CN112990825B - Method, device, equipment and storage medium for delivering items of suite - Google Patents

Abstract

The embodiment of the invention discloses a method, a device, equipment and a storage medium for delivering items of a suite. The method comprises the following steps: when an article delivery event is monitored, determining whether each article to be delivered is a single article in the suite articles according to the article attribute of each article to be delivered corresponding to the article delivery event; if yes, determining the quantity to be delivered of each single article according to the required quantity of each single article and the inventory quantity of each single article in a warehouse logistics center; performing article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of each single article; and determining the target ex-warehouse number of each single-machine article according to each picking number, and executing article ex-warehouse operation on the single-machine articles of each picked target ex-warehouse number. According to the technical scheme, the effect of complete warehouse-out of the suite of the articles is achieved.

Description

Method, device, equipment and storage medium for delivering items of suite

Technical Field

The embodiment of the invention relates to the technical field of warehouse logistics, in particular to a method, a device, equipment and a storage medium for delivering items of a suite.

Background

In bulk warehouse logistics, it may involve the shipment management of a kit of items comprising at least two individual items, for example, a kit of such bulk items as an air conditioner, comprising an internal unit and an external unit. It should be noted that, for the air conditioner itself, the inner machine and the outer machine are stored separately in the storage logistics center, but for the article obtaining, the inner machine and the outer machine are an integral body which needs to be obtained simultaneously.

At present, after receiving an article acquisition task of an air conditioner, a storage logistics center can respectively take out an inner machine and an outer machine from the storage logistics center for delivery by related staff according to the article acquisition task.

In the process of realizing the invention, the inventor finds that the following technical problems exist in the prior art: the existing article delivery scheme may have the situation that only single articles are delivered and at least two single articles delivered are not matched, which may result in poor article acquisition experience of article acquisition.

Disclosure of Invention

The embodiment of the invention provides a method, a device, equipment and a storage medium for delivering items of a kit, so as to realize the effect of delivering the items of the kit in a packaged manner.

In a first aspect, an embodiment of the present invention provides a method for delivering items in a kit, which may include:

when an article delivery event is monitored, determining whether each article to be delivered is a single article in the suite articles according to the article attribute of each article to be delivered corresponding to the article delivery event;

if yes, determining the quantity to be delivered of each single article according to the required quantity of each single article and the inventory quantity of each single article in a warehouse logistics center;

performing article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of each single article;

and determining the target ex-warehouse number of each single-machine article according to each picking number, and executing article ex-warehouse operation on the single-machine articles of each picked target ex-warehouse number.

In a second aspect, an embodiment of the present invention further provides a device for delivering a kit of items, which may include:

the single-machine article determining module is used for determining whether each article to be delivered is a single article in the suite article according to the article attribute of each article to be delivered corresponding to the article delivery event when the article delivery event is monitored;

the to-be-ex-warehouse quantity determining module is used for determining the to-be-ex-warehouse quantity of each single article according to the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center if the to-be-ex-warehouse quantity is positive;

The picking quantity obtaining module is used for carrying out article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to the warehouse to obtain the picking quantity of each single article;

and the external article ex-warehouse module is used for determining the target ex-warehouse quantity of each single article according to each picking quantity and executing article ex-warehouse operation on the single articles of each picked target ex-warehouse quantity.

In a third aspect, an embodiment of the present invention further provides a device for delivering items from a kit, which may include:

one or more processors;

a memory for storing one or more programs;

the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the method for warehousing out of kit items provided by any embodiment of the present invention.

In a fourth aspect, embodiments of the present invention further provide a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the method for ex-warehouse of kit items provided by any of the embodiments of the present invention.

According to the technical scheme, whether each article to be delivered is a single article in the suite article or not is determined according to the article attribute of each article to be delivered corresponding to the monitored article delivery event, so that whether the suite article is delivered in a complete set or is delivered directly is determined; if each article to be delivered is a single article in the suite article, the quantity to be delivered of each single article can be respectively determined according to the required quantity of each single article and the stock quantity of each single article in the warehouse logistics center, and the stock quantity can be understood as the account stock quantity, so that the quantity to be delivered can theoretically represent the quantity of the corresponding single article which can be delivered in order to meet the delivery requirement as far as possible; because the account inventory quantity and the actual inventory quantity may be different, the article picking operation can be performed on the corresponding single articles in the warehouse logistics center according to the quantity to be checked out, so as to obtain the actual picking quantity of the single articles; further, in order to ensure the complete shipment of individual items belonging to the same set of items, the target shipment number of individual items may be determined based on the respective picking numbers, and the target shipment number may be the number that can be shipped from the set of items actually representing the individual item composition in order to satisfy the shipment demand as much as possible and complete shipment, on the basis of which the item shipment operation is performed for the individual items of the respective target shipment numbers picked. According to the technical scheme, the complete warehouse-out effect of the suite articles is achieved, the coordination of the complete and integral supply chains of the suite articles when the suite articles are distributed to the article acquirer is further guaranteed, the condition that articles are lost due to article mismatching and resource waste due to logic mismatching is avoided, and a good implementation scheme is provided for the application scene of integral warehouse logistics.

Drawings

FIG. 1 is a flow chart of a method for delivering items from a package according to a first embodiment of the present invention;

fig. 2 is a schematic diagram of a setting result of a set control switch in a method for delivering a set of articles according to a first embodiment of the present invention;

FIG. 3 is a flow chart of a method for delivering items from a package in accordance with a second embodiment of the present invention;

FIG. 4 is a process diagram of item inventory positioning in a method for the delivery of a kit item according to a second embodiment of the present invention;

FIG. 5 is a flow chart of a method of warehousing out of a kit of items according to a third embodiment of the present invention;

FIG. 6 is a schematic diagram of a method for checking out items in a kit according to a third embodiment of the present invention;

FIG. 7 is a flow chart of a method for delivering items from a kit according to a fourth embodiment of the present invention;

FIG. 8 is a flow chart of a method for managing and controlling a kit in a method for delivering a kit item according to a fourth embodiment of the present invention;

FIG. 9 is a flowchart of an alternative example of a method for delivering items from a package according to a fourth embodiment of the present invention;

FIG. 10 is a block diagram of a device for delivering items from a package according to a fifth embodiment of the present invention;

fig. 11 is a schematic structural view of a device for delivering articles out of a warehouse in accordance with a sixth embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

Before describing the embodiment of the present invention, an application scenario of the embodiment of the present invention is described in an exemplary manner: in general, in the article acquisition task received by the warehouse logistics center, only what type of kit article under what brand is specified, but no such kit article is specified to be composed of what type of single article, but in practical application, there are multiple possibilities of single articles which can compose the kit article, at this time, the situation that only single article is out of warehouse and at least two single articles out of warehouse are not matched, which is set forth in the background art, is easy to occur when the kit article is out of warehouse by manual control.

Example 1

Fig. 1 is a flowchart of a method for delivering items from a package according to a first embodiment of the present invention. This embodiment may be applicable to a case of controlling the shipment of the kit of items. The method can be implemented by the device for delivering the kit items provided by the embodiment of the invention, the device can be implemented by software and/or hardware, and the device can be integrated on a device for delivering the kit items, and the device can be a terminal or a server.

Referring to fig. 1, the method of the embodiment of the present invention specifically includes the following steps:

and S110, when the article delivery event is monitored, determining whether each article to be delivered is a single article in the suite article according to the article attribute of each article to be delivered corresponding to the article delivery event.

The article delivery event may be an event triggered by an article attribution party sending an article acquisition task, where the article acquisition task may be a task for acquiring the article to be delivered, the article attribution party may be an object currently owning the article to be delivered, and the article to be delivered may be stored in the warehouse logistics center. Considering the application scenario that may be involved in the embodiments of the present invention, the task of acquiring an item may be understood as an order, the attribution party of the item may be understood as a merchant, and the item to be delivered may be understood as a commodity to be delivered, i.e. a commodity to be sold.

The number of articles to be delivered corresponding to an article delivery event may be one, two or more, each article to be delivered has a respective article attribute from which it may be determined whether the corresponding article to be delivered is a stand-alone article in a kit of articles, which kit may be understood as an article consisting of at least two stand-alone articles, such as an air conditioner consisting of an interior machine and an exterior machine, a desk and chair kit consisting of a desk and a chair, etc., and which stand-alone article may be understood as an independent component of the kit of articles. In practical applications, the number of individual items in a set of items may be the same or different, for example, an air conditioner is composed of an inner machine and an outer machine, and a set of seating sets is composed of a table and four chairs. Alternatively, each article to be delivered may be a single article belonging to the same set of articles, taking A, B and C as examples, and a set of articles is composed of A, B and C; or a single item belonging to different items of the kit, wherein one item of the kit consists of A and C and the other item of the kit consists of B and C; etc., and are not particularly limited herein.

S120, if so, determining the quantity to be delivered of each single article according to the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center.

Wherein, if a certain article to be delivered is not a single article in the suite article, the article to be delivered can be controlled to be delivered independently; otherwise, the rest of the articles to be delivered (namely the articles to be delivered belonging to the same suite of articles with the articles to be delivered) matched with the articles to be delivered can be controlled to be delivered in a complete set. Specifically, when the articles to be delivered are single articles, the required quantity of each single article and the inventory quantity in the warehouse logistics center can be obtained respectively, the required quantity can be the quantity actually required by the single article in the article obtaining task, the inventory quantity can be the quantity actually stored by the single article in the warehouse article center, and in practical application, the required quantity can be greater than, equal to or less than the inventory quantity. On the basis, the quantity to be delivered of each single article can be determined based on the required quantity and the stock quantity of each single article, but in order to ensure the complete delivery of each single article belonging to the same suite article, the required quantity and the stock quantity of each single article can be comprehensively considered, and the quantity to be delivered of each single article can be determined based on the required quantity and the stock quantity, and the quantity to be delivered can be determined according to the actual requirement condition and the actual storage condition, so that each single article belonging to the same suite article can be delivered in a complete manner.

S130, performing article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of each single article.

After the quantity to be checked out of each single article is obtained, for each single article, an article picking operation may be performed on the single article in the warehouse logistics center based on the quantity to be checked out of the single article, and the picking quantity may be the quantity of the single article actually picked out of the warehouse logistics center, in practical application, since the quantity of the inventory in S120 may be understood as the quantity of the inventory of the accounting surface in case that the quantity of the inventory of the accounting surface is inconsistent with the quantity of the inventory of the actual inventory, the quantity to be checked out may be greater than the picking quantity (when the quantity of the inventory of the accounting surface is less than the quantity of the inventory of the accounting surface) or equal to the picking quantity (when the quantity of the inventory of the actual surface is greater than or equal to the quantity of the inventory of the accounting surface).

S140, determining the target ex-warehouse quantity of each single-machine article according to each picking quantity, and executing article ex-warehouse operation on the single-machine articles of each picked target ex-warehouse quantity.

The target ex-warehouse number of the single-machine articles can be the number of the single-machine articles when the single-machine articles are actually ex-warehouse, and the target ex-warehouse number is smaller than or equal to the picking number of the single-machine articles; and performing an item delivery operation on the single item of the selected target delivery number. It should be noted that, in order to ensure complete shipment of individual articles belonging to the same set of articles, the number of individual articles to be picked may be comprehensively considered, and the target shipment number of each individual article may be determined based on the number of individual articles; on the basis, considering that the individual articles possibly have differences in the article proportion among the affiliated suite articles, for example, the proportion of an inner machine to an outer machine in an air conditioner can be 1:1, and the proportion of a table to a chair in a seat suite can be 1:4, the picking quantity and the article proportion can be comprehensively considered when the target ex-warehouse quantity of the individual articles is determined.

In practical application, optionally, in the case that the number of the single-machine articles in the kit articles is equal, if the number of the single-machine articles is equal, the number of the single-machine articles can be used as the target ex-warehouse number of the single-machine articles; and/or, if the picking numbers of the individual items are not equal, the smallest picking number of the respective picking numbers may be regarded as the target ex-warehouse number, thereby achieving the effect of the set-out of the largest number of the set items.

According to the technical scheme, whether each article to be delivered is a single article in the suite article or not is determined according to the article attribute of each article to be delivered corresponding to the monitored article delivery event, so that whether the suite article is delivered in a complete set or is delivered directly is determined; if each article to be delivered is a single article in the suite article, the quantity to be delivered of each single article can be respectively determined according to the required quantity of each single article and the stock quantity of each single article in the warehouse logistics center, and the stock quantity can be understood as the account stock quantity, so that the quantity to be delivered can theoretically represent the quantity of the corresponding single article which can be delivered in order to meet the delivery requirement as far as possible; because the account inventory quantity and the actual inventory quantity may be different, the article picking operation can be performed on the corresponding single articles in the warehouse logistics center according to the quantity to be checked out, so as to obtain the actual picking quantity of the single articles; further, in order to ensure the complete shipment of individual items belonging to the same set of items, the target shipment number of individual items may be determined based on the respective picking numbers, and the target shipment number may be the number that can be shipped from the set of items actually representing the individual item composition in order to satisfy the shipment demand as much as possible and complete shipment, on the basis of which the item shipment operation is performed for the individual items of the respective target shipment numbers picked. According to the technical scheme, the complete warehouse-out effect of the suite articles is achieved, the coordination of the complete and integral supply chains of the suite articles when the suite articles are distributed to the article acquirer is further guaranteed, the condition that articles are lost due to article mismatching and resource waste due to logic mismatching is avoided, and a good implementation scheme is provided for the application scene of integral warehouse logistics.

On this basis, in order to prevent the situation that the warehouse operation capability is limited, because the above strong warehouse outlet process is disordered in overall warehouse management, for example, warehouse management staff is more habit to manage offline, when they are not ready for the above online management, the situation that personal understanding and operation efficiency cannot keep up with and cause the disorder in warehouse management may occur, optionally, after the article warehouse outlet event is monitored, whether a set management and control switch is started can be firstly judged, and the set management and control switch can control the set verification function of each link to handle the problem when the abnormality occurs, that is, when the set management and control switch is started, the set article warehouse outlet control can be performed by adopting the technical scheme, otherwise, the set article warehouse outlet control is performed by not adopting the technical scheme. The result of the setting of the set of control switches described above can be seen in fig. 2.

Example two

Fig. 3 is a flowchart of a method for delivering items from a warehouse according to a second embodiment of the present invention. The present embodiment is optimized based on the above technical solutions. In this embodiment, optionally, determining the number of to-be-delivered single-machine articles according to the required number of the single-machine articles and the inventory number of the single-machine articles in the warehouse logistics center may include: acquiring the required quantity of each single article and the inventory quantity of each single article in a warehouse logistics center, and taking the first minimum quantity of the required quantity and the inventory quantity of the single article as the candidate quantity of the single article for each single article; and taking the second minimum quantity in each candidate quantity as the quantity to be delivered of each single article. Wherein, the explanation of the same or corresponding terms as the above embodiments is not repeated herein.

Referring to fig. 3, the method of this embodiment may specifically include the following steps:

and S210, when an article delivery event is monitored, determining whether each article to be delivered is a single article in the suite article according to the article attribute of each article to be delivered corresponding to the article delivery event.

S220, if so, acquiring the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center, taking the first minimum quantity in the required quantity and the inventory quantity of each single article as the candidate quantity of the single article, and taking the second minimum quantity in the candidate quantity as the to-be-ex-warehouse quantity of each single article.

For each single article, in order to meet the ex-warehouse demand of the single article as much as possible on the basis of inventory, the first minimum number of the demand number and the inventory number of the single article can be used as the candidate number of the single article, so that the ex-warehouse demand of the single article can be completely ensured when the demand number of the single article is smaller than or equal to the inventory number; otherwise, the ex-warehouse requirement of the single article can be guaranteed to the greatest extent under the actual condition. When the candidate number of each individual item is obtained, in order to ensure the complete shipment of the kit item, when the number of each individual item in the kit item is equal, the second minimum number of the candidate numbers of each individual item may be taken as the to-be-shipped number of each individual item. The nature of the "first minimum number" is the minimum number of the required number and the stock number of a single item, and the nature of the "second minimum number" is the minimum number of the candidate numbers of each single item, and these two "minimum numbers" are named differently here to distinguish them.

On this basis, optionally, the warehouse logistics center may include one, two or multiple bins, and when the number of bins is at least two, the determining process of the candidate number in S220 may be: acquiring the required quantity of each single article, the inventory quantity of each single article in each bin of a warehouse logistics center and the preset quantity with the value of 0; for each single-machine article, determining a current compartment in each compartment, taking the first minimum number of the required number of the single-machine article and the inventory number of the single-machine article in the current compartment as the candidate number of the single-machine article in the current compartment, updating the difference value between the required number of the single-machine article and the candidate number of the single-machine article in the current compartment to be the required number of the single-machine article, increasing the candidate number to a preset number, and updating the preset number according to the increasing result; updating the next compartment of the current compartment to the current compartment, and repeatedly executing the step of taking the first minimum number of the required number of the single-machine articles and the inventory number of the single-machine articles in the current compartment as the candidate number of the single-machine articles in the current compartment; if the required number of the next warehouse or the single article is 0, the preset number is used as the candidate number of the single article in the warehouse logistics center.

S230, performing article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of each single article.

S240, determining the target ex-warehouse quantity of each single-machine article according to each picking quantity, and executing article ex-warehouse operation on the single-machine articles of each picked target ex-warehouse quantity.

According to the technical scheme of the embodiment of the invention, aiming at each single article, the first minimum quantity in the required quantity and the inventory quantity of the single article in the warehouse logistics center is used as the candidate quantity of the single article, so that the ex-warehouse requirement of the single article is met as much as possible on the basis of inventory; further, the second minimum number of the candidate numbers of the single-unit articles is used as the number to be delivered of the single-unit articles, and the second minimum number is matched with the follow-up steps, so that the effect of complete delivery of the kit articles is achieved.

An optional technical solution, each single article belongs to at least two suite articles, and the second minimum number in each candidate number is used as the number to be delivered of each single article, which may include: determining a third minimum number in the candidate numbers, taking the set item of which the candidate number is the third minimum number and to which the single item belongs as a target set item, and taking the third minimum number as the number to be delivered of each single item in the target set item, wherein the third minimum number is matched with the follow-up steps, so that the effect of complete delivery of the target set item is ensured; further, taking the external member items except the target external member item in the external member items as the other external member items, determining the quantity to be checked out of each single external member item in the other external member items according to the candidate quantity of each single external member item in the other external member items and the quantity to be checked out of the corresponding single external member item in the target external member item, and determining the intermediate quantity of the single external member item according to the candidate quantity of the single external member item and the quantity to be checked out in the target external member item according to the candidate quantity of the single external member item and the quantity to be checked out of each single external member item in the other external member items by taking the quantity of the other external member items as one example; and further, the fourth minimum number of the intermediate number of each single item in the rest of the set items is used as the number to be delivered for each single item in the rest of the set items, and the fourth minimum number is matched with the subsequent steps, so that the effect of complete delivery of the rest of the set items is ensured. It should be noted that the essence of the "third minimum number" is the minimum number among the candidate numbers of the individual items, and the essence of the "fourth minimum number" is the minimum number among the intermediate numbers of the individual items in the remaining set items, and they are named differently here again in order to distinguish between the two "minimum numbers".

In order to better understand the specific implementation procedure of the above steps, an exemplary description will be given below of the item inventory positioning in the method for delivering the kit item of the present embodiment, in conjunction with a specific example. When the warehouse-out positioning is performed, if the kit object is included in a certain wave, the warehouse-out positioning is performed according to the whole kit object. For example, order 1 in one pass requires 3 packages b and order 2 requires 3 packages a and 2 packages b, where package a is made up of three stand-alone items A, B, C and package b is made up of two stand-alone items A, D, as shown in fig. 4 for the item inventory positioning process of the two orders:

step1 summarizes the required quantity of each individual item in the two orders because the warehouse logistics center is managed by the individual items; step 2 is to pair the required quantity in step1 by taking the item of the kit as a unit; step 3, inquiring the stock quantity of each single article in a stock logistics center; step 4 is to determine the minimum number of ABCD according to step 3 and step1, respectively, if the required number of a is 8 and the stock number is 6, then a in step 4 is the minimum number 6 of 8 and 6; the number of C in step 5 is the smallest, and ABC is one set, the number of A and B are matched by taking the number of C as a reference, the number of D in D and unmatched A is the smallest, and AD is one set, and the number of A is matched by taking the number of D as a reference; step 6 is the difference between step1 and step 5; step 7 is a summary of step 5; step 8 is shipped out of the kit to meet the minimum requirements for the kit items.

Example III

Fig. 5 is a flowchart of a method for delivering items from a package according to a third embodiment of the present invention. The present embodiment is optimized based on the above technical solutions. In this embodiment, optionally, the number of picks of each individual article is not equal, and after determining the target number of outgoing articles of each individual article according to the number of picks, the method for outgoing articles of the kit may further include: if the single articles with the quantity to be delivered are stored in the same bin of the warehouse logistics center, the abnormal articles with the quantity larger than the target quantity to be delivered are picked out of the single articles, the abnormal quantity of the abnormal articles is determined according to the target quantity to be delivered and the picking quantity of the abnormal articles, and article returning operation is carried out on the abnormal articles with the abnormal quantity to be picked out in the same bin;

and/or the number of the groups of groups,

if the single articles with the quantity to be delivered are stored in at least two compartments of the warehouse logistics center, and the picking quantity of each single article is the total quantity of the single articles picked from the at least two compartments, determining the abnormal quantity of the abnormal articles in each single article, and judging whether the abnormal quantity is smaller than or equal to the picking quantity of the abnormal articles in the last picking compartment of the at least two compartments; if yes, carrying out article returning operation on the abnormal articles with abnormal quantity picked in the last picking bin; otherwise, taking the picking number of the abnormal articles in the last picking compartment as the returning number, taking the difference value of the abnormal number and the returning number as the returning number, executing article returning operation on the abnormal articles in the last picking compartment, and executing article returning operation on the abnormal articles in the last picking compartment in the at least two compartments. Wherein, the explanation of the same or corresponding terms as the above embodiments is not repeated herein.

Referring to fig. 5, the method of this embodiment may specifically include the following steps:

and S310, when an article delivery event is monitored, determining whether each article to be delivered is a single article in the suite article according to the article attribute of each article to be delivered corresponding to the article delivery event.

S320, if so, determining the quantity to be delivered of each single article according to the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center.

S330, performing article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of each single article.

S340, determining the target ex-warehouse quantity of each single-machine article according to each picking quantity, and executing article ex-warehouse operation on the single-machine articles of each picked target ex-warehouse quantity.

S350, if the single articles with the quantity to be delivered are stored in the same bin of the warehouse logistics center, the abnormal articles with the quantity larger than the target quantity to be delivered are picked out of the single articles, the abnormal quantity of the abnormal articles is determined according to the target quantity to be delivered and the abnormal article picking quantity, and article returning operation is carried out on the abnormal articles with the abnormal quantity to be picked out in the same bin.

The warehouse logistics generally comprises the processes of article inventory positioning, article picking, article rechecking, article delivery and article distribution in sequence, wherein the article rechecking process can be understood as determining the target delivery quantity of each single article according to the picking quantity of each single article, and determining whether the single article has a need of returning to a shelf and/or a warehouse according to the picking quantity of the single article and the target delivery quantity of the single article aiming at each single article. Specifically, for the case that the single-machine articles with the quantity to be delivered are stored in the same bin of the warehouse logistics center, namely, when the articles of the single-machine articles are picked in one bin, whether the abnormal articles with the quantity greater than the target quantity to be delivered exist in the single-machine articles or not is determined, if yes, the abnormal quantity of the abnormal articles is determined according to the target quantity to be delivered and the picking quantity of the abnormal articles, and then the article returning operation is carried out on the abnormal articles with the abnormal quantity to be picked in the same bin, because the abnormal articles with the abnormal quantities to be picked do not need to be delivered in order to ensure the complete delivery of the kit articles in the same bin.

S360, if the single-machine articles with the quantity to be delivered are stored in at least two compartments of the warehouse logistics center, and the picking quantity of each single-machine article is the total quantity of the single-machine articles picked out from the at least two compartments, determining the abnormal quantity of the abnormal articles in each single-machine article, and judging whether the abnormal quantity is smaller than or equal to the picking quantity of the abnormal articles in the last picking compartment in the at least two compartments.

Wherein, for the case that the single-machine articles of the respective amounts to be delivered are stored in at least two compartments of the warehouse logistics center, that is, when the article picking of the respective single-machine articles is performed in at least two compartments, the picking amount of each single-machine article obtained in S330 is the total amount of the single-machine articles picked out from the at least two compartments. On the basis, whether abnormal articles with the picking number larger than the target ex-warehouse number exist in each single article or not can be determined, and if yes, the abnormal number of the abnormal articles is determined according to the target ex-warehouse number and the picking number of the abnormal articles. Further, since these abnormal numbers of abnormal articles may be single articles picked from the same bin or from different bins, different picking conditions may affect whether the article return operation and/or the article return operation needs to be performed subsequently. Accordingly, it is determined whether the abnormal number of the abnormal article is equal to or less than the picking number of the abnormal article in the last picking compartment among the at least two compartments, and since the article picking operation is sequentially performed in each compartment among the at least two compartments, the last picking compartment may be the compartment in which the article is picked last time when the abnormal article is picked. For example, assume that the warehouse logistics center includes a bin 1 and a bin 2, and the abnormal articles are picked first between the bins 1 and then between the bins 2, where the bin 2 is the last bin to be picked, and based on the above determination process, it is helpful to determine whether the article returning operation and/or the article returning operation needs to be performed subsequently.

S370, if yes, carrying out article returning operation on the picked abnormal articles in the last picking bin; otherwise, taking the picking number of the abnormal articles in the last picking compartment as the returning number, taking the difference value of the abnormal number and the returning number as the returning number, executing article returning operation on the abnormal articles in the last picking compartment, and executing article returning operation on the abnormal articles in the last picking compartment in the at least two compartments.

If the abnormal number is less than or equal to the picking number of the abnormal articles in the last picking compartment, which means that the abnormal number of the abnormal articles is picked in the last picking compartment, the article returning operation can be performed on the abnormal number of the abnormal articles picked in the last picking compartment. Accordingly, if the abnormal number is greater than the number of abnormal articles picked in the last picking bay, this means that the abnormal number of abnormal articles is not picked only in the last picking bay, but also an article returning operation needs to be performed in addition to the article returning operation. Specifically, taking the picking number of the abnormal articles in the last picking compartment as the returning number, and executing article returning operation on the abnormal articles in the picked returning number in the last picking compartment; meanwhile, taking the difference between the abnormal quantity and the returning quantity as the returning quantity, wherein the abnormal articles in the returning quantity cannot be returned to the articles in the last picking compartment, and the abnormal articles need to be returned to the historical picking compartment of the last picking compartment in at least two compartments, and the historical picking compartment can be the last compartment, the last two compartments or the last compartments of the last picking compartment when the abnormal articles are sequentially picked in each compartment.

It should be noted that, the article leaving operation, the article returning operation and/or the article returning operation set forth in the embodiments of the present invention may be performed sequentially, performed first afterwards, or performed simultaneously, which is not specifically limited herein. In addition, S350 and S360 may be selected to be executed according to the corresponding storage condition of the single article stored in the warehouse logistics center, which is not specifically limited herein; s360 and S370 are processes sequentially performed in order.

According to the technical scheme, as the number of the compartments in the warehouse logistics center is at least one, the account inventory number and the actual inventory number in the compartments may be different, in order to solve the problems of single machine loss and non-complete warehouse-out caused by the difference, when single machine articles with the number to be warehouse-out are stored in the same compartment in the warehouse logistics center, the abnormal articles with the number greater than the target warehouse-out number are picked out of the single machine articles, the abnormal number of the abnormal articles can be determined according to the target warehouse-out number and the abnormal article picking number, and the article returning operation is carried out on the abnormal articles with the abnormal number picked out in the same compartment; and/or when the single articles of the quantity to be sorted are stored in at least two compartments of the warehouse logistics center, the sorting quantity of each single article is the total quantity of the single articles sorted out from the at least two compartments, whether the abnormal articles of the abnormal quantity are all sorted out from the last sorting compartment in the at least two compartments can be determined according to the abnormal quantity of the abnormal articles in each single article, if so, article returning operation can be performed on the abnormal articles of the sorted out in the last sorting compartment, otherwise, the sorting quantity of the abnormal articles in the last sorting compartment can be used as returning quantity, the difference value of the abnormal quantity and the returning quantity is used as returning quantity, article returning operation is performed on the abnormal articles of the returning quantity sorted out in the last sorting compartment, and article returning operation is performed on the abnormal articles of the returning quantity sorted out in the last sorting compartment in the at least two compartments. According to the technical scheme, the cost is reduced and the efficiency of complete warehouse-out is improved through the article returning operation of abnormal articles and/or the article returning operation.

In order to better understand the specific implementation procedure of the above steps, an exemplary description will be given below of an article review in the method for delivering a kit article in this embodiment in combination with a specific example. For example, for the case of picking goods between non-bins, assume that a certain set of items includes a single item X and a single item Y, the number of to-be-delivered items of X and Y is 10, the number of picked items of X is 10, and the number of picked items of Y is 9, i.e., when the check is performed after picking the goods, the number of X check is 10, and the number of Y check is 9, at this time, the abnormal item is prompted to scan, the abnormal item is the "set item difference", an abnormal return shelf list can be generated after the abnormal item is scanned, and the newly added abnormal type is the "set item difference"; and then X returning movement sheets can be generated after the abnormal returning sheets are signed, the number is 1 (namely 10-9), the abnormal returning sheets are processed and then are delivered, and the number of the X and Y target delivery is 9. Fig. 6 shows a schematic diagram of the review of the articles on the dock, where the number of scans in fig. 6 can be understood as the number to be delivered in the above, and the number of scans can be understood as the number to be picked in the above.

For the case of sorting in the compartments, the warehouse logistics center comprises a No. 1 compartment and a No. 2 compartment, and the quantity of the X and Y to be delivered (namely, the inventory positioning of the articles) between the two compartments is shown in the table 1. Firstly, picking in a No. 1 bin, then picking in a No. 2 bin, after picking in a No. 1 bin, checking the kit is not needed, after picking in a No. 2 bin, checking the total check quantity of X and Y in two bins (namely, the total check quantity of X in a No. 1 bin and the total check quantity of X in a No. 2 bin=X, and the Y conditions are similar), and if the kit quantity is matched (namely, the total check quantity of X to-be-checked quantity=X, and the Y is the same), normally checking out. If there is no match, the following process is performed, see Table 2:

If the total check amount of X is greater than the total check amount of Y, generating an abnormal returning bill of X in the bin number 2, wherein the abnormal amount is the total check amount of X-the total check amount of Y. And after the abnormal shelf returning list is signed, generating an X article shelf returning task.

If the total checking amount of X is greater than the total checking amount of Y, and the total checking amount of X between the No. 2 bins (namely the picking amount of X between the No. 2 bins) is smaller than (the total checking amount of X-the total checking amount of Y), generating an abnormal frame returning list of X between the No. 2 bins, wherein the frame returning amount is the total checking amount of X between the No. 2 bins; at the same time, generating an abnormal return list of X in the No. 1 bin, wherein the return list quantity is (the total checking quantity of X-the total checking quantity of Y) -the checking quantity of X in the No. 2 bin.

Table 1 article inventory positioning

	X	Y
			No. 1 cabin	8	3
No. 2 cabin	2	7
			Total amount of quantity to be delivered	10	10

Table 2 rechecking articles after picking

Example IV

Fig. 7 is a flowchart of a method for delivering items from a package according to a fourth embodiment of the present invention. The present embodiment is optimized based on the above technical solutions. In this embodiment, optionally, the item attribute may include a management item class and a stock unit, and determining whether each item to be delivered is a stand-alone item in the kit item according to the item attribute of each item to be delivered corresponding to the item delivery event may include: acquiring management and control product types of all to-be-delivered objects corresponding to the object delivery event, and respectively determining whether the corresponding to-be-delivered objects need single machine management and control according to the management and control product types; if so, determining whether each to-be-delivered item corresponds to the same main attachment relation according to the stock quantity unit of each to-be-delivered item, and judging whether each to-be-delivered item is a single item in the suite item according to the determination result, wherein each to-be-delivered item corresponding to the same main attachment relation is a single item in the same suite item. Wherein, the explanation of the same or corresponding terms as the above embodiments is not repeated herein.

Referring to fig. 7, the method of this embodiment may specifically include the following steps:

s410, obtaining the management and control class of each article to be delivered corresponding to the article delivery event, and respectively determining whether the corresponding article to be delivered needs single machine management and control according to each management and control class.

In the warehouse logistics field, the articles can be controlled based on the article attribute of the articles, the article attribute can also be called as a basic attribute, the article control process can be understood as basic attribute control, and the control article class can be a category under the basic attribute control. Specifically, the management and control items can divide each item into three levels ranging from large to small, such as an air conditioner, an external air conditioner, belongs to a large household appliance in a first level item, a household appliance in a second level item and an air conditioner in a third level item, so that whether a single item to be checked out needs to be managed and controlled by the single machine can be determined according to the management and control item of the certain item to be checked out, and the single machine management and control meaning is that the corresponding item to be checked out is the item which needs to be checked out and put in by the single machine, and the item cannot be checked out and put in independently and must be put in and put in storage together with the matched single item. In practical application, optionally, because the third class is the finest class under the management class, whether the articles to be delivered need single machine management and control can be judged according to the third class, so that the judgment precision of single machine management and control is improved.

And S420, if so, determining whether each article to be delivered corresponds to the same main attachment relation according to the stock quantity unit of each article to be delivered, and judging whether each article to be delivered is a single article in the suite article according to the determination result, wherein each article to be delivered corresponding to the same main attachment relation is a single article in the same suite article.

If the articles to be delivered do not need single machine control, the articles are directly withdrawn; otherwise, whether the to-be-delivered items correspond to the same main attachment relationship can be determined according to the stock units (Stock Keeping Unit, SKU) of the to-be-delivered items, for example, whether the main attachment relationship corresponding to SKU of the to-be-delivered item exists in a main attachment relationship item table is inquired, the corresponding relationship between the main SKU and the attached SKU is recorded in the main attachment relationship, and each to-be-delivered item with the same main attachment relationship is a single item in the same item, that is, whether some to-be-delivered items are single items in the same item can be determined based on the main attachment relationship. In practical application, because there may be some situations that the to-be-delivered object to be managed by a single machine is not a single object in the set object, after the single machine management and control judgment is performed, the main attachment relationship can be further judged.

S430, if so, determining the quantity to be delivered of each single article according to the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center.

S440, performing article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of the single articles.

S450, determining the target ex-warehouse quantity of each single-machine article according to each picking quantity, and executing article ex-warehouse operation on the single-machine articles of each picked target ex-warehouse quantity.

According to the technical scheme, whether the corresponding articles to be delivered need single machine management or not is determined through the management and control class of the articles to be delivered; if so, further determining whether each article to be delivered corresponds to the same main attachment relation according to the SKU of each article to be delivered, and determining whether each article to be delivered belongs to a single article in the same suite of articles, thereby achieving the effect of accurately, automatically and objectively judging the single article.

An optional technical solution, after determining whether each item to be delivered corresponds to the same principal relationship according to the stock unit of each item to be delivered, the delivering method of the kit item may further include: if yes, determining whether the main attachment relation is not recorded in the preset white list, wherein each single article corresponding to the main attachment relation recorded in the preset white list is an article which does not need to be taken out of the warehouse in a packaged mode. Because some articles to be delivered with the same main attachment relation do not need to be subjected to external set management and control, for example, an inner machine and an outer machine of some air conditioners are already bound together in the center of a warehouse logistics, the inner machine and the outer machine are single articles which need to be subjected to single machine management and control and have the same main attachment relation, but do not need to be subjected to external set management and control. Accordingly, in order to further improve the accuracy of judging the single-machine articles to be subjected to the external member management and control, whether the same main attachment relationship corresponding to each article to be delivered is recorded in the preset white list or not can be judged, and each single-machine article corresponding to the main attachment relationship recorded in the preset white list is an article which does not need to be delivered in a packaged manner.

In order to better understand the specific implementation procedure of the above steps, an exemplary description will be given below of the control of the package in the method for delivering package articles according to the present embodiment, in conjunction with specific examples. For example, referring to fig. 8, determining whether the to-be-delivered items need single machine control according to three-level items in the control items, if not, determining that external member control is not needed, otherwise, determining whether each to-be-delivered item corresponds to the same main attachment relation; if not, determining that external member management and control is not needed, otherwise, determining whether the main attachment relation is recorded in a preset white list; if yes, determining that the sleeve management is not needed, otherwise, determining that the sleeve management is needed.

In practical application, the technical schemes described in the embodiments of the present invention are mutually matched, and a specific implementation process may be shown in fig. 9, which is described by taking the commodity ex-warehouse in the e-commerce platform as an example. The specific implementation of this example is described in detail in the above sections, and will not be described here again.

According to the technical scheme, aiming at the basic attribute management and control of the existing large logistics to the suite articles, through the inventory allocation of single articles in the warehouse-out suite, the overall allocation strategy, the single-warehouse and multi-warehouse control strategy and the abnormal treatment in the rechecking stage after picking are provided, the management of the whole warehouse suite articles is controlled, the ticket matching of the whole order is ensured when the suite articles are delivered out, the later distribution operation cost is reduced, the single-machine appearance frequency of warehouse storage is reduced, and a good industry strategy scheme is provided for the scene management of the whole large warehouse logistics. Specifically, the method is based on the management of the items of the suite and the characteristics of the current large warehouse logistics, and is divided into inventory positioning control and multi-warehouse delivery control, so that the problems of single-machine item delivery and loss are solved, the suite management and operation are managed at the bottom end of the warehouse in a perfect mode, and the problems are solved from the bottom.

Example five

Fig. 10 is a block diagram of a device for delivering a kit item according to a fifth embodiment of the present invention, where the device is configured to perform the method for delivering a kit item according to any of the foregoing embodiments. The device and the method for delivering the kit items in the above embodiments belong to the same inventive concept, and reference may be made to the embodiments of the method for delivering the kit items in the embodiments of the device for delivering the kit items for details which are not described in detail. Referring to fig. 10, the apparatus may specifically include: a stand-alone item determination module 510, a to-be-ex-warehouse quantity determination module 520, a pick quantity acquisition module 530, and a kit item ex-warehouse module 540.

The stand-alone article determining module 510 is configured to determine, when an article delivery event is monitored, whether each article to be delivered is a stand-alone article in the kit article according to an article attribute of each article to be delivered corresponding to the article delivery event;

the to-be-delivered-quantity determining module 520 is configured to determine, if yes, the to-be-delivered quantity of each single-machine article according to the required quantity of each single-machine article and the inventory quantity of each single-machine article in the warehouse logistics center;

a picking number obtaining module 530, configured to perform an article picking operation on the corresponding single-machine articles in the warehouse logistics center according to the number of each to-be-warehouse to obtain the picking number of each single-machine article;

The package item delivery module 540 is configured to determine a target delivery number of each individual item according to each picking number, and perform an item delivery operation on each individual item of the picked target delivery number.

Optionally, the to-be-ex-warehouse quantity determining module 520 may specifically include:

the candidate quantity determining unit is used for obtaining the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center, and taking the first minimum quantity in the required quantity and the inventory quantity of the single article as the candidate quantity of the single article for each single article; and the to-be-ex-warehouse quantity determining unit is used for taking the second minimum quantity in each candidate quantity as the to-be-ex-warehouse quantity of each single article.

On the basis, optionally, each single article belongs to at least two suite articles, and the to-be-ex-warehouse quantity determining unit can be specifically used for:

determining a third minimum number in the candidate numbers, taking the set item of which the candidate number is the third minimum number and to which the single item belongs as a target set item, and taking the third minimum number as the quantity to be delivered of each single item in the target set item;

and taking the sleeve articles except the target sleeve article in the sleeve articles as the rest sleeve articles, and determining the quantity to be delivered of each single article in the rest sleeve articles according to the candidate quantity of each single article in the rest sleeve articles and the quantity to be delivered of the corresponding single article in the target sleeve articles.

Optionally, the package item delivery module 540 may specifically include:

and the target ex-warehouse number determining unit is used for taking the picking number as the target ex-warehouse number of each single article if the picking numbers of the single articles are equal, and/or taking the smallest picking number in the picking numbers as the target ex-warehouse number if the picking numbers of the single articles are not equal.

Optionally, the number of the picked single articles is not equal, and the warehouse-out device may further include:

the article returning operation execution module is used for, after determining the target ex-warehouse quantity of each single article according to each picking quantity, if each single article with the quantity to be ex-warehouse is stored in the same warehouse of the warehouse logistics center, for each single article, picking abnormal articles with the quantity larger than the target ex-warehouse quantity, determining the abnormal quantity of the abnormal articles according to the target ex-warehouse quantity and the picking quantity of the abnormal articles, and executing article returning operation on the abnormal articles with the abnormal quantity picked in the same warehouse;

and/or the number of the groups of groups,

the quantity judging module is used for determining the abnormal quantity of the abnormal articles in each single article if the single article of each quantity to be picked is stored in at least two compartments of the warehouse logistics center after the target quantity to be picked is determined according to the quantity to be picked, and judging whether the abnormal quantity is smaller than or equal to the picking quantity of the abnormal articles in the last picking compartment in the at least two compartments;

The article returning operation executing module is used for executing article returning operation on the abnormal articles of the abnormal quantity picked in the last picking bin if the article returning operation is yes; otherwise, taking the picking number of the abnormal articles in the last picking compartment as the returning number, taking the difference value of the abnormal number and the returning number as the returning number, executing article returning operation on the abnormal articles in the last picking compartment, and executing article returning operation on the abnormal articles in the last picking compartment in the at least two compartments.

Optionally, the item attributes include a management item class and a stock unit, and the stand-alone item determining module 510 may include:

the single machine management and control determining unit is used for acquiring management and control classes of all articles to be stored corresponding to the article storage-out event and respectively determining whether the corresponding articles to be stored need single machine management and control according to the management and control classes;

and the single-machine article determining unit is used for determining whether each article to be delivered corresponds to the same main attachment relation according to the stock quantity unit of each article to be delivered if so, and judging whether each article to be delivered is a single article in the suite article according to the determination result, wherein each article to be delivered corresponding to the same main attachment relation is a single article in the same suite article.

On this basis, optionally, the above-mentioned delivery device may further include:

and the main attachment relation judging module is used for determining whether the main attachment relation is not recorded in the preset white list or not if yes, and each single article corresponding to the main attachment relation recorded in the preset white list is an article which does not need to be taken out of the warehouse in a complete set.

According to the device for discharging the package items provided by the fifth embodiment of the invention, whether each item to be discharged is a single item in the package items or not is determined by the single item determining module according to the item attribute of each item to be discharged corresponding to the monitored item discharging event, so that whether the package items are continuously discharged in a packaged mode or the individual items to be discharged are directly discharged is determined; if each article to be delivered is a single article in the suite article through the quantity to be delivered determining module, the quantity to be delivered of each single article can be determined according to the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center, and the inventory quantity can be understood as the account inventory quantity, so that the quantity to be delivered can theoretically represent the quantity of the corresponding single article which can be delivered in order to meet the delivery requirement as far as possible; because the account inventory quantity and the actual inventory quantity may be different, the picking quantity obtaining module can execute article picking operation on corresponding single articles in the warehouse logistics center according to each to-be-checked quantity to obtain the actual picking quantity of each single article; furthermore, in order to ensure the complete shipment of each individual item belonging to the same item, the item shipment module may determine the target shipment number of each individual item according to each picking number, and each target shipment number may be the number of individual items capable of being shipped from the item package actually representing each individual item to meet the shipment requirement as much as possible and complete shipment, on the basis of which item shipment operation is performed for each single item of the picked target shipment number. The device achieves the effect of complete warehouse-out of the suite articles, further ensures coordination of the complete and integral supply chains of the suite articles when the suite articles are distributed to the article acquirer, avoids article loss caused by article mismatching and resource waste caused by logic mismatching, and provides a good implementation scheme for the application scene of integral warehouse logistics.

The device for discharging the kit items provided by the embodiment of the invention can execute the method for discharging the kit items provided by any embodiment of the invention, and has the corresponding functional modules and beneficial effects of the execution method.

It should be noted that, in the embodiment of the apparatus for delivering articles from a warehouse of a kit, each unit and module included in the apparatus are only divided according to the functional logic, but not limited to the above-mentioned division, so long as the corresponding functions can be implemented; in addition, the specific names of the functional units are also only for distinguishing from each other, and are not used to limit the protection scope of the present invention.

Example six

Fig. 11 is a schematic structural diagram of a device for delivering out articles from a warehouse, which is provided in the sixth embodiment of the present invention, and as shown in fig. 11, the device for delivering out a warehouse includes a memory 610, a processor 620, an input device 630 and an output device 640. The number of processors 620 in the ex-warehouse facility may be one or more, one processor 620 being taken as an example in fig. 11; the memory 610, processor 620, input device 630, and output device 640 in the ex-warehouse facility may be connected by a bus or other means, as exemplified by connection via bus 650 in fig. 11.

The memory 610 is used as a computer readable storage medium, and may be used to store software programs, computer executable programs, and modules, such as program instructions/modules corresponding to the method for delivering items in a package according to an embodiment of the present invention (e.g., the stand-alone item determining module 510, the number to be delivered determining module 520, the pick number obtaining module 530, and the package delivering module 540 in the package delivering device). The processor 620 executes various functional applications and data processing of the ex-warehouse apparatus by running software programs, instructions and modules stored in the memory 610, i.e., implements the ex-warehouse method of the kit item described above.

The memory 610 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, at least one application program required for functions; the storage data area may store data created according to the use of the ex-warehouse device, etc. In addition, memory 610 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some examples, memory 610 may further include memory remotely located relative to processor 620, which may be connected to the device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input device 630 may be used to receive input numeric or character information and to generate key signal inputs related to user settings and function control of the device. The output device 640 may include a display device such as a display screen.

Example seven

A seventh embodiment of the present invention provides a storage medium containing computer-executable instructions for performing a method of warehousing out of a kit of items when executed by a computer processor, comprising:

When an article delivery event is monitored, determining whether each article to be delivered is a single article in the suite articles according to the article attribute of each article to be delivered corresponding to the article delivery event;

if yes, determining the quantity to be delivered of each single article according to the required quantity of each single article and the inventory quantity of each single article in a warehouse logistics center;

performing article picking operation on corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of each single article;

and determining the target ex-warehouse number of each single-machine article according to each picking number, and executing article ex-warehouse operation on the single-machine articles of each picked target ex-warehouse number.

Of course, the storage medium containing the computer executable instructions provided in the embodiments of the present invention is not limited to the method operations described above, and may also perform the related operations in the method for ex-warehouse of the kit item provided in any embodiment of the present invention.

From the above description of embodiments, it will be clear to a person skilled in the art that the present invention may be implemented by means of software and necessary general purpose hardware, but of course also by means of hardware, although in many cases the former is a preferred embodiment. In light of such understanding, the technical solution of the present invention may be embodied essentially or in part in the form of a software product, which may be stored in a computer-readable storage medium, such as a floppy disk, read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), FLASH Memory (FLASH), hard disk, optical disk, etc., of a computer, which may be a personal computer, a server, a network device, etc., and which includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform the methods described in the embodiments of the present invention.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

Claims (8)

1. A method of delivering items from a kit, comprising:

when an article delivery event is monitored, determining whether each article to be delivered is a single article in a suite article according to the article attribute of each article to be delivered corresponding to the article delivery event;

if yes, the quantity to be delivered of each single article is respectively determined according to the required quantity of each single article and the inventory quantity of each single article in a warehouse logistics center;

performing article picking operation on the corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of the single articles;

Determining the target ex-warehouse number of each single-machine article according to the picking number, and executing article ex-warehouse operation on the single-machine articles of the target ex-warehouse number picked;

the method for respectively determining the quantity to be delivered of each single article according to the required quantity of each single article and the stock quantity of each single article in a warehouse logistics center comprises the following steps:

acquiring the required quantity of each single article and the inventory quantity of each single article in a warehouse logistics center, and taking the first minimum quantity of the required quantity and the inventory quantity of each single article as the candidate quantity of the single article;

taking the second minimum number in the candidate numbers as the quantity to be delivered of each single-machine article;

each of the single-machine articles belongs to at least two of the kit articles, and the second minimum number in the candidate numbers is used as the quantity to be delivered of each of the single-machine articles, and the method comprises the following steps:

determining a third minimum number in the candidate numbers, taking the kit item of which the candidate number is the third minimum number and to which the single item belongs as a target kit item, and taking the third minimum number as the quantity to be delivered of the single item in the target kit item;

And taking the sleeve articles except the target sleeve article in the sleeve articles as the rest sleeve articles, and determining the quantity to be stocked of each single article in the rest sleeve articles according to the candidate quantity of each single article in the rest sleeve articles and the corresponding quantity to be stocked of the single article in the target sleeve article.

2. The method of claim 1, wherein said determining a target shipment quantity for each of said stand-alone items based on each of said pick quantities comprises:

the picking number is taken as a target ex-warehouse number of each of the individual articles if the picking numbers of the individual articles are equal, and/or the smallest of the picking numbers is taken as the target ex-warehouse number if the picking numbers of the individual articles are not equal.

3. The method of claim 1, wherein the pick quantity of each of the stand-alone items is unequal, further comprising, after the determining a target stock-out quantity of each of the stand-alone items based on each of the pick quantities:

If the single articles with the quantity to be delivered are stored in the same bin of the warehouse logistics center, determining the abnormal quantity of the abnormal articles according to the target delivery quantity and the picking quantity of the abnormal articles aiming at the abnormal articles with the quantity to be picked in the single articles being larger than the target delivery quantity, and executing article returning operation on the abnormal articles with the abnormal quantity to be picked in the same bin;

and/or the number of the groups of groups,

if the single-machine articles with the quantity to be delivered are stored in at least two compartments of the warehouse logistics center, and the picking quantity of each single-machine article is the total quantity of the single-machine articles picked from the at least two compartments, determining the abnormal quantity of the abnormal articles in each single-machine article, and judging whether the abnormal quantity is less than or equal to the picking quantity of the abnormal articles in the last picking compartment in the at least two compartments;

if yes, carrying out the article returning operation on the abnormal articles with the abnormal quantity picked in the last picking bin; otherwise, taking the picking number of the abnormal articles in the last picking bin as a returning number, taking a difference value between the abnormal number and the returning number as a returning number, executing the article returning operation on the abnormal articles in the last picking bin in the picked returning number, and executing the article returning operation on the abnormal articles in the last picking bin in the at least two bins in the picked returning number.

4. The method of claim 1, wherein the item attributes comprise a management item class and a stock unit, and wherein determining whether each item to be vended is a stand-alone item in a kit item based on the item attributes of each item to be vended corresponding to the item vended event comprises:

acquiring the control class of each article to be delivered corresponding to the article delivery event, and respectively determining whether the corresponding article to be delivered needs single machine control according to each control class;

if so, determining whether the to-be-ex-warehouse objects correspond to the same main attachment relation according to the stock quantity units of the to-be-ex-warehouse objects, and judging whether the to-be-ex-warehouse objects are single objects in the suite objects according to the determination result, wherein the to-be-ex-warehouse objects corresponding to the same main attachment relation are single objects in the same suite object.

5. The method of claim 4, further comprising, after said determining whether each of said items to be vended corresponds to the same master affiliation based on said inventory units of each of said items to be vended:

if yes, determining whether the main attachment relation is not recorded in a preset white list, wherein each single article corresponding to the main attachment relation recorded in the preset white list is an article without a packaged warehouse-out.

6. A device for delivering items from a package, comprising:

the single-machine article determining module is used for determining whether each article to be delivered is a single article in the suite article according to the article attribute of each article to be delivered corresponding to the article delivery event when the article delivery event is monitored;

the to-be-ex-warehouse quantity determining module is used for determining the to-be-ex-warehouse quantity of each single article according to the required quantity of each single article and the inventory quantity of each single article in the warehouse logistics center if the to-be-ex-warehouse quantity is positive;

the picking quantity obtaining module is used for carrying out article picking operation on the corresponding single articles in the warehouse logistics center according to the quantity to be delivered to obtain the picking quantity of the single articles;

the external article ex-warehouse module is used for determining the target ex-warehouse quantity of each single article according to the picking quantity, and executing article ex-warehouse operation on the single articles of the target ex-warehouse quantity picked;

the module for determining the quantity to be delivered specifically comprises:

a candidate quantity determining unit, configured to obtain a required quantity of each single article and an inventory quantity of each single article in a warehouse logistics center, and regarding, for each single article, a first minimum quantity of the required quantity and the inventory quantity of the single article as a candidate quantity of the single article; the to-be-delivered-quantity determining unit is used for taking the second minimum quantity in the candidate quantities as the to-be-delivered quantity of each single article;

Each single article belongs to at least two suite articles, and the number to be delivered determining unit is specifically used for:

determining a third minimum number in the candidate numbers, taking the kit item of which the candidate number is the third minimum number and to which the single item belongs as a target kit item, and taking the third minimum number as the quantity to be delivered of the single item in the target kit item;

and taking the sleeve articles except the target sleeve article in the sleeve articles as the rest sleeve articles, and determining the quantity to be stocked of each single article in the rest sleeve articles according to the candidate quantity of each single article in the rest sleeve articles and the corresponding quantity to be stocked of the single article in the target sleeve article.

7. A warehouse-out facility for items of a kit, comprising:

one or more processors;

a memory for storing one or more programs;

when the one or more programs are executed by the one or more processors, the one or more processors are caused to implement the method of warehousing out of kit items of any one of claims 1-5.

8. A computer readable storage medium having stored thereon a computer program, wherein the computer program, when executed by a processor, implements a method of ex-warehouse of kit items as claimed in any one of claims 1-5.