CN113627848A - System and method for intelligently recommending warehousing of logistics warehousing - Google Patents

Abstract

A system and a method for intelligently recommending warehousing of logistics storage relate to the technical field of logistics storage management and comprise the following steps: a storage position management module, an intelligent algorithm module, a client and a database, wherein the corresponding virtual warehouse is constructed by the storage position management module, the intelligent algorithm module recommends the material to be stored in the warehouse in real time according to the data of the virtual warehouse and the information of the material, thereby the system has the effects of automatically and intelligently balancing the inventory capacity of the warehouse area based on the real-time inventory capacity of the warehouse, avoiding the occurrence of inventory disorder and warehouse area bin burst, in the process of delivering the materials out of the warehouse, after a user scans bar codes of the materials through a client to obtain serial numbers of the materials, the material management unit positions the corresponding serial numbers of the storage areas and the appliances in the virtual warehouse according to the material serial numbers input by the user, the materials are found in the specified area according to the obtained serial numbers, so that the system has the effects of avoiding finding the materials in the warehouse manually, directly searching and positioning the specific positions of the materials through the system, and improving the speed of discharging the materials out of the warehouse.

Description

System and method for intelligently recommending warehousing of logistics warehousing

Technical Field

The invention relates to the technical field of logistics storage management, in particular to a system and a method for intelligently recommending logistics storage.

Background

Along with the rise of national intelligent manufacturing, industrial manufacturing factories tend to synchronous production more and more, high-efficiency intelligent storage scheduling management becomes the bottleneck faced by each factory, at present, the warehouse management of most of small and medium-sized factories completely depends on manual management, the warehouse space cannot be utilized to the maximum extent, the material warehousing and ex-warehouse management completely depends on manual scheduling management, the material finding is troublesome, the management is disordered, the manual proficiency is seriously depended on, when the manual proficiency is not enough, the working efficiency can be seriously reduced, and the mode of manual management cannot be realized: the intelligent recommendation of material is put in storage, and the material is fast delivered from storage, resulting in low working efficiency and easy error.

Disclosure of Invention

The embodiment of the invention provides a system and a method for intelligently recommending warehousing of logistics storage, wherein a corresponding virtual warehouse is constructed by a warehouse location management module according to data of a real physical warehouse, an intelligent algorithm module acquires the serial number of a material through a bar code of the material in the warehousing process of the material according to the data of the virtual warehouse and information of the material, and allocates the warehouse area of the material according to the serial number of the material, the real-time residual capacity of the warehouse area and the priority of the warehouse area, when the material specifies the warehouse area to be warehoused, the material is allocated to be warehoused to the warehouse area with high priority and large residual capacity, after the capacity of the warehouse area with high priority is full, the material is warehoused to the warehouse area with the first priority, so that the system has the effects of automatically and intelligently balancing the inventory capacity of the warehouse area based on the real-time capacity of the warehouse storage, avoiding the occurrence of inventory disorder and warehouse area explosion, and in the warehousing process of the material, after a user scans the bar codes of materials through a client to obtain the serial numbers of the materials, the material management unit positions the serial numbers of the corresponding storage areas and appliances in the virtual warehouse according to the material serial numbers input by the user, and the materials are found in the specified area according to the obtained serial numbers, so that the system has the advantages of avoiding finding the materials in the warehouse through manual work, directly searching and positioning the specific positions of the materials through the system, and improving the effect of the speed of discharging the materials out of the warehouse.

A logistics storage intelligent recommendation warehousing system comprises: the system comprises a storage position management module, an intelligent algorithm module, a client and a database;

the warehouse location management module is used for constructing a corresponding virtual warehouse according to the data of the real physical warehouse, managing and defining a warehouse location area in the virtual warehouse, and uploading the data of the virtual warehouse to the database;

the intelligent algorithm module is used for distributing materials to be put in or taken out of a warehouse according to the data of the virtual warehouse and the information of the materials obtained by the warehouse location management module, updating the data after the materials are put in or taken out of the warehouse, and storing the data in a database;

the client is used for acquiring the information of the materials by a user and acquiring warehousing information of the materials or ex-warehousing information of the materials according to the information of the materials;

and the database is used for storing the data of the library position management module and the intelligent algorithm module.

Further, the warehouse location management module comprises a physical warehouse data acquisition unit, a virtual warehouse modeling unit and a warehouse area attribute setting unit, the physical warehouse data acquisition unit is used for acquiring data of a real physical warehouse, the virtual warehouse modeling unit is used for constructing a virtual warehouse corresponding to the real physical warehouse in a digital twin mode according to the data of the real physical warehouse acquired by the physical warehouse data acquisition unit, the warehouse area distribution unit is used for performing warehouse area division in the virtual warehouse, and the warehouse area attribute setting unit is used for performing attribute setting on the divided warehouse area.

Further, the attribute set by the library area attribute setting unit for the library area includes the model number of the storable part and the library area capacity information, and the library area attribute setting unit is further configured to number the library area.

Furthermore, an appliance for storing materials is arranged in the storage area of the physical warehouse, and the virtual warehouse modeling unit generates a corresponding virtual appliance after inputting data of the appliance and maps the virtual appliance to the storage area of the virtual warehouse.

Further, the material is provided with a bar code corresponding to the library area number, and the appliance and the virtual appliance are provided with second-level numbers corresponding to the library area number.

Further, the intelligent algorithm module comprises a storage area management unit, a storage allocation unit and a material management unit, wherein the storage area management unit is used for acquiring the residual capacity of the storage area and setting the highest capacity of the storage area for storing the materials and the priority of the storage area, the storage allocation unit is used for allocating the storage area to the materials to be stored according to the residual capacity of the storage area, the highest capacity of the storage area for storing the materials, the priority of the storage area and the number of the materials, which are acquired by the storage area management unit, the material management unit is used for locating the corresponding storage area and the number of the appliance in the virtual warehouse according to the material number input by the user, and the user comes to the specified area according to the obtained number to find the materials.

Furthermore, the material management unit positions the corresponding numbers of the storage area and the appliance in the virtual warehouse according to the material numbers input by the user and then feeds back the numbers to the user in a graphical mode through the client.

Further, the client is used for scanning the bar code of the material to obtain the serial number of the material.

Further, the warehousing distribution unit of the warehousing distribution unit detects that the current material is assigned a warehouse area, preferentially distributes the warehouse area with the first priority in the process of warehousing the material, and stores the material into the warehouse area with the next priority after the capacity of the warehouse area with the first priority is full.

In a second aspect, an embodiment of the present invention provides a method for intelligently recommending warehousing of logistics storage, including the following steps:

s1, a virtual warehouse is constructed, after the physical warehouse data acquisition unit acquires data of the real physical warehouse, the virtual warehouse modeling unit constructs a virtual warehouse corresponding to the real physical warehouse in a digital twin mode according to the data of the real physical warehouse acquired by the physical warehouse data acquisition unit, the warehouse area distribution unit divides the virtual warehouse into warehouse areas, the warehouse area attribute setting unit sets attributes of the divided warehouse areas, and the warehouse area management unit acquires the residual capacity of the warehouse areas, sets the highest capacity of materials stored in the warehouse areas and the priority of the warehouse areas;

s2, warehousing the materials, scanning bar codes of the materials by a client to obtain serial numbers of the materials, distributing the materials to be warehoused by a warehousing distribution unit according to the serial numbers of the materials, the residual capacity of a warehouse area obtained by a warehouse area management unit, the highest capacity of the materials stored in the warehouse area and the priority of the warehouse area, detecting that the current materials designate the warehouse area by the warehousing distribution unit, distributing the materials to the warehouse area with the first priority in the warehousing process of the materials, and warehousing the materials to the warehouse area with the next priority after the capacity of the warehouse area with the first priority is full;

and S3, the material is delivered from the warehouse, after the user scans the bar code of the material through the client to obtain the serial number of the material, the material management unit positions the serial numbers of the corresponding warehouse area and the corresponding appliance in the virtual warehouse according to the serial number of the material input by the user, and the material is found in the appointed area according to the obtained serial number.

The technical scheme provided by the embodiment of the invention has the beneficial effects that at least:

1. the method comprises the steps that a corresponding virtual warehouse is constructed according to data of a real physical warehouse through a warehouse location management module, an intelligent algorithm module obtains the serial number of materials through bar codes of the materials in the process of warehousing the materials according to the data of the virtual warehouse and information of the materials, the warehouse locations of the materials are distributed according to the serial numbers of the materials, the real-time residual capacity of the warehouse locations and the priority of the warehouse locations, when the warehoused warehouse locations are appointed by the materials, the materials are warehoused to the warehouse locations with high priority and large residual capacity, and after the capacity of the warehouse locations with high priority is full, the materials are warehoused to the warehouse locations with the next priority, so that the system has the effects of automatically and intelligently balancing the warehouse locations based on the real-time capacity of the warehouse locations, avoiding disordered inventory and warehouse location explosion.

2. In the process of leaving the warehouse from the warehouse, after a user scans the bar code of the material through a client to acquire the serial number of the material, the material management unit positions the serial number of the corresponding warehouse area and the serial number of the appliance in the virtual warehouse according to the material serial number input by the user, and the specified area is found out according to the obtained serial number, so that the system has the advantages of avoiding finding the material in the warehouse through manual work, directly searching and positioning the specific position of the material through the system, and improving the speed effect of leaving the warehouse from the warehouse.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of a system for intelligently recommending warehousing of logistics storage according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of an intelligent warehouse-in recommendation method for logistics warehousing according to an embodiment of the present invention.

Reference numerals:

100. a storage position management module; 101. a physical warehouse data acquisition unit; 102. a virtual warehouse modeling unit; 103. a reservoir allocation unit; 104. a library area attribute setting unit; 200. an intelligent algorithm module; 201. a library area management unit; 202. a warehousing distribution unit; 203. a material management unit; 300. a client; 400. a database.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Example one

As shown in fig. 1, an embodiment of the present invention provides a system for intelligently recommending warehousing of logistics storage, including: the system comprises a library position management module 100, an intelligent algorithm module 200, a client 300 and a database 400;

the warehouse location management module 100 is configured to construct a corresponding virtual warehouse according to data of a physical warehouse, manage and define a warehouse location area in the virtual warehouse, and upload virtual warehouse data to the database 400;

specifically, the warehouse location management module 100 includes a physical warehouse data acquisition unit 101, a virtual warehouse modeling unit 102, and a warehouse area attribute setting unit 104, where the physical warehouse data acquisition unit 101 is configured to acquire data of a real physical warehouse, the acquired data of the acquired real physical warehouse includes size data of the warehouse, the virtual warehouse modeling unit 102 is configured to construct a virtual warehouse corresponding to the real physical warehouse in a digital twinning manner according to the data of the real physical warehouse acquired by the physical warehouse data acquisition unit 101, specifically, a virtual warehouse with the same size and structure is generated in a digital twinning manner according to the acquired size data of the physical warehouse, the warehouse area allocation unit 103 is configured to divide the warehouse area in the virtual warehouse, the warehouse area is configured to determine a material storage area to be warehoused, the warehouse area attribute setting unit 104 is configured to set attributes of the divided warehouse area, the property set by the storage area property setting unit 104 for the storage area comprises the type of the storable parts and the storage area capacity information, the property of the storage area is set to limit the type of the materials stored in the storage area and the total capacity of the storage area, the storage area property setting unit 104 is also used for numbering the storage area, an appliance for storing the materials is arranged in the storage area of the physical warehouse, the virtual warehouse modeling unit 102 generates a corresponding virtual appliance after inputting the data of the appliance and maps the virtual appliance to the storage area of the virtual warehouse, a bar code corresponding to the storage area number is arranged on the materials, and the appliance and the virtual appliance are provided with a second-level number corresponding to the storage area number.

The intelligent algorithm module 200 is used for distributing materials to be put in or taken out of a warehouse according to the data of the virtual warehouse and the information of the materials obtained by the warehouse location management module 100, updating the data after the materials are put in or taken out of the warehouse, and storing the data in the database 400;

specifically, the intelligent algorithm module 200 includes a storage area management unit 201, a warehousing allocation unit 202 and a material management unit 203, the storage area management unit 201 is configured to obtain a remaining capacity of a storage area, and is further configured to set a highest capacity of the storage area for storing the materials and a priority of the storage area, the highest capacity is a value set to avoid a warehouse burst and is 90% of a total capacity of the storage area, so that the storage area is always kept in a dynamically balanced state in the warehousing process of the materials, the warehousing allocation unit 202 is configured to allocate the storage area to the materials to be warehoused according to the remaining capacity of the storage area, the highest capacity of the storage area for storing the materials, the priority of the storage area and the serial number of the materials, the warehousing allocation unit 202 detects that the current material designates the storage area, preferentially allocates the storage area of a first priority in the warehousing process of the materials, and after the capacity of the storage area of the first priority is full, the warehousing is carried out sequentially to the warehouse area with the next level of priority, specifically, the priority is set in a digital mode, the warehousing distribution unit 202 judges the storage priority according to the size of the number, meanwhile, when warehousing is carried out, if the warehousing distribution unit 202 detects that the current material designates the warehouse area, the material can only be stored in the designated warehouse area, the warehousing distribution unit 202 analyzes according to the number of the material, the number of the warehouse area and the priority, screens out the warehouse area matched with the number of the material and the serial number of the warehouse area, if the warehouse area with the highest priority is inquired to be full, the warehouse area with the second priority is inquired automatically, if the warehouse area with the third priority is full, the warehouse area with the third priority is inquired till the last one, the material management unit 203 is used for positioning the corresponding warehouse area and the serial number of the appliance in the virtual warehouse according to the material number input by the user, the user finds the material in the designated area according to the obtained serial number, the material management unit 203 positions the corresponding numbers of the storage areas and the appliances in the virtual warehouse according to the material numbers input by the user, and then feeds back the numbers to the user through the client 300 in a graphical mode, and after the user finishes warehousing and ex-warehouse of the materials, the storage area management unit 201 uploads the updated data to the database 400 for storage.

The client 300 is used for a user to obtain information of materials, to obtain warehousing information of the materials or ex-warehouse information of the materials according to the information of the materials, the client 300 is used for scanning bar codes of the materials to obtain serial numbers of the materials, to perform warehousing according to warehousing areas obtained by the intelligent algorithm module 200, when the materials are ex-warehouse, by inputting the serial numbers of the materials, the material management unit 203 positions the serial numbers of the corresponding areas and appliances in the virtual warehouse according to the serial numbers of the materials input by the user, to feed back the serial numbers to the user through the client 300 in a graphical mode, and the user finds the materials in a designated area according to the obtained serial numbers;

and the database 400, wherein the database 400 is used for storing the data of the library position management module 100 and the intelligent algorithm module 200.

The invention constructs a corresponding virtual warehouse according to the data of a real physical warehouse through the warehouse position management module 100, the intelligent algorithm module 200 acquires the serial number of the material through the bar code of the material in the process of warehousing the material according to the data of the virtual warehouse and the information of the material, allocates the warehouse area of the material according to the serial number of the material, the real-time residual capacity of the warehouse area and the priority of the warehouse area, allocates the material to be warehoused to the warehouse area with high priority and large residual capacity when the warehouse area is appointed by the material, and warehouses the material to the warehouse area with the next priority after the capacity of the warehouse area with high priority is full, thereby leading the system to have the effects of automatically and intelligently balancing the stock capacity of the warehouse area based on the real-time capacity of warehouse storage, avoiding the occurrence of stock disorder and warehouse area explosion, and after a user scans the bar code of the material through the client 300 to acquire the serial number of the material in the process of warehouse-out of the material, the material management unit 203 locates the corresponding number of the storage area and the corresponding appliance in the virtual warehouse according to the material number input by the user, and the specified area is found according to the obtained number, so that the system has the advantages of avoiding finding materials in the warehouse through manual work, directly retrieving and locating the specific position of the material through the system, and improving the speed effect of discharging the material out of the warehouse.

Example two

The embodiment of the invention also discloses a method for intelligently recommending warehousing of logistics storage, which comprises the following steps as shown in figure 2:

s1, a virtual warehouse is constructed, after the physical warehouse data collection unit 101 obtains data of a real physical warehouse, the virtual warehouse modeling unit 102 constructs a virtual warehouse corresponding to the real physical warehouse in a digital twin manner according to the data of the real physical warehouse obtained by the physical warehouse data collection unit 101, the warehouse region allocation unit 103 divides the virtual warehouse into warehouse regions, the warehouse region attribute setting unit 104 sets attributes of the divided warehouse regions, and the warehouse region management unit 201 obtains the remaining capacity of the warehouse regions, the maximum capacity of the warehouse regions for storing materials, and the priority of the warehouse regions;

s2, warehousing the materials, scanning the bar codes of the materials by the client 300 to obtain the serial numbers of the materials, distributing the materials to be warehoused by the warehousing distribution unit 202 according to the serial numbers of the materials, the residual capacity of the warehouse areas, the highest capacity of the warehouse areas for storing the materials and the priority of the warehouse areas, detecting that the current materials designate the warehouse areas, distributing the materials to the warehouse areas with the first priority in the warehousing process of the materials, and warehousing the materials to the warehouse areas with the next priority after the capacity of the warehouse areas with the first priority is full;

s3, the material is delivered from the warehouse, after the user scans the barcode of the material through the client 300 to obtain the serial number of the material, the material management unit 203 locates the serial numbers of the corresponding warehouse area and the corresponding appliance in the virtual warehouse according to the serial number of the material input by the user, and arrives at the designated area to find the material according to the obtained serial number.

The embodiment discloses a method for intelligently recommending warehousing of logistics storage, which comprises the steps of constructing a corresponding virtual warehouse according to data of a real physical warehouse, acquiring the serial number of a material through a bar code of the material in the process of warehousing the material according to the data of the virtual warehouse and information of the material, allocating the warehouse area of the material according to the serial number of the material, the real-time residual capacity of the warehouse area and the priority of the warehouse area, when the warehousing material is appointed, allocating the material to be warehoused into the warehouse area with high priority and high residual capacity, warehousing the material into the warehouse area with the first priority after the capacity of the warehouse area with high priority is full, thereby enabling the method to have the effects of automatically and intelligently balancing the stock capacity of the warehouse area based on the real-time capacity of warehouse storage, avoiding disorder of the stock and warehouse area explosion, and after a user acquires the serial number of the material by scanning the bar code of the material in the process of warehouse-out of the material, the corresponding serial numbers of the storage areas and the appliances are positioned in the virtual warehouse according to the material serial numbers input by the user, and the materials are found in the designated area according to the obtained serial numbers, so that the method has the effects of avoiding finding the materials in the warehouse manually, directly searching and positioning the specific positions of the materials through the system, and improving the speed of discharging the materials from the warehouse.

It should be understood that the specific order or hierarchy of steps in the processes disclosed is an example of exemplary approaches. Based upon design preferences, it is understood that the specific order or hierarchy of steps in the processes may be rearranged without departing from the scope of the present disclosure. The accompanying method claims present elements of the various steps in a sample order, and are not intended to be limited to the specific order or hierarchy presented.

In the foregoing detailed description, various features are grouped together in a single embodiment for the purpose of streamlining the disclosure. This method of disclosure is not to be interpreted as reflecting an intention that the claimed embodiments of the subject matter require more features than are expressly recited in each claim. Rather, as the following claims reflect, invention lies in less than all features of a single disclosed embodiment. Thus, the following claims are hereby expressly incorporated into the detailed description, with each claim standing on its own as a separate preferred embodiment of the invention.

Those of skill would further appreciate that the various illustrative logical blocks, modules, circuits, and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both. To clearly illustrate this interchangeability of hardware and software, various illustrative components, blocks, modules, circuits, and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the overall system. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present disclosure.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an ASIC. The ASIC may reside in a user terminal. Of course, the processor and the storage medium may reside as discrete components in a user terminal.

For a software implementation, the techniques described herein may be implemented with modules (e.g., procedures, functions, and so on) that perform the functions described herein. The software codes may be stored in memory units and executed by processors. The memory unit may be implemented within the processor or external to the processor, in which case it can be communicatively coupled to the processor via various means as is known in the art.

What has been described above includes examples of one or more embodiments. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the aforementioned embodiments, but one of ordinary skill in the art may recognize that many further combinations and permutations of various embodiments are possible. Accordingly, the embodiments described herein are intended to embrace all such alterations, modifications and variations that fall within the scope of the appended claims. Furthermore, to the extent that the term "includes" is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term "comprising" as "comprising" is interpreted when employed as a transitional word in a claim. Furthermore, any use of the term "or" in the specification of the claims is intended to mean a "non-exclusive or".

Claims (10)

1. The system for intelligently recommending the warehousing of the logistics warehouse is characterized by comprising the following steps of: the system comprises a storage position management module, an intelligent algorithm module, a client and a database;

the warehouse location management module is used for constructing a corresponding virtual warehouse according to the data of the real physical warehouse, managing and defining a warehouse location area in the virtual warehouse, and uploading the data of the virtual warehouse to the database;

the intelligent algorithm module is used for distributing materials to be put in or taken out of a warehouse according to the data of the virtual warehouse and the information of the materials obtained by the warehouse location management module, updating the data after the materials are put in or taken out of the warehouse, and storing the data in a database;

the client is used for acquiring the information of the materials by a user and acquiring warehousing information of the materials or ex-warehousing information of the materials according to the information of the materials;

and the database is used for storing the data of the library position management module and the intelligent algorithm module.

2. The system as claimed in claim 1, wherein the warehouse location management module includes a physical warehouse data acquisition unit, a virtual warehouse modeling unit and a warehouse area attribute setting unit, the physical warehouse data acquisition unit is used for acquiring data of a physical warehouse, the virtual warehouse modeling unit is used for constructing a virtual warehouse corresponding to the physical warehouse in a digital twin manner according to the data of the physical warehouse acquired by the physical warehouse data acquisition unit, the warehouse area allocation unit is used for performing warehouse area division in the virtual warehouse, and the warehouse area attribute setting unit is used for performing attribute setting on the divided warehouse areas.

3. The system as claimed in claim 2, wherein the property set by the storage area property setting unit for the storage area includes the model number of the component that can be stored and the capacity information of the storage area, and the storage area property setting unit is further configured to number the storage area.

4. The system as claimed in claim 2, wherein an appliance for storing materials is disposed in the area of the physical warehouse, and the virtual warehouse modeling unit generates a corresponding virtual appliance by inputting data of the appliance and maps the virtual appliance to the area of the virtual warehouse.

5. The system as claimed in claim 4, wherein the material is provided with a bar code corresponding to a storage area number, and the appliances and virtual appliances are provided with a secondary number corresponding to the storage area number.

6. The system as claimed in claim 4, wherein the intelligent algorithm module includes a storage area management unit, a storage allocation unit and a material management unit, the storage area management unit is configured to obtain the remaining capacity of the storage area, and is further configured to set the highest capacity of the storage area for storing the material and the priority of the storage area, the storage allocation unit is configured to allocate the storage area to the material to be stored according to the remaining capacity of the storage area, the highest capacity of the storage area for storing the material, the priority of the storage area and the number of the material, which are obtained by the storage area management unit, the material management unit is configured to locate the corresponding storage area and the number of the appliance in the virtual warehouse according to the material number input by the user, and the user finds the material in the specified area according to the obtained number.

7. The system as claimed in claim 6, wherein the material management unit locates the corresponding number of the storage area and the appliance in the virtual warehouse according to the material number inputted by the user and then feeds back the number to the user in a graphical manner through the client.

8. The system as claimed in claim 7, wherein the client is configured to scan a barcode of a material to obtain a serial number of the material.

9. The system as claimed in claim 6, wherein the warehousing distribution unit detects that the current material is assigned a warehouse area, preferentially distributes the current material to a warehouse area with a first priority in the process of warehousing the material, and postpones warehousing the current material into a warehouse area with a next priority after the capacity of the warehouse area with the first priority is full.

10. The method for intelligently recommending warehousing of logistics storage is applied to the system for intelligently recommending warehousing of logistics storage according to claim 1, and is characterized by comprising the following steps of:

s1, a virtual warehouse is constructed, after the physical warehouse data acquisition unit acquires data of the real physical warehouse, the virtual warehouse modeling unit constructs a virtual warehouse corresponding to the real physical warehouse in a digital twin mode according to the data of the real physical warehouse acquired by the physical warehouse data acquisition unit, the warehouse area distribution unit divides the virtual warehouse into warehouse areas, the warehouse area attribute setting unit sets attributes of the divided warehouse areas, and the warehouse area management unit acquires the residual capacity of the warehouse areas, sets the highest capacity of materials stored in the warehouse areas and the priority of the warehouse areas;

s2, warehousing the materials, scanning bar codes of the materials by a client to obtain serial numbers of the materials, distributing the materials to be warehoused by a warehousing distribution unit according to the serial numbers of the materials, the residual capacity of a warehouse area obtained by a warehouse area management unit, the highest capacity of the materials stored in the warehouse area and the priority of the warehouse area, detecting that the current materials designate the warehouse area by the warehousing distribution unit, distributing the materials to the warehouse area with the first priority in the warehousing process of the materials, and warehousing the materials to the warehouse area with the next priority after the capacity of the warehouse area with the first priority is full;

and S3, the material is delivered from the warehouse, after the user scans the bar code of the material through the client to obtain the serial number of the material, the material management unit positions the serial numbers of the corresponding warehouse area and the corresponding appliance in the virtual warehouse according to the serial number of the material input by the user, and the material is found in the appointed area according to the obtained serial number.

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