CN112990825A - Method, device, equipment and storage medium for ex-warehouse of suite articles - Google Patents

Abstract

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

Description

Method, device, equipment and storage medium for ex-warehouse of suite articles

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 a suite item out of a warehouse.

Background

In large piece warehouse logistics, the management of the outgoing of a kit of items may be involved, the kit of items comprising at least two individual items, such as a large piece kit of air-conditioned type, comprising an internal unit and an external unit. It should be noted that, for the air conditioner itself, the internal unit and the external unit are stored separately in the storage logistics center, but for the object acquisition side, the internal unit and the external unit are an integral unit that needs to be acquired simultaneously.

At present, after a warehouse logistics center receives an article acquisition task of an air conditioner, relevant workers can respectively take out an inner machine and an outer machine from the warehouse logistics center according to the article acquisition task to carry out warehouse-out.

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

Disclosure of Invention

The embodiment of the invention provides a method, a device, equipment and a storage medium for the ex-warehouse of a kit article, so as to realize the effect of the complete ex-warehouse of the kit article.

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

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

if yes, respectively determining the quantity of the single-machine articles to be delivered according to the required quantity of the single-machine articles and the inventory quantity of the single-machine articles in the warehouse logistics center;

carrying out article picking operation on corresponding single-machine articles in the warehouse logistics center according to the quantity of each article to be delivered, so as to obtain the picking quantity of each single-machine article;

and 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 with each picked target ex-warehouse quantity.

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

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

the warehouse-out quantity determining module is used for determining the warehouse-out 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 if the single-machine article is in the warehouse-out quantity determining module;

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

and the external member article delivery module is used for determining the target delivery quantity of each single machine article according to each picking quantity and executing article delivery operation on the single machine articles with the picked target delivery quantity.

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

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 implement the method for exporting the kit item provided by any embodiment of the invention.

In a fourth aspect, the embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the method for exporting the kit item provided in any embodiment of the present invention.

According to the technical scheme of the embodiment of the invention, whether each article to be delivered is a single article in the suite article is determined according to the article attribute of each article to be delivered corresponding to the monitored article delivery event, so that whether the following steps are continuously executed to carry out the complete delivery of the suite article or the independent delivery of each article to be delivered is directly carried out is determined; if each article to be delivered is a single-machine article in the suite article, the quantity to be delivered of each single-machine article can be respectively determined according to the required quantity of each single-machine article and the inventory quantity of each single-machine 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 corresponding single-machine articles which can be delivered in order to meet the delivery requirement as much as possible; because the account stock quantity and the actual stock quantity are different, the item picking operation can be performed on the corresponding single-machine items in the warehouse logistics center according to the quantity to be delivered, and the picking quantity actually picked by each single-machine item is obtained; furthermore, in order to ensure the complete delivery of the single-machine articles belonging to the same suite, the target delivery quantity of each single-machine article can be respectively determined according to each picking quantity, and each target delivery quantity can actually reflect the quantity of the suite articles formed by each single-machine article which can be delivered in order to meet the delivery requirement as much as possible and to deliver the suite articles in a complete set, and on the basis, the delivery operation of the single-machine articles with each picked target delivery quantity is executed. Above-mentioned technical scheme has reached the effect of the complete set of shipment of external member article, and then has guaranteed the complete and whole supply chain's of external member article coordination when dispatching to article acquisition side and has avoided appearing because article that article mismatch leads to lose and because the condition of the wasting of resources that logic mismatch leads to, provides a fine implementation scheme for the application scene of whole storage commodity circulation.

Drawings

Fig. 1 is a flowchart of a method for delivering a kit item according to a first embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a setting result of a suite management and control switch in a method for unloading a suite item according to a first embodiment of the present invention;

FIG. 3 is a flowchart of a method for delivering a kit according to a second embodiment of the present invention;

FIG. 4 is a diagram illustrating a process of item inventory location in a method for retrieving a set of items from a warehouse according to a second embodiment of the present invention;

FIG. 5 is a flowchart of a method for delivering a kit item according to a third embodiment of the present invention;

fig. 6 is a schematic view of article review in a method for unloading a kit article according to a third embodiment of the present invention;

FIG. 7 is a flowchart of a method for delivering a kit item according to a fourth embodiment of the present invention;

fig. 8 is a flowchart of external member management and control in a method for delivering external member articles out of a warehouse according to a fourth embodiment of the present invention;

fig. 9 is a flowchart of an alternative example of a method for unloading a kit item according to a fourth embodiment of the present invention;

fig. 10 is a block diagram of an ex-warehouse device of a kit article according to a fifth embodiment of the present invention;

fig. 11 is a schematic structural diagram of an ex-warehouse device for a kit article according to a sixth embodiment of the present invention.

Detailed Description

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

Before the embodiment of the present invention is described, an application scenario of the embodiment of the present invention is exemplarily described: generally, in an article acquisition task received by a warehouse logistics center, only package articles of what type under what brand are specified, but it is not specified that such package articles are composed of stand-alone articles of what type, but in practical application, stand-alone articles capable of composing the package articles have various possibilities, and at this time, the situation that only the stand-alone articles are taken out of the warehouse and at least two stand-alone articles taken out of the warehouse are not matched as stated in the background art is easily caused when the package articles are taken out of the warehouse through manual control.

Example one

Fig. 1 is a flowchart of a method for unloading a kit item according to a first embodiment of the present invention. The embodiment can be applied to the condition of controlling the complete delivery of the kit articles. The method can be executed by the device for exporting the kit item provided by the embodiment of the invention, the device can be realized by software and/or hardware, the device can be integrated on the device for exporting the kit item, 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:

s110, when the article out-of-warehouse event is monitored, determining whether each article to be out-of-warehouse is a single article in the suite article according to the article attribute of each article to be out-of-warehouse corresponding to the article out-of-warehouse event.

The article delivery event may be an event triggered by an article attribution party sending an article acquiring task for notifying the warehouse logistics center to control the delivery of the corresponding article to be delivered, the article acquiring 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. In consideration of application scenarios that may be involved in the embodiments of the present invention, for example, the item acquisition task may be understood as an order, the item attribution may be understood as a merchant, and the item to be warehoused may be understood as an item to be warehoused, that is, an item to be sold.

The number of the articles to be delivered corresponding to the article delivery event may be one, two or more, each article to be delivered has its own article attribute, and according to the article attributes, it can be determined whether the corresponding article to be delivered is a stand-alone article in a suite of articles, where the suite of articles may be understood as an article composed of at least two stand-alone articles, such as an air conditioner composed of an internal unit and an external unit, a table and chair suite composed of a table and a chair, and the stand-alone article may be understood as an independent component in the suite of articles. In practice, the number of individual items in a kit may be the same or different, such as an air conditioner consisting of an inner unit and an outer unit, and a set of seating kits consisting of a table and four chairs. Optionally, each article to be delivered may be a single article belonging to the same suite, taking articles to be delivered A, B and C as examples, and a certain suite is composed of A, B and C; or can be stand-alone articles belonging to different suite articles, wherein one suite article is composed of A and C and the other suite article is composed of B and C; etc., and are not specifically limited herein.

And S120, if so, respectively determining the quantity of the single-machine articles to be delivered according to the required quantity of the single-machine articles and the inventory quantity of the single-machine articles in the warehouse logistics center.

If a certain article to be delivered is not a single article in the kit article, controlling the article to be delivered separately; otherwise, the other articles to be delivered matched with the articles to be delivered (i.e. the articles to be delivered belonging to the same suite of articles as the articles to be delivered) can be controlled to be delivered in a set. Specifically, when the articles to be delivered from the warehouse are single-machine articles, the required quantity of each single-machine article and the stock quantity in the warehouse logistics center can be respectively obtained, the required quantity can be the quantity actually required by the single-machine articles in the article obtaining task, the stock quantity can be the quantity actually stored in the warehouse logistics center by the single-machine articles, and in practical application, the required quantity may be greater than, equal to or less than the stock quantity. On the basis, the quantity to be delivered of each single item can be determined based on the quantity required and the quantity stored by each single item, but in order to ensure that the single items belonging to the same suite are delivered in a complete set, the quantity required and the quantity stored by each single item can be comprehensively considered, and the quantity to be delivered of each single item is determined based on the quantity required and the quantity stored by each single item, wherein the quantity to be delivered can be the quantity determined according to actual demand conditions and actual storage conditions, and the quantity to be delivered can enable each single item belonging to the same suite to be delivered in a complete set.

S130, according to the quantity of each single item to be delivered, carrying out item picking operation on the corresponding single item in the warehouse logistics center to obtain the picking quantity of each single item.

After the quantity to be delivered of each single item is obtained, for each single item, an item picking operation may be performed on the single item in the warehouse logistics center based on the quantity to be delivered of the single item, so as to obtain a picking quantity of the single item, where the picking quantity may be a quantity of the single item actually picked from the warehouse logistics center, and in practical applications, since there is a case that the quantity of accounts is inconsistent with the actual quantity of stock, the quantity of stock in S120 may be understood as the quantity of accounts, so the quantity to be delivered may be greater than the picking quantity (when the actual quantity of stock is less than the quantity of accounts) or equal to the picking quantity (when the actual quantity of stock is greater than or equal to the quantity of accounts).

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 with each picked target ex-warehouse quantity.

For each single machine article, the target ex-warehouse quantity of the single machine article can be the quantity of the single machine article actually ex-warehouse, and the target ex-warehouse quantity is less than or equal to the picking quantity of the single machine article; and carrying out the goods delivery operation on the single-machine goods with the target delivery quantity picked out. It should be noted that, in order to ensure the complete delivery of the single-machine articles belonging to the same suite of articles, the picking number of the single-machine articles can be comprehensively considered, and the target delivery number of each single-machine article can be determined based on the picking number of the single-machine articles; on the basis, considering that the proportion of the articles in the kit articles to which the single articles belong can be different, for example, the proportion of the inner machine and the outer machine in the air conditioner can be 1:1, and the proportion of the table and the chair in the seat kit can be 1:4, so that the picking quantities and the article proportions can be comprehensively considered when determining the target ex-warehouse quantity of the single articles.

In practical application, optionally, under the condition that the quantity of each single machine article in the kit article is equal, if the picking quantity of each single machine article is equal, the picking quantity can be used as the target delivery quantity of each single machine article; and/or if the picking numbers of the single items are not equal, the smallest picking number in the picking numbers can be used as the target ex-warehouse number, so that the effect of the complete ex-warehouse of the largest number of the kit items is achieved.

According to the technical scheme of the embodiment of the invention, whether each article to be delivered is a single article in the suite article is determined according to the article attribute of each article to be delivered corresponding to the monitored article delivery event, so that whether the following steps are continuously executed to carry out the complete delivery of the suite article or the independent delivery of each article to be delivered is directly carried out is determined; if each article to be delivered is a single-machine article in the suite article, the quantity to be delivered of each single-machine article can be respectively determined according to the required quantity of each single-machine article and the inventory quantity of each single-machine 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 corresponding single-machine articles which can be delivered in order to meet the delivery requirement as much as possible; because the account stock quantity and the actual stock quantity are different, the item picking operation can be performed on the corresponding single-machine items in the warehouse logistics center according to the quantity to be delivered, and the picking quantity actually picked by each single-machine item is obtained; furthermore, in order to ensure the complete delivery of the single-machine articles belonging to the same suite, the target delivery quantity of each single-machine article can be respectively determined according to each picking quantity, and each target delivery quantity can actually reflect the quantity of the suite articles formed by each single-machine article which can be delivered in order to meet the delivery requirement as much as possible and to deliver the suite articles in a complete set, and on the basis, the delivery operation of the single-machine articles with each picked target delivery quantity is executed. Above-mentioned technical scheme has reached the effect of the complete set of shipment of external member article, and then has guaranteed the complete and whole supply chain's of external member article coordination when dispatching to article acquisition side and has avoided appearing because article that article mismatch leads to lose and because the condition of the wasting of resources that logic mismatch leads to, provides a fine implementation scheme for the application scene of whole storage commodity circulation.

On this basis, in order to prevent the situation that the warehouse management is disordered due to the fact that the strong warehouse-out flow is limited, for example, warehouse managers are used to offline management in a relatively customary manner, when the warehouse managers do not prepare for the online management, the situations that the warehouse management is disordered due to personal understanding and incapability of keeping up the operation efficiency may occur, optionally, after an article warehouse-out event is monitored, whether the external member control switch is opened or not may be judged first, the external member control switch may control the external member checking function of each link to deal with the problem when the anomaly occurs, namely, the external member control switch may be opened to perform warehouse-out control on the external members by using the technical scheme, otherwise, the external member control switch is not used to perform warehouse-out control on the external members. The setting result of the suite management and control switch can be seen in fig. 2.

Example two

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

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

s210, when the article out-of-warehouse event is monitored, determining whether each article to be out-of-warehouse is a single article in the suite article according to the article attribute of each article to be out-of-warehouse corresponding to the article out-of-warehouse event.

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

For each single-machine article, in order to meet the ex-warehouse requirement of the single-machine article as much as possible on the basis of inventory, the first minimum quantity in the required quantity and the inventory quantity of the single-machine article can be used as the candidate quantity of the single-machine article, so that the ex-warehouse requirement of the single-machine article can be completely guaranteed when the required quantity of the single-machine article is less than or equal to the inventory quantity; otherwise, the warehouse-out requirement of the single-machine article can be ensured to the maximum extent under the actual condition. When the candidate number of each individual item is obtained, in order to guarantee the complete delivery of the kit item, when the number of each individual item in the kit item is equal, the second minimum number of the candidate number of each individual item may be used as the to-be-delivered number of each individual item. It should be noted that the essence of the "first minimum number" is the minimum number of the demand quantity and the inventory quantity of a single item, and the essence of the "second minimum number" is the minimum number of the candidate quantities of each single item, and they are named differently here in order to distinguish the two "minimum numbers".

On this basis, optionally, one, two or more compartments may be included in the storage logistics center, and when the number of compartments is at least two, the determination process of the candidate number in S220 may be: acquiring the required quantity of each single machine article, the inventory quantity of each single machine article in each warehouse of the warehouse logistics center and the preset quantity with the value of 0; determining the current bin among the bins for each single machine article, 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 bin as the candidate number of the single machine article in the current bin, 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 bin to be the required number of the single machine article, increasing the candidate number to the preset number, and updating the preset number according to the increasing result; updating the next bin of the current bin to the current bin, and repeatedly executing the step of taking the first minimum number of the required number of the single-machine articles and the stock number of the single-machine articles in the current bin as the candidate number of the single-machine articles in the current bin; if there is no longer a next bin or the required number of individual items is 0, the preset number is taken as the candidate number of individual items in the warehouse logistics center.

And S230, carrying out article picking operation on the corresponding single-machine articles in the warehouse logistics center according to the quantity of each article to be delivered, so as to obtain the picking quantity of each single-machine 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 with each picked target ex-warehouse quantity.

According to the technical scheme of the embodiment of the invention, for each single-machine article, the required quantity and the first minimum quantity in the inventory quantity of the single-machine article in the warehouse logistics center are used as the candidate quantity of the single-machine article, so that the ex-warehouse requirement of the single-machine article is met as far as possible on the basis of inventory; furthermore, the second minimum number in the candidate number of each single-machine article is used as the number of the single-machine articles to be delivered, and the second minimum number is matched with the subsequent steps, so that the effect of delivering the kit articles in a set is achieved.

An alternative technical solution, where each individual item belongs to at least two suite items, and the second minimum number in each candidate number is used as the number of items to be delivered from each individual item, may include: determining a third minimum number in the candidate numbers, taking the suite items to which the stand-alone items with the candidate number of the third minimum number belong as target suite items, taking the third minimum number as the number of the stand-alone items in the target suite items to be delivered out of the warehouse, and mutually matching with the subsequent steps, thereby ensuring the effect of complete delivery of the target suite items; furthermore, the kit items except the target kit item in each kit item are used as the rest kit items, and for each rest kit item, the number to be delivered of each single item in the rest kit items is determined according to the candidate number of each single item in the rest kit items and the number to be delivered of the corresponding single item for the target kit item, for example, the number of the rest kit items is one, and for each single item in the rest kit items, the intermediate number of the single item is determined according to the candidate number of the single item and the number to be delivered in the target kit item; and then, the fourth minimum quantity of the middle quantity of each single-machine article in the other kit articles is used as the quantity to be delivered of each single-machine article in the other kit articles, and the quantity is matched with the subsequent steps, so that the effect of delivering the whole set of the other kit articles 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 suite items, and these two "minimum numbers" are named differently here also for distinguishing them.

In order to better understand the specific implementation process of the above steps, the following describes an exemplary description of the item inventory location in the method for exporting a kit item from a warehouse according to this embodiment with reference to a specific example. When the external member is taken out of the warehouse for positioning, if the external member is contained in a certain wave, the external member is taken out of the warehouse for positioning according to the whole external member. Illustratively, order 1 in one wave requires 3 kits A and order 2 requires 3 kits A and 2 kits B, where kit A consists of A, B, C, three stand-alone items, and kit B consists of A, D, two stand-alone items, as shown in FIG. 4 for the item inventory location process for the two orders:

step1 summarizes the required quantity of each individual item in two orders because the warehouse logistics center is managed according to individual items; step 2 is the pairing of the required number in step1 in units of kit items; step 3 inquires the stock quantity of each single item in the warehouse logistics center; step 4 is to determine the minimum number of ABCD according to step 3 and step1, respectively, if the demand number of a is 8 and the stock number is 6, then a in step 4 is the minimum number of 8 and 6; step 5, the number of C is the minimum, and ABC is one set, the number of C is used as the reference to match the number of A and B, and further the number of D is the minimum in D and unmatched A, and AD is one set, the number of D is used as the reference to match the number of A; step 6 is the difference between step1 and step 5; step 7 is obtained by summarizing according to step 5; step 8 is to complete the warehouse-out with the lowest requirement of the kit.

EXAMPLE III

Fig. 5 is a flowchart of a method for exporting a kit item 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 picking numbers of the individual items are not equal, and after determining the target ex-warehouse number of each individual item according to each picking number, the ex-warehouse method for the kit items may further include: if the single-machine articles with the quantity to be delivered are stored in the same compartment of the warehouse logistics center, aiming at abnormal articles with the quantity larger than the target delivery quantity in each single-machine article, determining the abnormal quantity of the abnormal articles according to the target delivery quantity and the picking quantity of the abnormal articles, and performing article return operation on the picked abnormal articles with the abnormal quantity in the same compartment;

and/or the presence of a gas in the gas,

if the single machine articles with the quantity to be delivered are stored in at least two bins of the warehouse logistics center, the picking quantity of each single machine article is the total quantity of the single machine articles picked from the at least two bins, 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 bin of the at least two bins; if yes, carrying out article returning operation on the picked abnormal articles with abnormal quantity in the last picking bin; otherwise, taking the picking number of the abnormal articles in the last picking bin as the returning number of the returned shelves, taking the difference value between the abnormal number and the returning number as the returning number of the bins, performing article returning operation on the abnormal articles in the picked returning number of the shelves in the last picking bin, and performing article returning operation on the abnormal articles in the picked returning number of the bins in the historical picking bin between the last picking bins of at least two bins. The same or corresponding terms as those in the above embodiments are not explained in detail herein.

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

s310, when the article out-of-warehouse event is monitored, whether each article to be out-of-warehouse is a single article in the suite article is determined according to the article attribute of each article to be out-of-warehouse corresponding to the article out-of-warehouse event.

And S320, if so, respectively determining the quantity of the single-machine articles to be delivered according to the required quantity of the single-machine articles and the inventory quantity of the single-machine articles in the warehouse logistics center.

S330, according to the quantity of each single item to be delivered, carrying out item picking operation on the corresponding single item in the warehouse logistics center to obtain the picking quantity of each single item.

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 with each picked target ex-warehouse quantity.

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

In the warehouse logistics, the processes of item inventory positioning, item picking, item rechecking, item delivery and item distribution are generally included in sequence, wherein the item rechecking process can be understood as determining the target delivery quantity of each single item according to the picking quantity of each single item, and determining whether the single item has the requirement of returning to a shelf and/or a storage according to the picking quantity of the single item and the target delivery quantity of the single item, and the like, for each single item. Specifically, when the single-machine articles to be delivered are stored in the same compartment of the warehouse logistics center, that is, when the articles of the single-machine articles are picked in one compartment, whether abnormal articles with picking quantity larger than the target delivery quantity exist in the single-machine articles is determined, if yes, the abnormal quantity of the abnormal articles is determined according to the target delivery quantity and the picking quantity of the abnormal articles, and then the article return operation is performed on the abnormal articles with the picked abnormal quantity in the same compartment.

S360, if the single-machine articles with the quantity to be delivered are stored in at least two bins 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 bins, 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 bin of the at least two bins.

In the case that the single items to be delivered are stored in at least two compartments of the warehouse logistics center, that is, when the item picking of each single item is performed in at least two compartments, the picking quantity of each single item obtained in S330 is the total quantity of the single items picked 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-machine article 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. Furthermore, since the abnormal articles may be single articles picked from the same compartment or different compartments, different picking conditions may affect whether article return to rack and/or warehouse operations are required subsequently. Accordingly, whether the abnormal quantity of the abnormal articles is smaller than or equal to the picking quantity of the abnormal articles in the last picking bin of the at least two bins is judged, and since the article picking operation is sequentially executed in each bin of the at least two bins, the last picking bin can be the bin where the article is picked for the last time when the abnormal articles are picked. For example, if the warehouse logistics center includes the bin 1 and the bin 2, and the abnormal article is picked between the bin 1 and then the abnormal article is picked between the bin 2, and the last picking bin is between the bin 2 at this time, it is helpful to determine whether to perform the article return operation and/or the article return operation subsequently based on the above determination process.

S370, if yes, carrying out article returning operation on the picked abnormal articles with abnormal quantity in the last picking bin; otherwise, taking the picking number of the abnormal articles in the last picking bin as the returning number of the returned shelves, taking the difference value between the abnormal number and the returning number as the returning number of the bins, performing article returning operation on the abnormal articles in the picked returning number of the shelves in the last picking bin, and performing article returning operation on the abnormal articles in the picked returning number of the bins in the historical picking bin between the last picking bins of at least two bins.

If the abnormal quantity is smaller than or equal to the picking quantity of the abnormal articles in the last picking chamber, which means that the abnormal articles in the abnormal quantity are picked in the last picking chamber, the article return operation can be performed on the abnormal articles in the picked abnormal quantity in the last picking chamber. Correspondingly, if the abnormal quantity is larger than the picking quantity of the abnormal articles in the last picking chamber, this means that the abnormal quantity of the abnormal articles is not only picked in the last picking chamber, and at this time, in addition to the article shelf returning operation, the article warehouse returning operation is also required to be performed. Specifically, the picking number of the abnormal articles in the last picking bin is used as the rack returning number, and the article rack returning operation is carried out on the abnormal articles with the picking rack returning number in the last picking bin; meanwhile, the difference value between the abnormal quantity and the return rack quantity is used as the return warehouse quantity, the abnormal articles with the return warehouse quantity are articles which cannot return to the last picking warehouse, the abnormal articles need to return to the historical picking warehouse between the last picking warehouse of at least two warehouses, and the historical picking warehouse can be the last one, the last two or a plurality of warehouses between the last picking warehouse when the abnormal articles are sequentially picked in each warehouse.

It should be noted that the article warehouse-out operation, the article warehouse-back operation, and/or the article shelf-back operation described in the embodiments of the present invention may be executed sequentially, or simultaneously, and are not specifically limited herein. In addition, S350 and S360 may be performed by selecting one or both of them according to the storage condition of the single articles stored in the warehouse logistics center, which is not specifically limited herein; s360 and S370 are processes sequentially executed in order.

According to the technical scheme of the embodiment of the invention, as the number of the bins among the bins in the warehouse logistics center is at least one, and the account inventory number and the actual inventory number in the bins are possibly different, in order to solve the problems of single machine loss and non-complete delivery caused by the difference, when single machine 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 delivery quantity are picked from the single machine articles, the abnormal number of the abnormal articles can be determined according to the target delivery quantity and the picking quantity of the abnormal articles, and the article return operation is performed on the picked abnormal articles with the abnormal number in the same bin; and/or when the single-machine articles with the quantity to be delivered are stored in at least two bins of the warehouse logistics center, the picking quantity of each single-machine article is the total quantity of the single-machine articles picked from the at least two bins, whether the abnormal articles with the abnormal quantity are picked from the last picking bin of the at least two bins can be determined according to the abnormal quantity of the abnormal articles in each single-machine article, if yes, the article return rack operation can be executed on the abnormal articles with the abnormal quantity picked from the last picking bin, otherwise, the picking quantity of the abnormal articles in the last picking bin can be used as the return rack quantity, the difference value between the abnormal quantity and the return rack quantity is used as the return bin quantity, the article return rack operation is executed on the abnormal articles with the return rack quantity picked from the last picking bin, and the article return rack operation is executed on the abnormal articles with the return rack quantity picked from the last picking bin in the picking bin of the at least two bins And (4) performing library operation. According to the technical scheme, the cost is reduced and the efficiency of the complete delivery is improved through the article shelf returning operation and/or the article warehouse returning operation of the abnormal articles.

In order to better understand the specific implementation process of the above steps, the article review in the method for exporting a kit article of the present embodiment is exemplarily described below with reference to specific examples. For example, for the case of picking between non-separate bins, it is assumed that a certain package of articles includes a single article X and a single article Y, the number of to-be-delivered-out of X and Y is 10, the number of picking of X is 10, and the number of picking of Y is 9, that is, when rechecking is performed after picking up the articles, X is rechecked as 10, and Y is rechecked as 9, at this time, it is prompted to scan an abnormal article, the abnormal reason is "package article difference", an abnormal shelf return list can be generated after scanning the abnormal article, and the newly-added abnormal type is "package article difference"; and then the abnormal shelf returning list can generate X shelf returning moving lists after signing for receipt, the number of the X shelf returning moving lists is 1 (namely 10-9), the abnormal shelf returning lists are taken out of the warehouse after being processed, and the target warehouse-out number of X and Y is 9. Fig. 6 shows a schematic diagram of the item review at the dock, where the number to be scanned in fig. 6 can be understood as the number to be picked in the above and the number scanned can be understood as the number to be picked in the above.

For the case of picking between the sub-bins, the warehouse logistics center includes the number 1 bin and the number 2 bin, and the quantity of X and Y to be delivered between the two bins (i.e. the stock location of the goods) is shown in table 1. Picking is firstly carried out between the 1 st bins, then picking is carried out between the 2 nd bins, kit checking is not needed after picking is carried out between the 1 st bins, kit checking is carried out after picking is carried out between the 2 nd bins, and the rechecking total quantity of X and Y between the two bins (namely the picking quantity of X between the 1 st bins and the picking quantity of X between the 2 nd bins are the rechecking total quantity of X, the condition of Y is similar) is checked. If not, the following processing is performed, see table 2:

and if the rechecking total amount of the X is larger than the rechecking total amount of the Y, generating an abnormal frame returning list of the X between the No. 2 bins, wherein the abnormal number is the rechecking total amount of the X-the rechecking total amount of the Y. And after the abnormal shelf returning list signs, generating an X item shelf returning task.

If the rechecking total amount of X is greater than that of Y, and the rechecking amount of X between the No. 2 bins (namely the picking number of X between the No. 2 bins) is less than (the rechecking total amount of X-the rechecking total amount of Y), generating an abnormal frame returning list of X between the No. 2 bins, wherein the frame returning number is the rechecking amount of X between the No. 2 bins; meanwhile, an abnormal bank returning list of X is generated between the No. 1 bins, and the number of the bank returning list is (the total rechecking amount of X-the total rechecking amount of Y) -the rechecking amount of X between the No. 2 bins.

TABLE 1 article inventory location

	X	Y
			No. 1 warehouse	8	3
No. 2 storehouse	2	7
			Total amount of the amount to be discharged	10	10

TABLE 2 after-picking article recheck

Example four

Fig. 7 is a flowchart of a method for delivering a kit item provided in the fourth embodiment of the present invention. The present embodiment is optimized based on the above technical solutions. In this embodiment, optionally, the article attributes may include a control article type and an inventory unit, and determining whether each article to be discharged is a stand-alone article in the suite article according to the article attribute of each article to be discharged corresponding to the article discharging event may include: acquiring control categories of each article to be delivered corresponding to the article delivery events, and respectively determining whether the corresponding article to be delivered needs single-machine control according to the control categories; if so, determining whether the articles to be delivered are corresponding to the same main and accessory relationship according to the stock quantity unit of the articles to be delivered, and judging whether the articles to be delivered are single-machine articles in the suite articles according to the determination result, wherein the articles to be delivered corresponding to the same main and accessory relationship are single-machine articles in the same suite article. The same or corresponding terms as those in the above embodiments are not explained in detail herein.

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

s410, acquiring control categories of the articles to be delivered corresponding to the article delivery events, and determining whether the corresponding articles to be delivered need single machine control or not according to the control categories.

In the storage logistics field, the articles may be controlled based on their article attributes, which may also be referred to as basic attributes, the article control process may be understood as basic attribute control, and the control category may be a category under the basic attribute control. Specifically, each article can be classified into three levels of articles ranging from large to small by the control article type, such as an "air conditioner, an air conditioner external unit" belongs to a large household appliance in a first-level article type, a household appliance in a second-level article type and an air conditioner in a third-level article type, so that whether the article to be delivered needs single machine control or not can be determined according to the control article type of the article to be delivered, the meaning of single machine control is that the corresponding article to be delivered is an article which needs to be controlled to be delivered to a single machine for storage, and the article cannot be delivered to the storage independently and must be delivered to the storage together with the matched single machine article. In practical application, optionally, because the third-level product is the finest product under the control product, whether the article to be delivered needs single-machine control or not can be judged according to the third-level product, and therefore the judgment precision of single-machine control is improved.

And S420, if yes, determining whether the articles to be delivered correspond to the same main attaching relationship according to the stock quantity unit of the articles to be delivered, and judging whether the articles to be delivered are single-machine articles in the suite articles according to the determination result, wherein the articles to be delivered corresponding to the same main attaching relationship belong to the single-machine articles in the same suite article.

If the goods to be delivered do not need to be controlled by a single machine, directly quitting; otherwise, whether the items to be delivered are corresponding to the same main-attached relationship or not can be determined according to Stock Keeping Units (SKUs) of the items to be delivered, for example, for a certain item to be delivered, whether a main-attached relationship corresponding to the SKU of the item to be delivered exists or not is inquired in a main-attached relationship item table, the corresponding relationship between the main SKU and the attached SKU is recorded in the main-attached relationship, and the items to be delivered having the same main-attached relationship are stand-alone items belonging to the same suite item, that is, whether some items to be delivered are stand-alone items belonging to the same suite item or not can be determined based on the main-attached relationship. In practical application, because some articles to be delivered from a warehouse which need to be managed by a single machine may not be the single machine articles in the suite, after the single machine management and control judgment is performed, the main and subsidiary relationship can be further judged.

And S430, if so, respectively determining the quantity of the single-machine articles to be delivered according to the required quantity of the single-machine articles and the inventory quantity of the single-machine articles in the warehouse logistics center.

S440, according to the quantity of each single item to be delivered, carrying out item picking operation on the corresponding single item in the warehouse logistics center to obtain the picking quantity of each single item.

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 with each picked target ex-warehouse quantity.

According to the technical scheme of the embodiment of the invention, whether the corresponding articles to be delivered need to be controlled by a single machine or not is respectively determined according to the control types of the articles to be delivered; if so, further determining whether each article to be delivered corresponds to the same main and subsidiary relationship according to the SKU of each article to be delivered to determine whether each article to be delivered belongs to a single article in the same suite, thereby achieving the effect of accurate, automatic and objective judgment of the single article.

An optional technical solution, after determining whether each article to be discharged corresponds to the same primary attaching relationship according to the stock quantity unit of each article to be discharged, the method for discharging the kit article may further include: if so, determining whether the main and supplementary relationships are not recorded in a preset white list, wherein each single-machine article corresponding to the main and supplementary relationships recorded in the preset white list is an article which does not need to be taken out of the warehouse in a set. Because some articles to be delivered from the warehouse, which have the same main and additional relationship, do not need to be managed and controlled by a suite, for example, the internal unit and the external unit of some air conditioners are already bound together in the warehouse logistics center, such internal unit and external unit are stand-alone articles which need to be managed and controlled by a stand-alone machine and have the same main and additional relationship, but do not need to be managed and controlled by a suite. Accordingly, in order to further improve the accuracy of determining the standalone articles that need to be managed and controlled by the suite, it can be determined whether the same affiliation relationship corresponding to each article to be delivered is recorded in the preset white list, and each standalone article corresponding to the affiliation relationship recorded in the preset white list is an article that does not need to be delivered in a suite.

In order to better understand the specific implementation process of the above steps, the following describes, with reference to a specific example, an exemplary description of the suite management and control in the method for exporting a suite item from a warehouse. For example, referring to fig. 8, it is determined whether the articles to be delivered need to be controlled by a single machine according to the three classes of the controlled article classes, if not, it is determined that external member control is not needed, otherwise, it is determined whether each article to be delivered corresponds to the same principal relationship; if not, determining that external member management and control are not needed, otherwise, determining whether the main attaching relationship is recorded in a preset white list; if so, determining that external member management and control are not needed, otherwise, determining that external member management and control are needed.

In practical application, the technical solutions set forth in the embodiments of the present invention are matched with each other, and a specific implementation process can be shown in fig. 9, which is set forth by taking a commodity in an e-commerce platform as an example. The specific implementation process of this example has been described in detail in the above sections, and is not described again here.

The technical scheme aims at the basic attribute management and control of the current large-piece logistics on the external member articles, and provides an overall distribution strategy and a single-bin and multi-bin control strategy and exception handling in a rechecking stage after picking through the stock distribution of the single-piece articles in the external member out of the warehouse, so that the management of the integrally stored external member articles is controlled, the matching of an overall order form when the external member articles are out of the warehouse is ensured, the later-stage distribution operation cost is reduced, the single-piece occurrence frequency of the warehouse is reduced, and a good industry strategy scheme is provided for the scene management of the overall large-piece warehouse logistics. Particularly, the warehouse management system is based on the management of the external members and the characteristics of current large warehouse logistics, the warehouse storage positioning control and the warehouse discharge control among multiple warehouses are realized, the problems of single-machine article warehouse discharge and loss are solved, the management and operation of the external members are well managed at the bottom end of the warehouse, and the problems are solved from the bottom.

EXAMPLE five

Fig. 10 is a block diagram of a device for unloading a kit item according to a fifth embodiment of the present invention, where the device is configured to perform a method for unloading a kit item according to any of the embodiments described above. The device and the method for delivering the kit items in the embodiments belong to the same inventive concept, and details that are not described in detail in the embodiments of the device for delivering the kit items can refer to the embodiments of the method for delivering the kit items. Referring to fig. 10, the apparatus may specifically include: a stand-alone item determination module 510, a pending delivery quantity determination module 520, a picking quantity derivation module 530, and a kit item delivery module 540.

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

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

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

the kit article delivery module 540 is configured to determine the target delivery quantity of each single machine article according to each picking quantity, and perform article delivery operation on the single machine articles with each picked target delivery quantity.

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

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

On this basis, optionally, each single item belongs to at least two suite items, and the unit for determining the number of items to be delivered from the warehouse may be specifically configured to:

determining a third minimum number in each candidate number, taking the suite item to which the stand-alone item with the candidate number being the third minimum number belongs as a target suite item, and taking the third minimum number as the number of the stand-alone items in the target suite item to be delivered;

and determining the quantity to be delivered of each single item in the other kit items according to the candidate quantity of each single item in the other kit items and the quantity to be delivered of the corresponding single item for the target kit item.

Optionally, the kit article warehouse-out module 540 may specifically include:

and the target ex-warehouse quantity determining unit is used for taking the picking quantity as the target ex-warehouse quantity of each single machine article if the picking quantity of each single machine article is equal, and/or taking the minimum picking quantity in the picking quantities as the target ex-warehouse quantity if the picking quantities of each single machine article are not equal.

Optionally, the picking quantities of the single-machine articles are not equal, and the delivery device may further include:

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

and/or the presence of a gas in the gas,

the quantity judging module is used for determining the target ex-warehouse quantity of each single machine article according to each picking quantity, determining the abnormal quantity of the abnormal articles in each single machine article if each single machine article with the quantity to be ex-warehouse is stored in at least two bins of the warehouse logistics center, and judging whether the abnormal quantity is less than or equal to the picking quantity of the abnormal articles in the last picking bin of the at least two bins if the picking quantity of each single machine article is the total quantity of the single machine articles picked from the at least two bins;

the article returning operation execution module is used for executing article returning operation on the picked abnormal articles with abnormal quantity in the last picking bin if the abnormal articles are picked; otherwise, taking the picking number of the abnormal articles in the last picking bin as the returning number of the returned shelves, taking the difference value between the abnormal number and the returning number as the returning number of the bins, performing article returning operation on the abnormal articles in the picked returning number of the shelves in the last picking bin, and performing article returning operation on the abnormal articles in the picked returning number of the bins in the historical picking bin between the last picking bins of at least two bins.

Optionally, the item attributes include a control item class and an inventory unit, and the stand-alone item determining module 510 may include:

the single machine control determining unit is used for acquiring control categories of each article to be delivered corresponding to the article delivery events and determining whether the corresponding article to be delivered needs single machine control according to the control categories;

and the single-machine article determining unit is used for determining whether the articles to be delivered out of the warehouse correspond to the same main and auxiliary relationship according to the stock quantity unit of the articles to be delivered out of the warehouse if the articles to be delivered out of the warehouse belong to the single-machine articles in the suite, and judging whether the articles to be delivered out of the warehouse correspond to the single-machine articles in the suite according to the determination result, wherein the articles to be delivered out of the warehouse corresponding to the same main and auxiliary relationship belong to the single-machine articles in the same suite.

On this basis, optionally, the warehouse exit device may further include:

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

According to the warehouse-out device for the external member articles, provided by the fifth embodiment of the invention, whether each article to be warehoused is a single-machine article in the external member articles is determined by the single-machine article determining module according to the article attribute of each article to be warehoused corresponding to the monitored article warehouse-out event, so that whether the following steps are continuously executed to carry out complete warehouse-out of the external member articles or to directly carry out independent warehouse-out of each article to be warehoused; 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 inventory quantity of each single article in the warehouse logistics center through the quantity to be delivered determining module, and the inventory quantity can be understood as the inventory quantity of accounts, so that the quantity to be delivered can theoretically represent the quantity of corresponding single articles which can be delivered in order to meet the delivery requirement as much as possible; because the stock quantity of the account and the actual stock quantity may have difference, the picking quantity obtaining module can carry out article picking operation on corresponding single-machine articles in the warehouse logistics center according to the quantity to be delivered, so as to obtain the picking quantity actually picked by each single-machine article; furthermore, in order to ensure the complete delivery of the single-machine articles belonging to the same suite article, the suite article delivery module can respectively determine the target delivery quantity of the single-machine articles according to each picking quantity, and each target delivery quantity can actually reflect the quantity of the suite articles formed by the single-machine articles which can be delivered in order to meet the delivery requirement as much as possible and deliver the packages, so that the selected single-machine articles with each target delivery quantity are subjected to article delivery operation on the basis. Above-mentioned device has reached the effect of the complete set of warehouse-out of external member article, and then has guaranteed the complete and whole supply chain's of external member article when dispatching obtains the side for the article coordination, and avoided appearing because article mismatch and the article loss that leads to and because the wasting of resources that logic mismatch leads to, provides a fine implementation scheme for the application scene of whole storage commodity circulation.

The device for delivering the kit item provided by the embodiment of the invention can execute the method for delivering the kit item 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 warehouse exit device of the kit, the units and modules included in the embodiment are only divided according to the functional logic, but are not limited to the above division, as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

EXAMPLE six

Fig. 11 is a schematic structural diagram of a warehouse exit device of a kit item according to a sixth embodiment of the present invention, as shown in fig. 11, the warehouse exit device includes a memory 610, a processor 620, an input device 630, and an output device 640. The number of the processors 620 in the ex-warehouse device may be one or more, and one processor 620 is taken as an example in fig. 11; the memory 610, the processor 620, the input device 630 and the output device 640 in the library apparatus may be connected through a bus or other means, and are exemplified by the bus 650 in fig. 11.

The memory 610 is a computer-readable storage medium, and can be used for storing software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the method for retrieving the package items according to the embodiments of the present invention (for example, the stand-alone item determining module 510, the to-be-retrieved quantity determining module 520, the picking quantity obtaining module 530, and the package item retrieving module 540 in the retrieving device of the package items). The processor 620 executes various functional applications and data processing of the out-of-library device by executing the software programs, instructions and modules stored in the memory 610, so as to implement the out-of-library method of the kit article.

The memory 610 may mainly include a program storage area and a data storage area, wherein the program storage area may store an operating system, an application program required for at least one function; the storage data area may store data created from use of the library apparatus, and the like. Further, the 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 located remotely from processor 620, which may be connected to devices through 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 generate key signal inputs related to user settings and function controls 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, which when executed by a computer processor, are configured to perform a method for ex-warehouse a kit item, including:

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

if yes, respectively determining the quantity of the single-machine articles to be delivered according to the required quantity of the single-machine articles and the inventory quantity of the single-machine articles in the warehouse logistics center;

carrying out article picking operation on corresponding single-machine articles in the warehouse logistics center according to the quantity of each article to be delivered, so as to obtain the picking quantity of each single-machine article;

and 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 with each picked target ex-warehouse quantity.

Of course, the storage medium provided by the embodiment of the present invention contains computer-executable instructions, and the computer-executable instructions are not limited to the operations of the method described above, and may also perform related operations in the method for exporting a kit item provided by any embodiment of the present invention.

From the above description of the embodiments, it is obvious for those skilled in the art that the present invention can be implemented by software and necessary general hardware, and certainly, can also be implemented by hardware, but the former is a better embodiment in many cases. With this understanding, the technical solutions of the present invention may be embodied in the form of a software product, which can be stored in a computer-readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a FLASH Memory (FLASH), a hard disk or an optical disk of a computer, and includes instructions for enabling a computer device (which may be a personal computer, a server, or a network device) to execute the methods according to the embodiments of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. 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, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A method of retrieving a kit item, comprising:

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

if yes, respectively determining the quantity of the single-machine articles to be delivered out of the warehouse according to the required quantity of the single-machine articles and the inventory quantity of the single-machine articles in the warehouse logistics center;

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

and 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 with the picked target ex-warehouse quantity.

2. The method according to claim 1, wherein the determining the quantity to be delivered of each of the single items according to the quantity demanded of each of the single items and the quantity of each of the single items stored in the warehouse logistics center respectively comprises:

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

and taking the second minimum number in each candidate number as the quantity to be delivered out of each single item.

3. The method of claim 2, wherein each of said stand-alone items is affiliated with at least two of said suite items, and said taking a second minimum number of each of said candidate numbers as an out-of-stock number for each of said stand-alone items comprises:

determining a third minimum number in each candidate number, taking the suite item to which the stand-alone item with the candidate number being the third minimum number belongs as a target suite item, and taking the third minimum number as the number of the stand-alone items in the target suite item to be delivered;

taking the kit items except the target kit item in each kit item as other kit items, and determining the quantity to be delivered of each single item in the other kit items according to the candidate quantity of each single item in the other kit items and the quantity to be delivered of the corresponding single item for the target kit item for each other kit item.

4. The method of claim 1, wherein said determining a target quantity out of stock for each of said individual items based on each of said picking quantities comprises:

if the picking quantities of the single-machine articles are equal, the picking quantities are used as target ex-warehouse quantities of the single-machine articles, and/or if the picking quantities of the single-machine articles are not equal, the picking quantities with the minimum quantity in the picking quantities are used as the target ex-warehouse quantities.

5. The method of claim 1, wherein said picking quantities of said individual items are not equal, further comprising, after said determining a target out-of-stock quantity for each of said individual items from each of said picking quantities:

if the single-machine articles with the quantity to be delivered are stored in the same compartment 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 picking quantity larger than the target delivery quantity in the single-machine articles, and performing article return operation on the picked abnormal articles with the abnormal quantity in the same compartment;

and/or the presence of a gas in the gas,

if the single items with the quantity to be delivered are stored in at least two bins of the warehouse logistics center, and the picking quantity of each single item is the total quantity of the single items picked from the at least two bins, determining the abnormal quantity of the abnormal items in each single item, and judging whether the abnormal quantity is smaller than or equal to the picking quantity of the abnormal items in the last picking bin of the at least two bins;

if yes, performing the article return operation on the abnormal quantity of the picked abnormal articles in the last picking bin; otherwise, the picking number of the abnormal articles in the last picking bin is used as a return shelf number, the difference value between the abnormal number and the return shelf number is used as a return bin number, the article return shelf operation is performed on the abnormal articles in the picking bin in the picked return shelf number, and the article return bin operation is performed on the abnormal articles in the picked return bin number in the historical picking bin in the last picking bin of the at least two bins.

6. The method according to claim 1, wherein the item attributes include a control item class and an inventory unit, and the determining whether each item to be discharged is a stand-alone item in the suite of items according to the item attribute of each item to be discharged corresponding to the item discharge event includes:

acquiring the control categories of the articles to be delivered corresponding to the article delivery events, and respectively determining whether the corresponding articles to be delivered need single machine control according to the control categories;

if so, determining whether the articles to be delivered out of the warehouse correspond to the same main attaching relationship according to the stock quantity unit of the articles to be delivered out of the warehouse, and judging whether the articles to be delivered out of the warehouse are stand-alone articles in the suite articles according to a determination result, wherein the articles to be delivered out of the warehouse corresponding to the same main attaching relationship are stand-alone articles in the same suite article.

7. The method according to claim 6, wherein after said determining whether each of the items to be discharged corresponds to the same attaching relationship according to the stock quantity unit of each of the items to be discharged, further comprising:

if so, determining whether the main and supplementary relationship is not recorded in a preset white list, wherein each single-machine article corresponding to the main and supplementary relationship recorded in the preset white list is an article which does not need to be delivered from a warehouse in a set.

8. An apparatus for retrieving a kit item, comprising:

the stand-alone article determining module is used for determining whether each article to be delivered is a stand-alone article in the suite articles 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 quantity-to-be-delivered-out determining module is used for determining the quantity to be delivered out 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 if the quantity to be delivered out of the warehouse is positive;

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

and the kit article delivery module is used for determining the target delivery quantity of each single machine article according to each picking quantity and executing article delivery operation on the single machine articles with the picked target delivery quantity.

9. An apparatus for the removal of a kit of parts, comprising:

one or more processors;

a memory for storing one or more programs;

when executed by the one or more processors, cause the one or more processors to implement a method of ex-warehouse a kit item as claimed in any of claims 1-7.

10. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out a method of ex-warehouse a kit item according to any one of claims 1 to 7.

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