CN116894630A

CN116894630A - Building material warehouse-in and warehouse-out management method and system based on intelligent warehouse

Info

Publication number: CN116894630A
Application number: CN202310913549.9A
Authority: CN
Inventors: 朱子聪
Original assignee: Chaohui Technology Guangzhou Co ltd
Current assignee: Chaohui Technology Guangzhou Co ltd
Priority date: 2023-07-24
Filing date: 2023-07-24
Publication date: 2023-10-17

Abstract

The application relates to a building material warehouse-in and warehouse-out management method and system based on intelligent warehouse, which comprises the steps of acquiring warehouse image information and label information stored in building materials to be warehoused, and acquiring the total volume of the building materials to be warehoused according to the label information; acquiring storage information according to storage image information, and acquiring a plurality of storable volume libraries based on the storage information; comparing the total volume of the building materials to be stored with a storable volume library, and calculating the maximum storage quantity and the corresponding storage scheme of the building materials to be stored in the storable volume library according to the label information of the building materials to be stored when the total volume of the building materials to be stored is larger than the storable volume library; the method comprises the steps of obtaining the residual warehousing quantity based on the maximum warehousing quantity, inputting the residual warehousing quantity into an adjacent storable volume library, and generating a residual storage scheme; and generating a building material warehouse entry report according to the storage scheme, the residual storage scheme and the label information, and storing the building material warehouse entry report in a preset database. The application improves the management and storage efficiency of the building materials in the warehouse.

Description

Building material warehouse-in and warehouse-out management method and system based on intelligent warehouse

Technical Field

The application relates to the technical field of intelligent analysis, in particular to a building material warehouse-in and warehouse-out management method and system based on intelligent warehouse-out.

Background

The warehouse-in and warehouse-out management of the stored building materials is a key link, and has important influence on the operation efficiency and cost control of enterprises.

When the modern storage system stores building materials in a warehouse, the storage space is wasted due to irregular stacking of the building materials, and meanwhile, when the building materials are delivered out of the warehouse for transportation, the difficulty of transportation is increased due to irregular building materials, and the transportation efficiency is affected. In the process of putting the building materials in and out of the warehouse, the phenomenon that the mechanical arm is not orderly placed can occur when the building materials are placed, meanwhile, the speed change of the automatic carrying trolley in the transportation process can also influence the stacking angle of the building materials, the irregular stacking of the building materials is aggravated, the whole storage space is more and more disordered, and the storage effect is influenced, so that a certain improvement space exists.

Disclosure of Invention

In order to improve the storage effect of building materials in storage; the application provides a building material warehouse-in and warehouse-out management method and system based on intelligent warehouse.

The first object of the present application is achieved by the following technical solutions:

A building material warehouse-in and warehouse-out management method based on intelligent warehouse comprises the following steps:

acquiring storage image information and label information stored in building materials to be stored, and acquiring the total volume of the building materials to be stored according to the label information;

acquiring storage information according to the storage image information, and acquiring a plurality of storable volume libraries based on the storage information;

comparing the total volume of the building materials to be stored with a plurality of storable volume libraries in sequence, and calculating the maximum storage quantity of the building materials to be stored in the storable volume libraries and a storage scheme corresponding to the maximum storage quantity according to the label information of the building materials to be stored when the total volume of the building materials to be stored is larger than the storable volume libraries;

acquiring the residual warehousing quantity based on the maximum warehousing quantity, inputting the residual warehousing quantity into an adjacent storable volume library, and generating a residual storage scheme;

and generating a building material warehouse entry report according to the storage scheme, the residual storage scheme and the label information, and storing the building material warehouse entry report in a preset database.

By adopting the technical scheme, before building materials are stored in the warehouse, warehouse image information for storing the warehouse of the building materials is obtained, and label information corresponding to the building materials to be warehoused is obtained, wherein the label information comprises information such as the quantity, the shape, the size, the type of the building materials to be warehoused in the same batch, the total volume of the building materials to be warehoused is calculated by utilizing the label information of the building materials to be warehoused, so as to determine the storage space required by the building materials to be warehoused in the warehouse, the obtained warehouse image information is utilized to obtain the storage information of the warehouse, the storage condition in the current warehouse is analyzed, all storable volume libraries in the warehouse are determined according to the warehouse storage information, the total volume of the building materials to be warehoused is compared with each storable volume library in the warehouse in sequence, whether the building materials to be warehoused can be totally stored in the storable volume libraries is judged, when the total volume of the building materials to be stored is larger than the volume of the storable volume library, the largest warehousing data and the corresponding storage scheme of the storable storage of the building materials to be stored in the storable volume library are calculated firstly, the to-be-stored building materials are stored according to the storage scheme, the residual warehousing quantity of the building materials to be stored is obtained, the residual warehousing quantity is input into the adjacent storable volume library, further, after the previous storable volume library is fully stored, the to-be-stored building materials are automatically stored according to the empty space in the warehouse, the corresponding storage scheme of the to-be-stored building materials is generated, the storage scheme is recorded into a building material warehousing report according to the storage condition and the label information of the to-be-stored building materials and is stored in the preset database, so that a manager can conveniently consult the warehousing report of the building materials, the storage condition of the building materials in the warehouse is monitored, compared with the autonomous storage of the staff, the utilization rate of the space in the warehouse can be improved, meanwhile, the storage space of the storage is reasonably distributed, and the storage effect of building materials in storage is improved.

The present application is in a preferred example: the method for acquiring the storage information according to the storage image information comprises the steps of:

acquiring a plurality of idle area based on the warehousing image information, and integrating the plurality of idle area into warehousing storage information;

and acquiring a plurality of volume data corresponding to the free area according to the warehousing storage information, and sequencing the free area according to the size of the volume data to generate a plurality of storable volume libraries.

By adopting the technical scheme, before building materials are put in storage, storage image information is analyzed, idle areas capable of storing building materials in the storage are analyzed, at least one idle area is obtained, all idle area areas are integrated to obtain storage information of the storage, storage volume data corresponding to each idle area are obtained according to the storage information, a plurality of idle area areas are reordered according to the size sequence of the storage volume data, a storable volume library is formed, and further, in the storage process of the building materials, idle areas with large storage volumes are preferentially utilized, and the storage efficiency and practicality of the building materials in storage can be effectively improved.

The present application is in a preferred example: after the total volume of the building materials to be warehoused is compared with a plurality of storable volume libraries in sequence, the building material warehouse-in and warehouse-out management method based on intelligent warehouse further comprises the following steps:

when the total volume of the building materials to be put in storage is smaller than the storable volume library, acquiring the occupied space information of the building materials to be put in storage based on the label information;

and acquiring a storage space model based on the storable volume library, inputting the occupied space information into the storage space model, generating a corresponding building material placement scheme and residual available space data, and updating the residual available space data into the storable volume library.

By adopting the technical scheme, when the total volume of the building materials to be stored is smaller than the storage volume in the storable volume library, the building materials to be stored can be stored in the storable volume library, the occupied space information of the building materials is obtained according to the label information of the building materials to be stored, wherein the occupied space information comprises the information of the number, the stacking shape, the required space volume and the like of the building materials, a corresponding storage space model is generated according to the storable volume library, the occupied space information is input into the storage space model, the placement of the building materials to be stored in the storable volume library is simulated, the corresponding building material placement scheme and the residual available space data are generated, and the storage volume in the storable volume library is updated according to the residual available space data, so that the functions of warehousing and storing the building materials and updating the storable area space in real time are realized.

The present application is in a preferred example: the method comprises the steps of calculating the maximum warehousing quantity of the building materials to be warehoused in the storable volume library and a storage scheme corresponding to the maximum warehousing quantity according to the label information of the building materials to be warehoused, and specifically comprises the following steps:

acquiring a storage space model based on the storable volume library, and acquiring maximum stacking shape information of building materials to be put in storage according to the label information;

and inputting the maximum stacking shape information into a storage space model to generate the maximum warehousing quantity and a corresponding storage scheme.

By adopting the technical scheme, when the total volume of the building materials to be stored is larger than the storage volume in the storable volume library, the fact that the batch of building materials to be stored cannot be stored in the storable volume library is explained, a storage space model is generated by utilizing the storage volume in the storable volume library, the maximum stacking number and specific stacking shape of the batch of building materials are identified according to the maximum stacking shape information of the tag information of the building materials to be stored, efficient storage is conveniently carried out according to the stacking condition of the building materials, the maximum stacking shape information is input into the storage space model, storage of the building materials in the storable volume library is simulated, the maximum storage number of the building materials in the storable volume library and the corresponding storage scheme are generated, and the maximum storage number is the maximum storage number of the building materials, so that the storage function of the building materials is realized.

The present application is in a preferred example: the method comprises the steps of obtaining the residual warehousing quantity based on the maximum warehousing quantity, inputting the residual warehousing quantity into an adjacent storable volume warehouse, and generating a residual storage scheme, wherein the method specifically comprises the following steps:

acquiring the total warehouse entry quantity of the building materials according to the label information, and subtracting the maximum warehouse entry quantity from the total warehouse entry quantity of the building materials to obtain the residual warehouse entry quantity;

and acquiring residual building material volume information based on the residual warehouse-in quantity, inputting the residual building material volume information into an adjacent storable volume warehouse, and matching with the storage volume in the adjacent storable volume to generate a residual storage scheme.

By adopting the technical scheme, when the building materials to be stored cannot be stored in one of the storable volume libraries, the residual storage quantity of the building materials is acquired, the residual building material volume information is acquired according to the residual storage quantity, the residual building material volume information is matched with the storage volumes in the adjacent storable volume libraries, the storable volume libraries capable of storing the residual storage quantity of the batch of building materials are automatically adapted, a residual storage scheme is generated, the residual building materials are stored in storage according to the residual storage scheme, the most suitable storable volume libraries in storage are automatically selected, and the practical rate of the storage space of storage is effectively improved.

The present application is in a preferred example: after the building material warehouse entry report is generated according to the storage scheme, the residual storage scheme and the label information and stored in a preset database, the building material warehouse entry management method based on intelligent warehouse entry further comprises the following steps:

responding to a building material taking instruction, obtaining building material taking information, and determining building material taking volume information based on the building material taking information;

and updating the warehouse storage information based on the volume information of the building materials to form a building material taking record table.

Through adopting above-mentioned technical scheme, when the administrator takes out the building materials of depositing in the storage, then acquire the building materials and get cargo information, utilize the building materials to get cargo information and confirm the concrete volume of being taken out the building materials, and the storage information of this storage of taking out the concrete volume real-time update of building materials, and then can in time update the storage condition of storage and generate the building materials and take out the record table after taking out the building materials, the storage manager of being convenient for in time updates the storage condition of storage and knows, improves the management efficiency of depositing of storage to the building materials.

The second object of the present application is achieved by the following technical solutions:

a building material warehouse-in and warehouse-out management system based on intelligent warehouse, the building material warehouse-in and warehouse-out management system based on intelligent warehouse comprises:

The building material warehouse-in information acquisition module is used for acquiring warehouse-in image information and label information stored in building materials to be warehoused, and acquiring the total volume of the building materials to be warehoused according to the label information;

the storage information acquisition module is used for acquiring storage information according to the storage image information and acquiring a plurality of storable volume libraries based on the storage information;

the building material storage scheme determining module is used for sequentially comparing the total volume of the building materials to be stored with a plurality of storable volume libraries, and calculating the maximum storage quantity of the building materials to be stored in the storable volume libraries and the storage scheme corresponding to the maximum storage quantity according to the label information of the building materials to be stored when the total volume of the building materials to be stored is larger than the storable volume libraries;

the residual building material storage scheme determining module is used for acquiring the residual storage quantity based on the maximum storage quantity, inputting the residual storage quantity into the adjacent storable volume library and generating a residual storage scheme;

and the warehousing report generating module is used for generating a building material warehousing report according to the storage scheme, the residual storage scheme and the label information and storing the building material warehousing report in a preset database.

Optionally, the warehouse storage information acquisition module includes:

the idle area determining sub-module is used for acquiring a plurality of idle area based on the warehousing image information and integrating the idle area into warehousing storage information;

and the free area sub-module is used for acquiring a plurality of volume data corresponding to the free area according to the warehousing storage information, sequencing the free area according to the volume data, and generating a plurality of storable volume libraries.

By adopting the technical scheme, before building materials are stored in the warehouse, warehouse image information for storing the warehouse of the building materials is obtained, and label information corresponding to the building materials to be warehoused is obtained, wherein the label information comprises information such as the quantity, the shape, the size, the type of the building materials to be warehoused in the same batch, the total volume of the building materials to be warehoused is calculated by utilizing the label information of the building materials to be warehoused, so as to determine the storage space required by the building materials to be warehoused in the warehouse, the obtained warehouse image information is utilized to obtain the warehouse information of the warehouse, the storage condition in the current warehouse is analyzed, all storable volume libraries in the warehouse are determined according to the warehouse storage information, the total volume of the building materials to be warehoused is compared with each storable volume library in the warehouse in sequence, whether the building materials to be warehoused can be totally stored in the storable volume libraries is judged, when the total volume of the building materials to be stored is larger than the volume of the storable volume library, the largest warehousing data and the corresponding storage scheme of the storable storage of the building materials to be stored in the storable volume library are calculated firstly, the to-be-stored building materials are stored according to the storage scheme, the residual warehousing quantity of the building materials to be stored is obtained, the residual warehousing quantity is input into the adjacent storable volume library, further, after the previous storable volume library is fully stored, the to-be-stored building materials are automatically stored according to the empty space in the warehouse, the corresponding storage scheme of the to-be-stored building materials is generated, the storage scheme is recorded into a building material warehousing report according to the storage condition and the label information of the to-be-stored building materials and is stored in the preset database, so that a manager can conveniently consult the warehousing report of the building materials, the storage condition of the building materials in the warehouse is monitored, compared with the autonomous storage of the staff, the utilization rate of the space in the warehouse can be improved, meanwhile, the storage space of the storage is reasonably distributed, and the storage effect of building materials in storage is improved.

The third object of the present application is achieved by the following technical solutions:

the computer equipment comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, wherein the steps of the building material warehouse-in and warehouse-out management method based on intelligent warehouse are realized when the processor executes the computer program.

The fourth object of the present application is achieved by the following technical solutions:

a computer readable storage medium storing a computer program which when executed by a processor implements the steps of a building material warehouse-in and warehouse-out management method based on intelligent warehouse.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the method comprises the steps of obtaining storage image information of storage for storing building materials, and obtaining label information corresponding to the building materials to be stored, wherein the label information comprises information such as the quantity, shape, size, building material type and the like of the building materials to be stored in the same batch, calculating the total volume of the building materials to be stored by utilizing the label information of the building materials to be stored to determine the storage space required by the building materials to be stored in the storage, obtaining the storage information of the storage by utilizing the obtained storage image information, analyzing the storage condition in the current storage, determining all storable volume libraries in the storage according to the storage information, comparing the total volume of the building materials to be stored with each storable volume library in the storage in sequence, judging whether the total volume of the building materials to be stored can be stored in the storable volume libraries in sequence, calculating the maximum storage data and corresponding storage scheme of the building materials to be stored in the storable volume libraries when the total volume of the building materials to be stored is larger than the storable volume libraries, storing the building materials to be stored in the storage according to the storage scheme, obtaining the residual storage quantity of the building materials to be stored in the storage, inputting the residual storage quantity into the adjacent storable volume libraries according to the storage scheme, further automatically determining the storage space of the storage available storage space to be stored in the storage space, and storing the storage label according to the storage space to be stored in the storage management information, and saving the storage label is stored in the storage space, and is stored in advance by a reasonable condition when the storage label is stored in the storage by personnel in the storage space is stored in advance, the storage effect of building materials in storage is improved;

2. Before building materials are put in storage, the storage image information is analyzed, the free areas capable of storing the building materials in the storage are analyzed to obtain at least one free area, all the free area areas are integrated to obtain storage information of the storage, storage volume data corresponding to each free area are obtained according to the storage information, a plurality of free area areas are reordered according to the size sequence of the storage volume data, a storable volume library is formed, and therefore in the storage process of the building materials, the free areas with large storage volumes are preferentially utilized, and the storage efficiency and practicability of the building materials can be effectively improved;

3. when a manager takes out the stored building materials in the warehouse, the building material taking information is acquired, the specific volume of the taken building materials is determined by utilizing the building material taking information, and the warehouse storage information of the warehouse is updated in real time according to the specific volume of the taken building materials, so that the storage condition of the warehouse can be updated in time after the building materials are taken out, and a building material taking record table is generated, so that the warehouse manager can update and know the storage condition of the warehouse in time, and the management and storage efficiency of the warehouse on the building materials is improved.

Drawings

FIG. 1 is a flow chart of a method for managing building materials to be delivered and stored in a warehouse based on intelligent storage according to an embodiment of the application;

FIG. 2 is a flowchart showing an implementation of step S20 in a building material warehouse-in and warehouse-out management method based on intelligent warehouse in an embodiment of the application;

FIG. 3 is a flowchart of another implementation of a method for managing building material access based on intelligent warehouse in an embodiment of the application;

fig. 4 is a flowchart showing an implementation of step S30 in a building material warehouse-in and warehouse-out management method based on intelligent warehouse in an embodiment of the present application;

FIG. 5 is a flowchart showing an implementation of step S40 in a building material warehouse-in and warehouse-out management method based on intelligent warehouse in an embodiment of the application;

FIG. 6 is a flowchart of another implementation of a method for managing building material access based on intelligent warehouse in accordance with an embodiment of the present application;

FIG. 7 is a schematic block diagram of a building material warehouse-in and warehouse-out management system based on intelligent warehouse in an embodiment of the application

FIG. 8 is a schematic diagram of a computer device in an embodiment of the application.

Detailed Description

The application is described in further detail below with reference to fig. 1-8.

In one embodiment, as shown in fig. 1, the application discloses a building material warehouse-in and warehouse-out management method based on intelligent warehouse-out, which specifically comprises the following steps:

S10: and acquiring storage image information and label information stored in the building materials to be stored, and acquiring the total volume of the building materials to be stored according to the label information.

In this embodiment, the storage image information refers to a storage internal structure image for storing building materials, the tag information refers to information such as the number, shape, size, type of building materials to be stored in the same batch of building materials to be stored, and the total volume of the building materials to be stored refers to the volume occupied by the building materials to be stored.

Specifically, before building materials are stored in a warehouse, an image of an internal structure of the warehouse for storing the building materials can be obtained by using an image pickup device, before the building materials are stored in the warehouse, a corresponding tag code on the building materials is scanned, tag information corresponding to the building materials to be stored is obtained, the tag information is like information such as the quantity, the shape, the size, the type of the building materials and the like of the building materials to be stored in batches, and the total volume occupied by the building materials to be stored can be calculated according to the size information of the building materials to be stored, so that the storage space required by the building materials to be stored in the warehouse is determined.

S20: and acquiring storage information according to the storage image information, and acquiring a plurality of storable volume libraries based on the storage information.

In this embodiment, the warehouse storage information refers to the storage condition in the existing warehouse, and the storable volume warehouse refers to the area in the warehouse where building materials can be stored.

Specifically, the storage information of the warehouse is obtained by using the obtained warehouse image information, the storage condition in the current warehouse is analyzed, and all the areas capable of storing building materials in the warehouse are determined according to the warehouse storage information so as to store the building materials in the warehouse in the appointed area.

S30: and comparing the total volume of the building materials to be stored with a plurality of storable volume libraries in sequence, and calculating the maximum storage quantity of the building materials to be stored in the storable volume libraries and a storage scheme corresponding to the maximum storage quantity according to the label information of the building materials to be stored when the total volume of the building materials to be stored is larger than the storable volume libraries.

In this embodiment, the maximum number of storage means the maximum number of building materials that can be stored in the storage area, and the storage scheme means a specific storage method for the building materials.

Specifically, the total volume of the building materials to be stored is sequentially compared with each storable volume library in the warehouse, whether the batch of building materials to be stored can be stored in the storable volume library or not is judged, when the total volume of the building materials to be stored is larger than the volume of the storable volume library, the maximum warehouse-in data and the corresponding storage scheme of the building materials to be stored in the storable volume library can be calculated, and the building materials to be stored are stored according to the storage scheme.

S40: and acquiring the residual warehousing quantity based on the maximum warehousing quantity, inputting the residual warehousing quantity into the adjacent storable volume library, and generating a residual storage scheme.

In this embodiment, the remaining warehouse entry number refers to the number of building materials left in the batch, and the remaining storage scheme refers to a specific scheme for storing and arranging the remaining building materials.

Specifically, the number of the building materials which are not stored in the batch is obtained, the number of the residual building materials which are not stored in the batch is input into the adjacent storable volume library, and then after the previous storable volume library is fully stored, the residual building materials to be stored in the warehouse are automatically stored according to the free space in the warehouse, so that a specific scheme for storing and arranging the residual building materials is generated.

S50: and generating a building material warehouse entry report according to the storage scheme, the residual storage scheme and the label information, and storing the building material warehouse entry report in a preset database.

In this embodiment, the building material warehouse entry report refers to a data record table in which building materials are stored in a warehouse.

Specifically, the building material warehouse entry report is recorded according to the storage condition and the label information of the building materials to be warehoused and is stored in a preset database, so that a manager can conveniently review the building material warehouse entry report, the storage condition of the building materials in the warehouse is monitored, compared with the automatic storage of the building materials by workers, the utilization rate of the space in the warehouse can be improved, the storage space of the whole warehouse is reasonably distributed, and the storage effect of the building materials in the warehouse is improved.

In this embodiment, before building materials are stored in a warehouse, storage image information of the warehouse for storing the building materials is obtained, and label information corresponding to the building materials to be stored is obtained, wherein the label information comprises information such as the number, shape, size, building material type and the like of the building materials to be stored in the same batch, the total volume of the building materials to be stored is calculated by using the label information of the building materials to be stored, so as to determine a storage space required by the building materials to be stored in the warehouse, the obtained storage image information is used for obtaining the storage information of the warehouse, the storage condition in the current warehouse is analyzed, all storable volume libraries in the warehouse are determined according to the storage information, the total volume of the building materials to be stored in the warehouse is compared with each storable volume library in the warehouse in sequence, whether the building materials to be stored in the storable volume libraries can be stored completely is judged, when the total volume of the building materials to be stored is larger than the volume of the storable volume library, the largest warehousing data and the corresponding storage scheme of the storable storage of the building materials to be stored in the storable volume library are calculated firstly, the to-be-stored building materials are stored according to the storage scheme, the residual warehousing quantity of the building materials to be stored is obtained, the residual warehousing quantity is input into the adjacent storable volume library, further, after the previous storable volume library is fully stored, the to-be-stored building materials are automatically stored according to the empty space in the warehouse, the corresponding storage scheme of the to-be-stored building materials is generated, the storage scheme is recorded into a building material warehousing report according to the storage condition and the label information of the to-be-stored building materials and is stored in the preset database, so that a manager can conveniently consult the warehousing report of the building materials, the storage condition of the building materials in the warehouse is monitored, compared with the autonomous storage of the staff, the utilization rate of the space in the warehouse can be improved, meanwhile, the storage space of the storage is reasonably distributed, and the storage effect of building materials in storage is improved.

In one embodiment, as shown in fig. 2, in step S20, storage information is acquired according to the storage image information, and a plurality of storable volume libraries are acquired based on the storage information, which specifically includes:

s21: and acquiring a plurality of idle area based on the warehousing image information, and integrating the idle area into warehousing storage information.

S22: and acquiring a plurality of volume data corresponding to the free area according to the warehousing storage information, and sequencing the free area according to the size of the volume data to generate a plurality of storable volume libraries.

Specifically, before building materials are put in storage, storage image information is analyzed, idle areas capable of storing building materials in the storage are analyzed to obtain at least one idle area, all idle area areas are integrated to obtain storage information of the storage, storage volume data corresponding to each idle area are obtained according to the storage information, a plurality of idle area areas are reordered according to the size sequence of the storage volume data, a storable volume library is formed, and further in the storage process of the building materials, idle areas with large storage volumes are preferentially utilized, and the efficiency and practicality of building material storage can be effectively improved.

In one embodiment, as shown in fig. 3, after step S30, a method for managing building materials going in and going out of a warehouse based on intelligent warehouse further includes:

s301: and when the total volume of the building materials to be put in storage is smaller than the storable volume library, acquiring the occupied space information of the building materials to be put in storage based on the label information.

In this embodiment, the space occupation information refers to space occupation data required by the batch of building materials (the total volume is smaller than the volume of the storable area in the warehouse).

S302: and acquiring a storage space model based on the storable volume library, inputting the occupied space information into the storage space model, generating a corresponding building material placement scheme and residual available space data, and updating the residual available space data into the storable volume library.

In this embodiment, the storage space model refers to a three-dimensional model corresponding to a storable area in a warehouse, and is used for simulating storage of building materials. The remaining available space data refers to the remaining available space after the batch of building materials is stored in the storable region.

Specifically, when the total volume of building materials to be stored is smaller than the storage volume in the storable volume library, the building materials to be stored can be stored in the storable volume library, the occupied space information of the building materials is obtained according to the label information of the building materials to be stored, wherein the occupied space information comprises information such as the number, stacking shape and required space volume of the building materials, a corresponding storage space model is generated according to the storable volume library, the occupied space information is input into the storage space model, the placement of the building materials to be stored in the storable volume library is simulated, corresponding building material placement scheme and residual available space data are generated, the storage volume in the storable volume library is updated by the residual available space data, and the functions of warehousing and storing the building materials and updating the storable area space in real time are realized.

In one embodiment, as shown in fig. 4, in step S30, according to the tag information of the building material to be stored, the maximum storage number of the building material to be stored in the storable volume library and the storage scheme corresponding to the maximum storage number are calculated, and specifically includes:

s31: and acquiring a storage space model based on the storable volume library, and acquiring the maximum stacking shape information of building materials to be put in storage according to the label information.

In this embodiment, the maximum stacking shape information refers to the specific stacking number and stacking shape of the batch of building materials (the total volume is greater than the volume of the storable area in the warehouse).

S32: and inputting the maximum stacking shape information into a storage space model to generate the maximum warehousing quantity and a corresponding storage scheme.

Specifically, when the total volume of the building materials to be stored is larger than the storage volume in the storable volume library, the fact that the batch of building materials to be stored cannot be stored in the storable volume library is indicated, a storage space model is generated by utilizing the storage volume in the storable volume library, the maximum stacking shape information of the building materials is obtained according to the label information of the building materials to be stored, the maximum stacking number and the specific stacking shape of the batch of building materials are identified, efficient storage is conveniently carried out according to the stacking condition of the building materials, the maximum stacking shape information is input into the storage space model, storage of the building materials in the storable volume library is simulated, the maximum storage number of the building materials in the storable volume library and the corresponding storage scheme are generated, and the maximum storage number is the maximum storage number of the building materials, so that the storage function of the building materials is realized.

In one embodiment, as shown in fig. 5, in step S40, the remaining number of bins is obtained based on the maximum number of bins, and the remaining number of bins is input into the adjacent storable volume bins to generate a remaining storage scheme, which specifically includes:

s41: and obtaining the total warehouse entry quantity of the building materials according to the label information, and subtracting the maximum warehouse entry quantity from the total warehouse entry quantity of the building materials to obtain the residual warehouse entry quantity.

S42: and acquiring residual building material volume information based on the residual warehouse-in quantity, inputting the residual building material volume information into an adjacent storable volume warehouse, and matching with the storage volume in the adjacent storable volume to generate a residual storage scheme.

Specifically, when the building materials to be stored cannot be stored in one of the storable volume libraries, the residual storage quantity of the building materials is obtained, the residual building material volume information is obtained according to the residual storage quantity, the residual building material volume information is matched with the storage volumes in the adjacent storable volume libraries, the storable volume libraries capable of storing the residual storage quantity of the batch of building materials are automatically adapted, a residual storage scheme is generated, the residual building materials are stored in the warehouse according to the residual storage scheme, the most suitable storable volume libraries in the warehouse are automatically selected, and the practical rate of the storage space of the warehouse is effectively improved.

In one embodiment, as shown in fig. 6, after step S50, a method for managing building materials going in and going out of a warehouse based on intelligent warehouse further includes:

s60: and responding to the building material taking instruction, acquiring building material taking information, and determining taking building material volume information based on the building material taking information.

In this embodiment, the building material taking instruction means a building material shipment control instruction, the building material taking information means information such as a specific number, a size, a type of building material, etc. of the building material shipment, and the taking-out building material volume information means volume data of the building material shipment.

S70: and updating the warehouse storage information based on the volume information of the building materials to form a building material taking record table.

Specifically, when the administrator takes out the building materials stored in the warehouse, the building material taking information is obtained, the specific volume of the taken building materials is determined by utilizing the building material taking information, and the warehouse storage information of the warehouse is updated in real time according to the specific volume of the taken building materials, so that the storage condition of the warehouse can be updated in time after the building materials are taken out, and a building material taking record table is generated, so that the warehouse administrator can update and know the storage condition of the warehouse in time, and the management and storage efficiency of the warehouse on the building materials is improved.

It should be understood that the sequence number of each step in the foregoing embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic, and should not limit the implementation process of the embodiment of the present application.

In an embodiment, a building material warehouse-in and warehouse-out management system based on intelligent warehouse is provided, where the building material warehouse-in and warehouse-out management system based on intelligent warehouse corresponds to the building material warehouse-in and warehouse-out management method based on intelligent warehouse in the above embodiment. As shown in fig. 7, the intelligent warehouse-based building material warehouse-in and warehouse-out management system comprises a building material warehouse-in information acquisition module, a warehouse storage information acquisition module, a building material storage scheme determination module, a residual building material storage scheme determination module and a warehouse-in report generation module. The functional modules are described in detail as follows:

Optionally, the warehouse storage information acquisition module includes:

Specific limitations regarding a building material warehouse-in and warehouse-out management system based on intelligent warehouse-in can be found in the above description, and the detailed description is omitted here. The modules in the building material warehouse-in and warehouse-out management system based on intelligent warehouse can be all or partially realized by software, hardware and combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure of which may be as shown in fig. 8. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer equipment is used for storing data generated when building materials are stored in and out of the warehouse. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by the processor to realize a building material warehouse-in and warehouse-out management method based on intelligent warehouse.

In one embodiment, a computer device is provided, including a memory, a processor, and a computer program stored on the memory and operable on the processor, the processor implementing a building material warehouse-in and warehouse-out management method based on intelligent warehouse when executing the computer program;

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional units and modules is illustrated, and in practical application, the above-described functional distribution may be performed by different functional units and modules according to needs, i.e. the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-described functions.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims

1. A building material warehouse-in and warehouse-out management method based on intelligent warehouse is characterized by comprising the following steps of: the method comprises the following steps:

2. The intelligent warehouse-based building material warehouse-in and warehouse-out management method as claimed in claim 1, wherein the method comprises the following steps: the method for acquiring the storage information according to the storage image information comprises the steps of:

3. The intelligent warehouse-based building material warehouse-in and warehouse-out management method as claimed in claim 1, wherein the method comprises the following steps: after the total volume of the building materials to be warehoused is compared with a plurality of storable volume libraries in sequence, the building material warehouse-in and warehouse-out management method based on intelligent warehouse further comprises the following steps:

4. The intelligent warehouse-based building material warehouse-in and warehouse-out management method as claimed in claim 1, wherein the method comprises the following steps: the method comprises the steps of calculating the maximum warehousing quantity of the building materials to be warehoused in the storable volume library and a storage scheme corresponding to the maximum warehousing quantity according to the label information of the building materials to be warehoused, and specifically comprises the following steps:

5. The intelligent warehouse-based building material warehouse-in and warehouse-out management method as claimed in claim 1, wherein the method comprises the following steps: the method comprises the steps of obtaining the residual warehousing quantity based on the maximum warehousing quantity, inputting the residual warehousing quantity into an adjacent storable volume warehouse, and generating a residual storage scheme, wherein the method specifically comprises the following steps:

6. The intelligent warehouse-based building material warehouse-in and warehouse-out management method as claimed in claim 1, wherein the method comprises the following steps: after the building material warehouse entry report is generated according to the storage scheme, the residual storage scheme and the label information and stored in a preset database, the building material warehouse entry management method based on intelligent warehouse entry further comprises the following steps:

7. Building materials go out storehouse management system based on intelligent storage, its characterized in that: the building material warehouse-in and warehouse-out management system based on intelligent warehouse comprises:

8. The intelligent warehouse-based building material out-of-warehouse management system as claimed in claim 7, wherein: the warehouse storage information acquisition module comprises:

9. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, characterized in that the processor, when executing the computer program, realizes the steps of a building material ex-warehouse management method based on intelligent warehousing as claimed in any one of claims 1 to 6.

10. A computer readable storage medium storing a computer program, wherein the computer program when executed by a processor implements the steps of a building material warehouse entry and exit management method based on intelligent warehouse as claimed in any one of claims 1 to 6.