CN115879866A - Commodity material warehouse-out control method and device, equipment, medium and product thereof - Google Patents

Abstract

The application relates to a commodity material warehouse-out control method, a device, equipment, a medium and a product thereof, wherein the method comprises the following steps: determining the single product occupation cost of various special materials corresponding to each version according to the special materials in the bill of materials corresponding to each version of the commodity item; allocating the production capacity of each edition corresponding to the total demand quantity of the commodity item, wherein for the special materials required by each edition, the inventory allowance of the special materials with the largest single product occupation cost is consumed preferentially to determine the production capacity of the corresponding edition; determining the total material consumption amount of each special material corresponding to the production capacity of each version according to the single product consumption amount of the special material in the bill of materials of each version; and (4) carrying out the material delivery operation, and delivering the corresponding special materials out of the warehouse according to the total material consumption of each special material used by each version. According to the method and the device, the special material with the highest single product occupation cost is preferentially controlled to be delivered out of the warehouse to produce corresponding commodity items, so that the special material is delivered out of the warehouse more orderly and efficiently.

Description

Commodity material warehouse-out control method and device, equipment, medium and product thereof

Technical Field

The application relates to the field of e-commerce information processing, in particular to a commodity material warehouse-out control method and a device, equipment, medium and product thereof.

Background

The commercial tenant of cross-border e-commerce generally deploys online shops in a plurality of e-commerce platforms at the same time, operates commodities through the multiple platforms and the multiple shops, and also needs to closely communicate with data in a production link, particularly needs to accurately control inventory materials, improves production efficiency and optimizes production cost by summarizing and managing information in various aspects.

In practice, the commodities released by the merchants are frequently updated and iterated, multiple versions may appear in the same period, each version may have its corresponding special material corresponding to the same function, and the cost of the special materials of different versions may be different. In the selling process, the difference of the commodity versions is not paid much attention, so that the inventory management of various special materials is more difficult. If the ordered delivery control of various special materials cannot be reasonably carried out, the unreasonable accumulation of product inventory is caused, and finally the storage cost is low. Meanwhile, the unordered warehousing-ex-warehouse control can also generate a messy effect for the inter-generation iteration of the commodities. The prior art just lacks the attention to the related field.

In consideration of the complexity of cross-border e-commerce enterprises in the production and marketing data docking, technical exploration needs to be carried out on the problems, and the problems in reality are solved through technical means so as to improve the information processing efficiency of the production and marketing docking link.

Disclosure of Invention

The present application aims to solve the above problems and provide a method for controlling the delivery of commodity materials, and a corresponding device, apparatus, non-volatile readable storage medium, and computer program product.

According to one aspect of the application, a commodity material warehouse-out control method is provided, and comprises the following steps:

determining the single product occupation cost of various special materials corresponding to each version according to the special materials in the bill of materials corresponding to each version of the commodity item;

allocating the production capacity of each edition corresponding to the total demand of the commodity item, wherein for the special materials required by each edition, the inventory allowance of the special materials with the largest single product occupation cost is consumed preferentially to determine the production capacity of the corresponding edition;

determining the total material consumption amount of each special material corresponding to the production amount of each version according to the single product consumption amount of the special material in the bill of materials of each version;

and (4) carrying out the material delivery operation, and delivering the corresponding special materials out of the warehouse according to the total material consumption of each special material used by each version.

Optionally, determining the production cost of each special material corresponding to each version according to the special material in the bill of materials corresponding to each version of the commodity item, including:

obtaining a bill of materials corresponding to each version of the commodity item from a design database, wherein the bill of materials is recorded with the unit consumption and unit price of each special material;

calculating the single product occupation cost corresponding to each special material according to the single product usage amount and unit price of each special material in the bill of materials of each version;

and constructing all special materials of all versions into a budget table, performing first index reverse sequencing on the budget table according to the single product occupation cost, and performing second index reverse sequencing on the budget table according to the unit price of the special materials.

Optionally, allocating the production capacity of each version corresponding to the total demand amount of the commodity item, wherein for the special materials required by each version, the inventory balance of the special materials with the largest single occupation cost is preferentially consumed to determine the production capacity of the corresponding version, and the method includes:

according to the sequence relation of the budget table, calling each special material from the head to the tail of the table in sequence to construct a corresponding message body, and adding the message body to the inventory calling queue in sequence;

dequeuing the message body of the inventory calling queue according to a first-in first-out principle, and triggering a dequeuing event of the corresponding message body;

responding to the listing event, acquiring inventory allowance of corresponding special materials in the corresponding message body, calculating the production capacity of the corresponding special materials suitable for producing the commodity item of the corresponding version, and offsetting and updating the total demand amount of the commodity item by the production capacity;

terminating the operation on the inventory call queue when the sum of the production volumes of the respective versions that have been determined is equal to the sum of the demand amounts initially given for the item of merchandise.

Optionally, determining the total amount of the special materials corresponding to the production capacity of each version according to the single-product usage amount of the special materials in the bill of materials of each version, including:

determining the single-item usage of each special material from the bill of materials of each version;

and determining the total material amount of each special material by multiplying the production amount of each special material by the corresponding single product dosage.

Optionally, the material discharge operation is executed, and the corresponding special materials are discharged according to the total material amount of each special material used by each version, including:

packaging the total material amount of each special material into a corresponding ex-warehouse control instruction;

and sending the ex-warehouse control instruction to a corresponding warehouse robot so as to control the warehouse robot to carry out the operation of discharging the corresponding special materials according to the corresponding total material consumption amount, and transferring the corresponding special materials to the production station of the production line.

Optionally, the step of performing a material warehouse-out operation, and after the corresponding special material warehouse-out operation is performed according to the total material amount of each special material used by each version, includes:

constructing a production data table by using the production capacity of each version determined corresponding to the commodity item and the special material list thereof;

and synchronizing the production data table to a workshop management interface and a sales management interface.

According to another aspect of the present application, there is provided a commodity material delivery control device, including:

the single-product cost budget module is set to determine the single-product occupation cost of various special materials corresponding to each version according to the special materials in the bill of materials corresponding to each version of the commodity item;

the version yield configuration module is set to distribute the production capacity of each version corresponding to the total demand quantity of the commodity item, wherein for the special materials required by each version, the inventory allowance of the special materials with the largest single product occupation cost is consumed preferentially to determine the production capacity of the corresponding version;

the total material quantity determining module is used for determining the total material quantity of each special material corresponding to the production quantity of each version according to the single-product consumption of the special material in the bill of materials of each version;

and the ex-warehouse execution driving module is set to execute the material out-warehouse operation, and corresponding special materials are ex-warehouse according to the total material amount of each special material used by each version.

According to another aspect of the present application, a commodity material warehouse-out control device is provided, which includes a central processing unit and a memory, wherein the central processing unit is configured to invoke and run a computer program stored in the memory to execute the steps of the commodity material warehouse-out control method described in the present application.

According to another aspect of the present application, a non-transitory readable storage medium is provided, which stores a computer program implemented according to the method for controlling commodity material to leave from a warehouse in the form of computer readable instructions, and when the computer program is called by a computer, the computer program executes the steps included in the method.

According to another aspect of the present application, there is provided a computer program product comprising computer programs/instructions which, when executed by a processor, implement the steps of the method described in any one of the embodiments of the present application.

Compared with the prior art, the production and marketing data are structured, the single occupation cost of each version of special materials is calculated on the basis that the material list shows the structural relation of the special materials of multiple versions of commodity items, then the required total quantity of each version corresponds to the commodity item, the maximum single occupation cost priority strategy is applied, the special material with the highest single occupation cost is preferentially used to distribute the production quantity of the version corresponding to the special material with the highest single occupation cost from the required total quantity, the production quantity of each version is determined by analogy, the production quantity of all versions is matched with the required total quantity, the ex-warehouse operation of the corresponding special materials is controlled according to the material total quantity of the special materials corresponding to the production quantity of each version, the ex-warehouse operation of the special materials is enabled to be more orderly and efficient, the dull cost of the special materials is reduced to the greatest extent, manual intervention is not needed in the whole process, and the efficient inventory monitoring mechanism is realized through the automatic processing of the production and marketing information and inventory data, and the information processing efficiency of production links in the electronic commerce information processing system are remarkably improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is an architectural diagram of an exemplary network environment for the information management system of the present application;

fig. 2 is a schematic flow chart of an embodiment of a commodity material warehouse-out control method according to the present application;

FIG. 3 is a schematic diagram illustrating a process of constructing a budget table according to an embodiment of the present application;

FIG. 4 is a schematic flow chart illustrating the allocation of production volumes of respective versions based on an inventory call queue according to an embodiment of the present application;

FIG. 5 is a schematic flow chart of the determination of the total amount of each special material according to the production capacity of each version in the embodiment of the application;

FIG. 6 is a schematic flow chart illustrating the warehouse scheduling performed by the warehouse robot controlled by the total material amount of various special materials in the embodiment of the present application;

FIG. 7 is a schematic flow chart illustrating the synchronization of production volumes and special material lists among multiple management interfaces according to an embodiment of the present application;

fig. 8 is a functional block diagram of the commodity material delivery control apparatus according to the present application;

fig. 9 is a schematic structural diagram of a commodity material delivery control device used in the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for explaining the present application and are not construed as limiting the present application.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

It will be understood by those within the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

As will be appreciated by those skilled in the art, "client," "terminal," and "terminal device" as used herein include both devices that are wireless signal receivers, which are devices having only wireless signal receivers without transmit capability, and devices that are receive and transmit hardware, which have receive and transmit hardware capable of two-way communication over a two-way communication link. Such a device may include: cellular or other communication devices such as personal computers, tablets, etc. having single or multi-line displays or cellular or other communication devices without multi-line displays; PCS (personal communications systems), which may combine voice, data processing, facsimile and/or data communications capabilities; a PDA (personal digital assistant), which may include a radio frequency receiver, a pager, internet/intranet access, web browser, notepad, calendar, and/or GPS (global positioning System) receiver; a conventional laptop and/or palmtop computer or other device having and/or including a radio frequency receiver. As used herein, a "client," "terminal device" can be portable, transportable, installed in a vehicle (aeronautical, maritime, and/or land-based), or situated and/or configured to operate locally and/or in a distributed fashion at any other location(s) on earth and/or in space. The "client", "terminal device" used herein may also be a communication terminal, a network access terminal, and a music/video playing terminal, and may be, for example, a PDA, an md (Mob I el intemet Dev I ce, mobile internet device), and/or a mobile phone with music/video playing function, and may also be a smart tv, a set-top box, and other devices.

The hardware referred to by the names "server", "client", "service node", etc. is essentially an electronic device with the performance of a personal computer, and is a hardware device having necessary components disclosed by the von neumann principle such as a central processing unit (including an arithmetic unit and a controller), a memory, an input device, an output device, etc., a computer program is stored in the memory, and the central processing unit calls a program stored in an external memory into the internal memory to run, executes instructions in the program, and interacts with the input and output devices, thereby completing a specific function.

It should be noted that the concept of "server" as referred to in this application can be extended to the case of a server cluster. According to the network deployment principle understood by those skilled in the art, the servers should be logically divided, and in physical space, the servers may be independent from each other but can be called through an interface, or may be integrated into one physical computer or a set of computer clusters. Those skilled in the art should understand this variation and should not be so constrained as to implement the network deployment of the present application.

One or more technical features of the present application, unless expressly specified otherwise, may be deployed to a server to implement access by a client remotely invoking an online service interface provided by a fetch server, or may be deployed directly and run on a client to implement access.

Unless specified in clear text, the neural network model referred to or possibly referred to in the application can be deployed in a remote server and used for remote call at a client, and can also be deployed in a client with qualified equipment capability for direct call.

Various data referred to in the present application may be stored in a server remotely or in a local terminal device unless specified in the clear text, as long as the data is suitable for being called by the technical solution of the present application.

The person skilled in the art will know this: although the various methods of the present application are described based on the same concept so as to be common to each other, they may be independently performed unless otherwise specified. In the same way, for each embodiment disclosed in the present application, it is proposed based on the same inventive concept, and therefore, concepts of the same expression and concepts of which expressions are different but are appropriately changed only for convenience should be equally understood.

Unless expressly stated otherwise, the technical features of the embodiments disclosed in the present application may be cross-linked to form a new embodiment, so long as the combination does not depart from the spirit of the present application and can satisfy the requirements of the prior art or solve the disadvantages of the prior art. Those skilled in the art will appreciate variations therefrom.

The commodity material warehouse-out control method can be programmed into a computer program product and is deployed in a client or a server to run, for example, in an exemplary application scenario of the present application, the commodity material warehouse-out control method can be deployed and implemented in a server of an e-commerce platform, so that the method can be executed by accessing an open interface after the computer program product runs and performing human-computer interaction with a process of the computer program product through a graphical user interface.

Referring to fig. 1, an exemplary application scenario of the present application employs a network architecture, which includes a terminal device 80 and a service server 81, where the service server 81 may be configured to deploy an information management system related to enterprise resource planning, and the information management system may be, for example, a dedicated software system used by a cross-border e-commerce enterprise, and may implement centralized management of operation data of a plurality of online stores distributed and operated in a plurality of e-commerce platforms, each online store may have a plurality of language versions to serve different language regions, and users of the cross-border e-commerce enterprise may implement centralized control management of different aspects such as sales, logistics, warehousing, customer service, advertisement, and the like through the information management system.

The commodity material warehouse-out control method can be implemented as a computer program product through programming, one of the functional plug-ins of the software system is constructed, and the functional plug-ins are deployed in the service server 81 to operate together. The terminal device 80 can be provided for different authorized operation users to log in the information management system to receive, process and send various related information, such as providing a scheduling schedule, receiving an alarm list and the like. The operation users with different authorities can obtain information with different levels, and the information can be realized through pre-configuration.

Based on the above principle, referring to fig. 2, an embodiment of a method for controlling the delivery of commodity materials according to the present application includes the following steps:

step S1100, determining the single product occupation cost of various special materials corresponding to each version according to the special materials in the bill of materials corresponding to each version of the commodity item;

the goods corresponding to each goods item can have different versions of designs, and the materials adopted by each version can be represented by a corresponding bill of materials. Some materials are universal and some materials are special among different versions, and the special materials form special materials. There may be some functional correspondence between the special materials of different versions.

The bill of materials may pre-record the unit price corresponding to each material and the usage amount required by a single commodity item, that is, the usage amount of a single commodity, so that a single commodity item of a corresponding version may be calculated, and the usage cost of the single commodity corresponding to the material may be used.

It is easy to understand that the special material cannot be used in all versions of the same commodity item, so that the longer the stock backlog time is, the longer the backlog time of the corresponding cost is, and the corresponding dull cost is actually generated and is increased along with the time extension, so that the timely delivery of the special material has positive significance for reducing the dull cost corresponding to the input cost.

Step S1200, distributing the production capacity of each version corresponding to the total demand of the commodity item, wherein for the special materials required by each version, the inventory allowance of the special materials with the largest single-product occupation cost is consumed preferentially to determine the production capacity of the corresponding version;

each time an order for a certain commodity item is introduced by the sales interface, a corresponding demand total amount is correspondingly provided, so that the production interface is expected to produce the corresponding commodity item according to the demand total amount. And producing the commodity item with corresponding total quantity of demand, if the stock resources can be reasonably scheduled, reasonably distributing and using the special materials corresponding to each version of the commodity item for production, and realizing the distribution of the production quantities of different versions on the basis of various special materials of stock according to the total quantity of demand, thereby inevitably and effectively controlling the dull cost corresponding to the stock.

For this purpose, a special material use strategy is set to solve the problem of special material warehouse-out. Specifically, the production capacity of the corresponding version which can be produced by the special material can be preferentially calculated by trial according to the maximum single occupation cost of the special material, the production capacity is limited by the total quantity of the demand of the given commodity item, if the production capacity of the first version determined after the total inventory allowance of the corresponding special material is exhausted reaches the total quantity of the demand, subsequent trial calculation is not needed, the total quantity of the demand of the commodity item is used to correspond to the determined production capacity of each version, and the commodity item is generated according to the production capacity of each version; if the sum of the production quantities of the versions does not reach the total demand after the sum of the production quantities of the versions is added, the sum of the production quantities of the versions is subtracted from the total demand to form a new total demand. And on the basis of the new demand total amount, trying to calculate the production amount of another version by using the inventory allowance of the special material with lower occupation cost of the next single product, and so on until the sum of the determined production amounts of the plurality of versions is equal to the given demand total amount of the commodity item.

It is understood from the above strategy that, when determining the production capacity of each version of the commodity item, the production capacity of the version corresponding to the highest single occupation cost is preferentially determined according to the inventory allowance of the special material adopted by the version, and then the production capacity of the version corresponding to the next highest single occupation cost is determined until the determined production capacity of each version is equal to the given total demand of the commodity item. That is, the special material with higher staying cost is preferentially used for producing the commodity, so that the warehousing cost can be ensured to be kept at a lower level.

Step S1300, determining the total material consumption of each special material corresponding to the production capacity of each version according to the single product consumption of the special material in the bill of materials of each version;

after the production capacity corresponding to each version is determined, the total material amount of each version for each special material can be correspondingly determined. Specifically, the bill of materials of each version of each commodity item stores the unit usage amount of each special material used by the commodity item, that is, the usage amount required for producing a single commodity of the corresponding version, and therefore, for each special material, the total usage amount can be determined by multiplying the unit usage amount by the production amount of the version to which the special material belongs. According to the principle, the total material amount corresponding to each special material used by each version can be calculated, and the total material amount can be used for reducing the corresponding inventory allowance.

And S1400, carrying out material warehouse-out operation, and warehouse-out corresponding special materials according to the total material amount of each special material used by each version.

And when all the special materials required for producing each version of the commodity item and the corresponding total material amount are determined, the material discharge operation of each special material can be executed.

In one embodiment, the mapping relation data formed by various special materials and the total material amount thereof determined for commodity items are constructed into an ex-warehouse order and sent to a warehousing interface, and the warehousing interface executes a deduction operation on inventory allowance in a material warehouse according to the total material amount in the ex-warehouse order and correspondingly informs a production interface, so that ex-warehouse operation can be completed.

In another embodiment, for the physical inventory management interface, the outbound order is sent to the physical inventory management interface, the physical inventory management interface performs a dispatching operation by driving the warehouse robot, the warehouse robot transfers the special materials with corresponding total material amount from the corresponding warehouse of each special material to the corresponding production workshop, and updates the corresponding inventory data, so as to complete the outbound operation.

In other embodiments, the warehouse-out of the special materials of the corresponding total material amount can be realized in other more ways, and in any case, after the production amount of each version of the commodity item is determined and then the total material amount of each version of the special materials is determined, the warehouse-out operation process of the special materials of the corresponding amount can be implemented according to the total material amount.

According to the embodiment, the production and marketing data are structured, on the basis that the structural relation of the special materials of multiple versions of the commodity item is shown in the material list, the single occupation cost of each version of each special material is calculated, then the total quantity of the commodity item is corresponding, the maximum single occupation cost priority strategy is applied, the special material with the highest single occupation cost is preferentially used to distribute the production quantity of the version corresponding to the special material with the highest single occupation cost from the total quantity of the demand, the production quantity of each version is determined by analogy, the production quantity of all versions is matched with the total quantity of the demand, the ex-warehouse operation of the corresponding special material is controlled according to the total quantity of the special material corresponding to the production quantity of each version, the ex-warehouse operation of the special material is enabled to be more orderly and efficient, the dull cost of the special material is reduced to the greatest extent, manual intervention is not needed in the whole process, and the efficient inventory monitoring mechanism is realized through the automatic processing of the production and marketing information and inventory data, so that the information processing efficiency of production links in the electronic commerce information processing system is remarkably improved.

Optionally, referring to fig. 3, determining the production cost of each version of the special material according to the special material in the bill of materials corresponding to each version of the commodity item includes:

step S1110, obtaining a bill of materials corresponding to each version of the commodity item from a design database, wherein the bill of materials is recorded with the unit consumption and unit price of each special material;

the cross-border e-commerce industry also usually has a special design department responsible for the design of corresponding commodities, so that the part structure data of various commodities can be clearly mastered in the design process, and a corresponding bill of materials can be generated, and the relation between each material of the commodity, the unit consumption and the unit price can be represented by the bill of materials. Therefore, the bill of materials can be called and obtained from a design database which is specially used for storing the bill of materials of the commodity according to the version identification of each version of the commodity item.

To determine the specific materials required for the item of merchandise, the respective specific materials for each version may be determined by comparing the bill of materials for each version. In a specific embodiment, whether each material in the bill of materials of each version belongs to the materials shared by the bills of materials of all versions is detected, if so, the materials are common materials, otherwise, the materials are special materials. In another embodiment, it may also be detected whether each material in the bill of materials of each version belongs to a material independently used by the version, and when the material is an independently used material, the material is determined to be a special material, otherwise, the material is a normal material. It can be seen that determining whether a material belongs to a specific material can be defined as desired.

Through the process, various special materials corresponding to each version and the corresponding using amount and unit price thereof are obtained.

Step 1120, calculating the single product occupation cost corresponding to each special material according to the single product usage amount and unit price of each special material in the bill of materials of each version;

after the special materials, the unit consumption and the unit price of each version of the commodity item are determined through the bill of materials, and the unit occupation cost of the corresponding special materials can be obtained according to the product of the unit consumption and the unit price of each special material of each version.

Step S1130, all the special materials of all the versions are constructed into a budget table, first index reverse sorting is conducted on the budget table according to the single product occupation cost, and second index reverse sorting is conducted on the budget table according to the unit price of the special materials.

In order to facilitate subsequent application of a ex-warehouse strategy, all the special materials of all the versions can be constructed into a budget table, specifically, mapping relation data is formed by each special material of each version, the single product occupation cost and the unit price of each special material of each version, the mapping relation data is used as a corresponding data record in the budget table, then the single product occupation cost is used as a first index, the unit price is used as a second index, the budget table is reversely ordered, the data records with higher single product occupation costs are arranged in the front, and when the single product occupation costs are the same, the data records with higher single product occupation costs are further arranged in the reverse order.

According to the embodiments, the bill of materials is called from the design database and is connected with the design link, so that the data of various special materials, the consumption of the special materials, the unit price of the special materials and the like can be determined more accurately, the single product occupation cost of the special materials used by each version of the commodity item can be accurately determined, the budget table is constructed, the cost relation of the special materials is more orderly and intuitively, the subsequent warehouse-out strategy is convenient to implement efficient warehouse-out regulation and control, and the information processing efficiency is improved.

Optionally, referring to fig. 4, allocating the production capacity of each version corresponding to the total demand of the commodity item, wherein for the special materials required by each version, the inventory balance of the special material with the largest occupied cost of the single product is preferentially consumed to determine the production capacity of the corresponding version, including:

step S1210, sequentially calling each special material from the head to the tail of the table to construct a corresponding message body according to the sequence relation of the budget table, and orderly adding the message body to an inventory calling queue;

considering that massive commodity items exist in an information management system of a cross-border e-commerce enterprise and need to be concurrently scheduled, in the process of applying the ex-warehouse mechanism of the application to each commodity item, a memory scheduling mechanism is further needed to be further adopted to realize more ordered ex-warehouse control.

For this purpose, the budget table is first treated as a task data table, then, on the basis of the reversed ordering, traversal is performed from the head to the tail of the budget table, the related information of each previously ordered special material is sequentially constructed into a message body, and then the message body is added into a correspondingly arranged inventory calling queue. The message body may include the feature identifier, the inventory allowance, the total material amount, etc. of the corresponding special material as required, and these information in the message body may be called by the thread of the message body according to the feature identifier of the special material. The method can be flexibly implemented.

Step S1220, dequeuing the message body of the inventory calling queue according to a first-in first-out principle, and triggering a dequeue event of the corresponding message body;

the inventory calling queue is scheduled according to a first-in first-out principle so that the dequeuing of the message bodies in the inventory calling queue is more ordered. When a message body is dequeued from the inventory dispatch queue, a corresponding dequeue event is triggered.

Step S1230, responding to the dequeue event, obtaining the inventory balance of the corresponding special material in the corresponding message body, calculating the production capacity of the corresponding message body suitable for producing the commodity item of the corresponding version, and offsetting and updating the total demand of the commodity item by the production capacity;

when a dequeue event is triggered when a message body appears from an inventory scheduling queue, the message body is placed in a thread for consumption in response to the dequeue event, specifically, a corresponding thread acquires an inventory margin of a specific material specified in the message body, wherein the inventory margin can be carried by the message body or read from inventory data by the thread, and then, within the range of the total demand amount of a commodity item, the total inventory margin is preferentially used for calculating the production amount of the version to which the specific material belongs. Specifically, the total material amount of the special material may be obtained, and then the inventory margin may be compared with the total material amount, and when the inventory margin is greater than or equal to the total material amount, it indicates that the special material may satisfy the total demand amount, so that the production amount of the version to which the special material belongs, that is, the total demand amount of the commodity item, is equal to. When the inventory allowance is less than the total material amount, the inventory allowance is not enough to produce the commodity item of the version according to the total demand amount, and a part of the demand amount needs to determine the production amount of other versions through other special materials, so that the actual producible production amount of the version which the special material belongs to is determined by dividing the inventory allowance by the single product amount of the special material.

It will be understood that for a particular material, the correspondence between inventory balance and production capacity is associated with the quantity of the individual item of the particular material for the corresponding version, and thus dividing the inventory balance by the quantity of the individual item is the production capacity at which the inventory balance can be used to produce the corresponding version of the item.

When the production capacity corresponding to the version of the special material in the message body is determined, the total demand of the commodity item needs to be updated, the difference obtained by subtracting the production capacity of the version from the original total demand is used for replacing the total demand, and the total demand is updated to the latest margin. Subsequent next dequeuing events may continue to determine the production volumes of other versions based on this updated demand total.

Step S1240, terminating the operation of the inventory call queue when the sum of the production volumes of the respective versions that have been determined is equal to the total amount of demand initially given for the item of merchandise.

During consumption of any one of the dequeue events, the sum of the production volumes of the respective versions for which production volumes have been determined may be accumulated, and when the sum is equal to or greater than the initially given total demand for the item, it is indicated that no further versions of the proprietary material need be scheduled for production of the item, and thus, the scheduling operation for the inventory queue may be terminated.

According to the embodiment, on the basis of determining the budget table of each special material, the production quantity is distributed in each version for the total quantity of the demand of the commodity item by means of the inventory calling queue and based on the corresponding message body of each special material, so that the operation unit can be minimized, the corresponding equipment can realize a multi-version production quantity distribution mechanism based on threads, the operation efficiency is improved, and the system operation is more robust.

Optionally, referring to fig. 5, determining the total material consumption of each dedicated material corresponding to the production capacity of each version according to the single-product usage of the dedicated material in the bill of materials of each version includes:

step 1310, determining the single-item usage of each special material from the bill of materials of each version;

when the total material amount of each special material corresponding to the production capacity of each version is calculated, the single-product usage amount of each special material can be determined from the bill of materials of each version. The single-product usage in the bill of materials is accurately determined according to the product structure of the commodity in the design process, and therefore, the method has reliability.

And step S1320, determining the product of the production capacity of each special material and the corresponding single product dosage as the total material dosage of the special material.

Since the production capacity of each version of the individual special material is determined by trial calculation according to the corresponding inventory allowance, the production capacity is reliable, and therefore, the product obtained by multiplying the production capacity by the corresponding single product usage is used as the total material amount of the corresponding special material.

The above embodiments provide a process for re-determining the total amount of material of the special material required by each version after determining the production amount of each version of the commodity item, where the re-determining of the total amount of material plays a role in reliably determining the total amount of material, and the decoupling calculation is implemented, which can form mutual authentication with the previous calculation process, and ensure that the determined total amount of material is more reliable.

Optionally, the step of performing a material discharge operation, referring to fig. 6, discharging the corresponding special material according to the total material amount of each special material used by each version includes:

step S1410, packaging the total material amount of each special material into a corresponding ex-warehouse control instruction;

in this embodiment, when the ex-warehouse of the special materials required by each version needs to be controlled, the total material consumption of each special material may be encapsulated into a message, and the message is encapsulated into a corresponding ex-warehouse control instruction.

In the industrial era, a plurality of warehouse robots are generally used for carrying and managing different materials respectively in a warehousing system, each warehouse robot has a corresponding control interface, receives a warehouse-out control instruction corresponding to the interface specification of the warehouse robot, and executes corresponding operation according to the warehouse-out control instruction.

Accordingly, when the ex-warehouse control instructions of the special materials are packaged, the corresponding ex-warehouse control instructions of the warehouse machinist corresponding to different special materials should be packaged according to the control interface specification.

And S1420, sending the ex-warehouse control instruction to the corresponding warehouse robots so as to control the warehouse robots to carry out operation of discharging corresponding special materials according to the corresponding total material consumption amount, and transferring the corresponding special materials to production stations of a production line.

After each ex-warehouse control instruction is determined, each ex-warehouse control instruction can be sent to the corresponding warehouse robot, after the corresponding ex-warehouse control instruction is received by the warehouse robot, the special materials to be dispatched and the corresponding total material consumption amount of the special materials are determined according to the ex-warehouse control instruction, and then the special materials with the corresponding amount are transferred from the warehouse to the production stations of the corresponding production line one by one. Thereby realizing the automatic industrialized ex-warehouse control flow.

According to the embodiment, after the total amount of the special materials required by each edition of the commodity item is accurately determined according to the application, the warehouse scheduling can be automatically realized through the warehouse robot, and the special materials with corresponding amount are transferred to the corresponding production stations from the warehouse, so that the production and marketing data butt joint efficiency is improved, and the commodity production and marketing matching efficiency is improved.

Optionally, referring to fig. 7, after the material discharging operation is performed and the corresponding special material is discharged according to the total material amount of each special material used by each version, the method includes:

s1500, constructing production data tables of the production quantities of the versions determined corresponding to the commodity items and the special material lists of the production quantities;

considering that a sales department cannot generally grasp the difference of each version of each commodity item or a production part needs some reference information, a data synchronization mechanism is established for this purpose, the production quantity of each version determined corresponding to the commodity item is constructed into a production data table, and according to the bill of materials of each version, the special materials corresponding to each version are marked in the production data table to form a special material list, so that the related department can conveniently grasp the related information to carry out deeper information processing.

And step S1600, synchronizing the production data table to a workshop management interface and a sales management interface.

And after the production data table is determined, the production data table is sent through a corresponding workshop management interface and a corresponding sales management interface, and is synchronized to a corresponding production department and a corresponding sales department, so that the department users check and utilize the production data table.

For example, the department user of the production department may produce a corresponding number of commodity items of different versions with reference to the production data table, and precisely determine each special material in the production process to complete the production of a rated number of products.

For another example, the department user of the sales department may formulate a corresponding advertisement document and sales plan based on the production amount provided in the production data table and the special material list corresponding to each version, thereby achieving the best marketing effect.

According to the embodiments, the production capacity of each version and the special material list thereof determined by the total demand of the corresponding commodity item are further constructed into the production data table to be synchronized to a plurality of department interfaces, so that the data collaboration in the cross-border e-commerce enterprise can be realized, the information intercommunication efficiency is improved, and the collaboration efficiency of the information management system is improved.

Referring to fig. 8, a commodity material delivery control apparatus according to an aspect of the present application includes a single cost budget module 1100, a version yield configuration module 1200, a total material amount determination module 1300, and a delivery execution driving module 1400, where the single cost budget module 1100 is configured to determine a single occupation cost of each version of each dedicated material corresponding to each version of a commodity item according to the dedicated material in a bill of materials corresponding to each version of the commodity item; the version yield configuration module 1200 is configured to allocate the production capacity of each version corresponding to the total demand amount of the commodity item, wherein for the special material required by each version, the inventory allowance of the special material with the largest single product occupation cost is consumed preferentially to determine the production capacity of the corresponding version; the total material amount determining module 1300 is configured to determine the total material amount of each special material corresponding to the production amount of each version according to the single-product usage amount of the special material in the bill of materials of each version; the ex-warehouse execution driving module 1400 is configured to execute the material ex-warehouse operation, and to ex-warehouse the corresponding special materials according to the total material amount of each special material used by each version.

Optionally, the single-item cost budgeting module 1100 includes: the bill calling unit is set as a bill of material corresponding to each version of the commodity item, which is obtained from a design database, and the bill of material records the unit consumption and unit price of each special material; the cost accounting unit is set to calculate the single product occupation cost corresponding to each special material according to the single product usage amount and unit price of each special material in the bill of materials of each version; and the table construction unit is arranged for constructing all the special materials of all the versions into a budget table, performing first index reverse ordering on the budget table according to the single product occupation cost, and performing second index reverse ordering on the budget table according to the unit price of the special materials.

Optionally, the version yield configuration module 1200 includes: the message enqueuing unit is set to sequentially call each special material from the head to the tail of the table to construct a corresponding message body according to the sequential relation of the budget table, and the message body is orderly added to the inventory calling queue; the message dequeuing unit is set to dequeue the message bodies of the inventory calling queue according to a first-in first-out principle and trigger dequeuing events of the corresponding message bodies; the version scheduling unit is used for responding to the listing event, acquiring the inventory allowance of the corresponding special material in the corresponding message body, calculating the production amount of the corresponding special material suitable for producing the commodity item of the corresponding version, and offsetting and updating the total demand amount of the commodity item by the production amount; and the production scheduling ending unit is used for ending the operation of the inventory calling queue when the sum of the production capacities of the determined versions is equal to the total quantity of the demand given by the commodity item.

Optionally, the total material amount determining module 1300 includes: the single-product quantifying unit is used for determining the single-product consumption of each special material from the bill of materials of each version; and the version quantifying unit is used for determining the product of the production capacity of each special material and the corresponding single product dosage as the total material dosage of the special material.

Optionally, the ex-warehouse execution driving module 1400 includes: the instruction generation unit is used for packaging the total material consumption of each special material into a corresponding ex-warehouse control instruction; and the execution control unit is used for sending the ex-warehouse control instruction to the corresponding warehouse robot so as to control the warehouse robot to execute the operation of discharging the corresponding special materials according to the corresponding total material consumption amount, and transfer the corresponding special materials to the production station of the production line.

Optionally, the commodity material controlling means that goes out of warehouse of this application includes: the production listing unit is used for constructing a production data table by the production amount of each version determined by the corresponding commodity item and the special material list thereof; and the data synchronization unit is used for synchronizing the production data table to a workshop management interface and a sales management interface.

Another embodiment of the application also provides commodity material warehouse-out control equipment. As shown in fig. 9, the internal structure of the commodity material delivery control device is schematically illustrated. The commodity material warehouse-out control equipment comprises a processor, a computer readable storage medium, a memory and a network interface which are connected through a system bus. The computer-readable non-volatile readable storage medium of the commodity material ex-warehouse control equipment stores an operating system, a database and computer-readable instructions, the database can store information sequences, and when the computer-readable instructions are executed by a processor, the processor can realize a commodity material ex-warehouse control method.

The processor of the commodity material warehouse-out control equipment is used for providing calculation and control capacity and supporting the operation of the whole commodity material warehouse-out control equipment. The storage of the commodity material out-warehouse control device may store computer readable instructions, and when the computer readable instructions are executed by the processor, the processor may execute the commodity material out-warehouse control method of the present application. The network interface of the commodity material warehouse-out control equipment is used for being connected and communicated with the terminal.

It will be understood by those skilled in the art that the structure shown in fig. 9 is a block diagram of only a portion of the structure associated with the present application, and does not constitute a limitation on the merchandise export control apparatus to which the present application is applied, and that a particular merchandise export control apparatus may include more or fewer components than those shown in the drawings, or may combine certain components, or have a different arrangement of components.

In this embodiment, the processor is configured to execute specific functions of each module, sub-module, and unit in fig. 8, and the memory stores program codes and various data required for executing the modules or sub-modules. The network interface is used for realizing data transmission between user terminals or servers. In the present embodiment, a nonvolatile readable storage medium stores program codes and data necessary for executing all modules in the commodity material delivery control device of the present application, and the server can call the program codes and data of the server to execute the functions of all modules.

The present application further provides a non-transitory readable storage medium storing computer readable instructions, which when executed by one or more processors, cause the one or more processors to perform the steps of the commodity material out-of-warehouse control method according to any one of the embodiments of the present application.

The present application also provides a computer program product comprising computer programs/instructions which, when executed by one or more processors, implement the steps of the method as described in any of the embodiments of the present application.

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

To sum up, corresponding commodity items are produced through the special material warehouse-out of which the highest single product occupation cost is preferentially controlled, the warehouse-out of the special material is more orderly and efficient, the stay cost of the special material is reduced to the greatest extent, manual intervention is not needed in the whole process, an efficient inventory monitoring mechanism is realized through automatic processing of production and marketing information and inventory data, and the information processing efficiency of a production link in an e-commerce information processing system is remarkably improved.

Claims (10)

1. A commodity material warehouse-out control method is characterized by comprising the following steps:

determining the single product occupation cost of various special materials corresponding to each version according to the special materials in the bill of materials corresponding to each version of the commodity item;

allocating the production capacity of each edition corresponding to the total demand quantity of the commodity item, wherein for the special materials required by each edition, the inventory allowance of the special materials with the largest single product occupation cost is consumed preferentially to determine the production capacity of the corresponding edition;

determining the total material consumption amount of each special material corresponding to the production amount of each version according to the single product consumption amount of the special material in the bill of materials of each version;

and (4) carrying out the material delivery operation, and delivering the corresponding special materials out of the warehouse according to the total material consumption of each special material used by each version.

2. The method for controlling the delivery of commodity materials according to claim 1, wherein determining the production cost of each version of each dedicated material according to the dedicated material in the bill of materials corresponding to each version of the commodity item comprises:

obtaining a bill of materials corresponding to each version of the commodity item from a design database, wherein the bill of materials is recorded with the unit consumption and unit price of each special material;

calculating the single product occupation cost corresponding to each special material according to the single product usage amount and unit price of each special material in the bill of materials of each version;

and constructing all the special materials of all the versions into a budget table, performing first index reverse ordering on the budget table according to the single product occupation cost, and performing second index reverse ordering on the budget table according to the unit price of the special materials.

3. The method for controlling the warehouse-out of the commodity material according to claim 2, wherein the allocating the production capacity of each edition corresponding to the total demand amount of the commodity item, wherein for the special material required by each edition, the inventory allowance of the special material with the largest single occupation cost is preferentially consumed to determine the production capacity of the corresponding edition, comprises:

according to the sequence relation of the budget table, calling each special material from the head to the tail of the table in sequence to construct a corresponding message body, and adding the message body to the inventory calling queue in sequence;

dequeuing the message body of the inventory calling queue according to a first-in first-out principle, and triggering a dequeuing event of the corresponding message body;

responding to the listing event, acquiring the inventory allowance of the corresponding special material in the corresponding message body, calculating the production amount of the corresponding special material suitable for producing the commodity item of the corresponding version, and offsetting and updating the total demand amount of the commodity item by the production amount;

terminating the operation on the inventory call queue when the sum of the production volumes of the respective versions that have been determined is equal to the sum of the demand amounts initially given for the item of merchandise.

4. The method for controlling the delivery of the commodity materials according to claim 3, wherein the step of determining the total amount of the special materials corresponding to the production capacity of each version according to the single use amount of the special materials in the bill of materials of each version comprises the following steps:

determining the single-item usage of each special material from the bill of materials of each version;

and determining the total material amount of each special material by multiplying the production amount of each special material by the corresponding single product dosage.

5. The commodity material warehouse-out control method according to claim 4, wherein a material warehouse-out operation is performed, and corresponding special materials are warehouse-out according to the total material amount of each special material used by each version, and the method comprises the following steps:

packaging the total material amount of each special material into a corresponding ex-warehouse control instruction;

and sending the ex-warehouse control instruction to a corresponding warehouse robot so as to control the warehouse robot to carry out the operation of discharging the corresponding special materials according to the corresponding total material consumption amount, and transferring the corresponding special materials to the production station of the production line.

6. The commodity material warehouse-out control method according to any one of claims 1 to 5, wherein after a material warehouse-out operation is performed to warehouse out a corresponding special material according to a total material amount of each special material used by each version, the method comprises:

constructing a production data table by using the production capacity of each version determined corresponding to the commodity item and the special material list thereof;

and synchronizing the production data table to a workshop management interface and a sales management interface.

7. A commodity material warehouse-out control device is characterized by comprising:

the single-product cost budget module is set to determine the single-product occupation cost of various special materials corresponding to each version according to the special materials in the bill of materials corresponding to each version of the commodity item;

the version yield configuration module is set to distribute the production capacity of each version corresponding to the total demand quantity of the commodity item, wherein for the special materials required by each version, the inventory allowance of the special materials with the largest single product occupation cost is consumed preferentially to determine the production capacity of the corresponding version;

the total material quantity determining module is used for determining the total material quantity of each special material corresponding to the production quantity of each version according to the single-product consumption of the special material in the bill of materials of each version;

and the ex-warehouse execution driving module is set to execute the material out-warehouse operation, and corresponding special materials are ex-warehouse according to the total material amount of each special material used by each version.

8. A commodity material warehouse-out control apparatus comprising a central processing unit and a memory, wherein the central processing unit is configured to invoke execution of a computer program stored in the memory to perform the steps included in the method according to any one of claims 1 to 6.

9. A non-transitory readable storage medium storing a computer program in the form of computer readable instructions, the computer program when invoked by a computer performing the steps comprised by the method according to any one of claims 1 to 6.

10. A computer program product comprising computer program/instructions for performing the steps comprised by the method of any one of claims 1 to 6 when called by a processor.

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