse sub-label information; 1 pen is recorded in the warehousing correction information, and 2 erasers are recorded in the ex-warehouse correction information.

And then, generating replenishment sub-label information aiming at the delivery correction information, recording 2 erasers in the replenishment sub-label information, replenishing the 2 erasers, checking whether the cargo detail information of the box 2 is consistent with the replenishment sub-label information when the box 2 for replenishing comes, and delivering the box 2 out of the warehouse if the cargo detail information of the box 2 is consistent with the replenishment sub-label information.

And (3) aiming at the warehousing correction information, the pen 1 is supported to be warehoused to a specified position, so that when other subsequent orders need to be replenished with pens, the pen can be selected from the specified position.

For the user of the order, he or she may receive box 1 and box 2, where box 1 is configured with the outbound sub-label information and box 2 is configured with the replenishment sub-label information, where box 1 and box 2 may arrive at the same time, or box 1 may be received first and then box 2.

Based on the same inventive concept, the embodiment of the present application further discloses a warehouse-out operation device, and as shown in fig. 6, a schematic structural diagram of the warehouse-out operation device is shown, and the warehouse-out operation device specifically includes the following modules:

the matching module 601 is configured to match detailed information of goods in a container to be delivered with original tag information configured for the container to be delivered;

a correction module 602, configured to trigger execution of a warehouse-out correction operation, where the warehouse-out correction operation includes the following steps:

the correction information is used for indicating that warehousing and/or supplementary ex-warehouse operation is carried out on the goods corresponding to the first difference information between the goods detail information and the original label information; the goods types included in the ex-warehouse sub-label information appear in the original label information, and the number of the goods corresponding to each goods type is smaller than or equal to the number recorded in the original label information.

Optionally, the apparatus further comprises at least one of the following steps:

the warehousing operation module is used for warehousing the redundant goods indicated by the correction information;

and the supplementary delivery operation module is used for performing supplementary delivery operation on the goods which are indicated by the correction information and lack.

Optionally, the supplementary warehouse-out operation module includes:

a label information generating unit, configured to generate corresponding replenishment sub-label information based on the original label information and the missing cargo indicated by the correction information, and associate the replenishment sub-label information with the original label information;

the execution unit is used for executing the delivery operation of the replenishment container configured with the replenishment sub-label information;

Optionally, the execution unit includes:

the detection subunit is used for detecting whether the cargo detail information corresponding to the replenishment container is matched with the replenishment sub-label information;

and the triggering subunit is used for triggering and executing the ex-warehouse correction operation aiming at the restocking ex-warehouse operation under the condition of no match.

Optionally, the cargo detail information includes multiple pieces of cargo data, and the step of generating ex-warehouse sub-tag information and correction information based on the cargo detail information and the original tag information includes:

generating the ex-warehouse sub-label information based on the first cargo sub-detail information; and generating the correction information based on the second cargo detail information.

Optionally, the step of determining, based on the matching result and the cargo detail information, first cargo sub-detail information that matches the original tag information and second cargo sub-detail information that does not match the original tag information includes:

adding first target data in the cargo detail information into an unmatched data set, and adding second target data in the cargo detail information into a matched data set; the goods category corresponding to the first target data is not included in the original label information; the goods category and the goods quantity corresponding to the second target data are consistent with those recorded by the original label information;

reserving or updating the quantity of the goods recorded by each piece of remaining goods data based on the second difference information to obtain first sub-goods data to be added into the matching data set; generating second child cargo data to be added into the unmatched data set based on the second difference information;

Optionally, the supplementary warehouse-out operation module includes:

the information acquisition unit is used for determining at least one target correction information matched with the lacked goods from other correction information which is not in a warehousing state at present; the redundant goods included in the other correction information are not put in storage;

and the operation unit is used for performing the supplementary delivery operation on the lacking goods based on the target position of the redundant goods in the target correction information.

Optionally, the warehousing operation module includes:

a sub-warehousing information generating unit, configured to generate at least one piece of sub-warehousing information corresponding to the correction information based on the category of the redundant goods included in the correction information, where different pieces of sub-warehousing information include different categories of redundant goods;

and the warehousing task generating unit is used for generating the warehousing task corresponding to the sub-warehousing information so as to convey the redundant goods of the category corresponding to the sub-warehousing information to the position corresponding to the category of goods.

Since the device embodiment is similar to the method embodiment, the description of the embodiment of the ex-warehouse operation device is relatively simple, and reference may be made to the description and explanation of the embodiment of the ex-warehouse operation method for relevant points, which are not described herein again.

An electronic device is further provided in the embodiments of the present application, and as shown in fig. 7, a schematic structural diagram of the electronic device in the embodiments of the present application is shown, and the electronic device includes a memory 701, a processor 702, and a computer program stored in the memory 701 and executable on the processor 702, where when executed, the processor 702 implements the ex-library operation method.

As shown in fig. 7, in an embodiment, the electronic device may completely include an input device 703, an output device 704, and an information collecting device 705, that is, the intelligent device and the information collecting device described in the above embodiments are integrated in the electronic device. When the warehouse-out operation method of the embodiment of the application is executed, the information acquisition device 705 may acquire barcode and tag information of goods, then the input device 703 may acquire information acquired by the information acquisition device 705, the information may be processed by the processor 702 to identify a category of the information, and the output device 704 may output a result of the warehouse-out operation method.

Of course, in one embodiment, the memory 701 may include both volatile memory and non-volatile memory, where volatile memory may be understood to be random access memory for storing and storing data. The non-volatile memory is a computer memory in which stored data does not disappear when the current is turned off, and of course, the computer program of the ex-warehouse operation method of the present application may be stored in either or both of the volatile memory and the non-volatile memory.

Embodiments of the present application further provide a computer-readable storage medium, where a stored computer program causes a processor to execute the method for ex-warehouse operation described in the embodiments of the present application.

The embodiment of the present application further discloses a computer program product, which includes a computer program/instruction, and the computer program/instruction implements the ex-warehouse operation method according to the embodiment of the present application when executed by a processor.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

As will be appreciated by one of skill in the art, embodiments of the present application may be provided as a method, apparatus, or computer program product. Accordingly, embodiments of the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, embodiments of the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and so forth) having computer-usable program code embodied therein.

Embodiments of the present application are described with reference to flowchart illustrations and/or block diagrams of methods, terminal devices (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing terminal to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing terminal, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing terminal to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing terminal to cause a series of operational steps to be performed on the computer or other programmable terminal to produce a computer implemented process such that the instructions which execute on the computer or other programmable terminal provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present application have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the true scope of the embodiments of the application.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal apparatus that comprises the element.

The ex-warehouse operation method, the electronic device, the medium and the product provided by the application are introduced in detail, specific examples are applied in the description to explain the principle and the implementation of the application, and the description of the above embodiments is only used for helping to understand the method and the core idea of the application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A method of out-of-library operations, the method comprising:

2. The method according to claim 1, characterized in that the method further comprises at least one of the following steps:

performing warehousing operation on the redundant goods indicated by the correction information;

3. The method of claim 2, wherein performing a supplemental shipment of the missing items indicated by the correction information comprises:

4. The method of claim 3, wherein performing an ex-warehouse operation of a replenishment container configured with the replenishment sub-label information comprises:

5. The method according to any one of claims 1 to 4, wherein the cargo detail information includes a plurality of pieces of cargo data, and the generating of ex-warehouse sub-label information and correction information based on the cargo detail information and the original label information includes:

6. The method of claim 5, wherein determining, based on the matching result and the item detail information, first item sub-detail information that matches the original tag information and second item sub-detail information that does not match the original tag information comprises:

adding first target data in the cargo detail information into an unmatched data set, and adding second target data in the cargo detail information into a matched data set; the goods category corresponding to the first target data does not appear in the original label information; the goods category corresponding to the second target data and the corresponding goods quantity are consistent with those recorded by the original label information;

reserving or updating the quantity of the goods recorded in each piece of remaining goods data based on the second difference information to obtain first sub-goods data; and generating second child cargo data based on the second difference information;

adding the first sub-cargo data into the matching data set to obtain the first cargo sub-detail information; and adding the second sub-cargo data into the unmatched data set to obtain the second cargo sub-detail information.

7. The method according to any one of claims 2-6, wherein said performing a supplemental shipment operation for the missing goods indicated by the correction information comprises:

8. The method according to any one of claims 2-7, wherein the warehousing the redundant goods indicated by the correction information comprises:

9. An electronic device comprising a memory, a processor, and a computer program stored on the memory, wherein the processor executes the computer program to implement the ex-warehouse operation method of claims 1-8.

10. A computer-readable storage medium, on which a computer program/instructions are stored, characterized in that the computer program/instructions, when executed by a processor, implement the ex-warehouse operation method as claimed in claims 1 to 8.

11. A computer program product comprising computer programs/instructions, characterized in that the computer programs/instructions, when executed by a processor, implement the method of ex-warehouse operations of claims 1-8.