CN111115093A - Method for realizing compatibility of warehouse management software - Google Patents
Method for realizing compatibility of warehouse management software Download PDFInfo
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- CN111115093A CN111115093A CN201911127579.7A CN201911127579A CN111115093A CN 111115093 A CN111115093 A CN 111115093A CN 201911127579 A CN201911127579 A CN 201911127579A CN 111115093 A CN111115093 A CN 111115093A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
- B65G1/137—Storage devices mechanical with arrangements or automatic control means for selecting which articles are to be removed
- B65G1/1373—Storage devices mechanical with arrangements or automatic control means for selecting which articles are to be removed for fulfilling orders in warehouses
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Abstract
The invention is a compatible method of warehouse management software, use warehouse management software in the management of single or many kinds of warehouses, adopt the operation module procedure to correspond to said warehouse management procedure, every kind of operation module procedure corresponds to the characteristic information of the warehouse which can carry out the operation module procedure, define the extension bit number of the cargo space as the number of the cargo unit that can be stored on a cargo space, the characteristic information includes intelligent characteristic information, extension bit number and apparatus characteristic of the storehouse, while setting up the management relation of the warehouse management software and storehouse, before carrying on the distribution of operation module procedure, judge the intelligent characteristic information of the current storehouse, carry on screening, and carry on screening according to the extension bit number of the storehouse, produce the management relation; and simultaneously, calling an operation module program from the warehouse management software to carry out initialization setting according to the equipment characteristics of the warehouse. The method is compatible with a management range, unifies business operation, standardizes employee operation, is concise and clear in page, reduces the names of professional terms and reduces the use difficulty of software.
Description
Technical Field
The invention relates to a control method of warehouse management software, in particular to a compatible control method of the warehouse management software.
Background
In logistics management, the management of warehouses is very complex, various warehouses and various devices are involved, and the warehouse management software is basically not separated. In the prior art system, the one-key initialization warehouse software and hardware configuration only supports the same type of warehouse, an intelligent stereo warehouse, an intelligent intensive warehouse or an artificial shelf warehouse, and one set of warehouse management software is required to be compatible with and manage a plurality of warehouses of different types. Not only can the commonality of a set of software be realized, reduce the version number of software, for some application occasions simultaneously, can have a plurality of kinds of warehouses in an area, if according to original technique, just need dispose different software and control terminal, can make the operation become loaded down with trivial details.
Secondly, in the system in the prior art, the core data does not have a display mode of a graphical report, and a graphical billboard needs to be introduced for secondary editing, so that the requirement of an operator is very high, and the system cannot well adapt to the current intelligent requirement. In the prior art, the system operation flow is disordered, the service flow is not uniform, and global adjustment is needed.
Disclosure of Invention
In order to overcome the technical problem, the invention provides a compatible control method of warehouse management software. The specific scheme is as follows.
A method for compatible warehouse management software uses warehouse management software in single or multiple types of warehouse management, adopts operation module programs corresponding to the warehouse management process, each operation module program corresponding to the characteristic information of the warehouse capable of executing the operation module program, the compatible method is characterized in that the extension number of the goods space is defined as the number of the goods units which can be stored in one goods space, the characteristic information comprises intelligent characteristic information, extension number and equipment characteristics of the warehouse, when the management relationship between warehouse management software and the warehouse is established, before the operation module program is distributed, screening according to the intelligent characteristic information of the current library, and screening according to the extension number of the current library to generate a management relation, and simultaneously, calling an operation module program from the warehouse management software to carry out initialization setting according to the equipment characteristics of the warehouse.
Further, the judging of the intelligent characteristic information of the current library refers to judging whether the current library needs to interact with the warehouse management software, and if not, the current library is a non-intelligent library; if yes, the system is an intelligent library.
Furthermore, the operation module programs are divided into two types of instructions and tasks, wherein the instruction type corresponds to the intelligent library, and the task type corresponds to the non-intelligent library. Preferably, the instruction class comprises warehouse-out, warehouse-in and goods distribution; the task class comprises vehicle-mounted tasks and manual operation.
Further, the current screening of the extension number of the warehouse is specifically that when the extension number is greater than 2, the current screening corresponds to an operation module program of the dense warehouse; when the number of extension positions is equal to 2, the operation module program of the two-extension-position three-dimensional library is corresponded, and when the number of extension positions is equal to 1, the operation module program of the flat ground library is corresponded.
And further. The equipment characteristics include parameters of a tray, a goods space, a roadway, a platform and carrying equipment.
Furthermore, an operation module program called from the warehouse management software can be matched with a complex library at the same time, wherein the complex library refers to two or more libraries with different intelligent characteristic information, extension number or equipment characteristics.
Further, when the management relation between the warehouse management software and the warehouse is established, the program has a visual interface, and is automatically displayed on the visual interface according to the input characteristic information of the warehouse.
Advantageous effects
The system is developed based on a traditional warehouse management software component framework, adopts a B/S framework, develops and separates front-end and back-end application programs, realizes faster and more flexible demand response, supports one-key initialization of warehouse software and hardware configuration, and provides guarantee of accuracy of configuration information. The system data layer realizes the separation of the database and the service layer. The system is facilitated in the data exchange, collection, analysis and mining processes.
The system design adopts a field-driven design, and people who express the business process, design an application program and organize a user interface to realize familiar business by using the concept of the production environment in the actual factory automation can deeply participate in the design, optimization and improvement of the business program.
Specifically, in terms of compatibility: the extension bit number attribute is introduced into the goods space, so that the characteristics of various libraries can be well distinguished. And dividing the interactive operation into an instruction and a task, wherein when the starting goods position or the ending goods position is the intelligent warehouse goods position, the interactive operation is the instruction and needs to be interacted with software, otherwise, the interactive operation is the task, the vehicle-mounted task and manual operation. On the basis of the division, the compatibility of the programs can be well realized. One set of software manages a plurality of warehouses of different types simultaneously, so that the software maintenance and development cost can be reduced; reducing customer on-site hardware loads; the using difficulty of operators is reduced, and the warehouse management efficiency is effectively improved.
In the aspect of visualization: the front end uses plug-ins to display data in a multi-graphical mode, and large-screen projection carousel can be supported.
Compatibility: visualization: the core data of the warehouse is graphically displayed, the current working progress and the data difference are rapidly and effectively found out, and the working efficiency of users is improved. The visualization of the equipment association can effectively show the stability and efficiency of the equipment.
In general, in controlling the business operations of the software: the service range is expanded, and the management range is enlarged; unified business operation, standard staff operation, concise and clear page, reduction of professional term names and reduction of software use difficulty.
Drawings
FIG. 1 is a view of the process of build for inventory-free flat-bed management
FIG. 2 is a flow diagram of the stock level management establishment process
FIG. 3 is a flow diagram of the three-dimensional library management setup
FIG. 4 dense library management build flow diagram
FIG. 5 Complex library management build flow View
FIG. 6 Complex library management View one
FIG. 7 Complex library management View two.
Detailed Description
Example 1
And (5) managing and establishing a land leveling base. As shown in fig. 1, a page is initialized in a distribution diagram, a flat base is selected according to the category of goods, a goods-free position is selected according to the goods-free position, a base name is input, a top view button is clicked to generate a top view, software is identified as a non-intelligent base, the number of extension positions is 1, the goods-free position is identified by the software, a graphic block corresponding to the flat base is generated through a visual interface, a mouse is clicked left to drag the graphic block to the position of an actual canvas area, a storage button is clicked, and the new increase of the flat base is successful. Meanwhile, the management software operation module program is matched with a management program of the manual flat storehouse for use.
Example 2
Another matching mode of the flat library is shown in fig. 2, a page is initialized in a distribution diagram, the flat library is selected according to the category of goods positions, goods positions are selected according to the types of the goods positions, goods positions are selected according to the existence of the goods positions, trays or no trays are selected according to the existence of the trays, after library names, columns and layer attributes are input, a top view generating button is clicked to obtain a picture block corresponding to the flat library, after the picture block is clicked to the position of an actual canvas area by a left mouse, a storage button is clicked, and the flat library is newly added successfully. Whether the tray exists or not depends on whether the field shelf is directly bound with goods or not, after the tray exists, the intelligent equipment can be matched for carrying management according to the task condition, and the intelligent equipment can be matched at the moment.
Example 3
As shown in fig. 3, after a distribution diagram initialization page, a goods space category selects a double-extension three-dimensional library, and after library names, lane, column and layer attributes are input, a lane is clicked to generate, and details of a shelf of each lane are obtained. The operator can make fine adjustments according to the actual attribute details of the on-site shelf. Clicking a top view generating button to obtain a picture block corresponding to the double-extension library, clicking a storage button after the picture block is dragged to the actual canvas area position by left mouse clicking, and successfully adding the double-extension library. During management, a goods distribution instruction needs to be input, and at the moment, software can judge that the goods are an intelligent library through identification and automatically match an intelligent control program.
Example 4
As shown in fig. 4, a page is initialized in a distribution diagram, a dense library is selected according to the category of a cargo space, the number of extension positions is judged to be more than 2 by software at the moment, then, after library names, column layers and the attributes of the maximum tray number are input, a top view button is clicked to generate a graphic block corresponding to the dense library, a graphic block corresponding to the dense library is obtained, after a left-click of a mouse is dragged to the position of an actual canvas area, a storage button is clicked, and the dense library is successfully. The maximum number of trays is the number of dense depths. At the moment, the software automatically matches the intelligent library and the control program related to the intensive library for management and use.
Example 5
As shown in fig. 5, a complex library and software are associated, the complex library includes all of the various library types of embodiments 1 to 4, and a set of software-managed operation contents is used according to the above method. The warehouse view may associate multiple warehouse areas simultaneously. And meanwhile, when various different libraries are used for carrying out tasks, corresponding management control programs are matched according to intelligent judgment and extension digit judgment.
During task execution, as shown in fig. 6, during racking operation, the program automatically matches with the visualization program, and can select goods to go to, as shown in fig. 7, during cargo allocation, the program automatically provides the visualization program, and multiple libraries can be simultaneously selected. The type and distribution of the specific operation instruction or task are similar to the management of a single program of the instruction and task in the prior art, and can be referred by those skilled in the art.
The present example is an optimized explanation of the technical solution of the present invention, and the above embodiments do not limit the protection scope of the present invention, and the specific protection contents shall be subject to the description of the claims.
Claims (8)
1. A compatible method of warehouse management software uses warehouse management software in single or multiple types of warehouse management, an operation module program is adopted to correspond to the warehouse management process, each operation module program corresponds to the characteristic information of a warehouse which can execute the operation module program, the compatible method is characterized in that the number of extension positions of a goods position is defined as the number of goods units which can be stored on one goods position, the characteristic information comprises intelligent characteristic information, extension positions and equipment characteristics of a warehouse, when the management relationship between the warehouse management software and the warehouse is established, before the operation module program is distributed, the intelligent characteristic information of the current warehouse is judged, screening is carried out according to the extension positions of the warehouse, and the management relationship is generated; and simultaneously, calling an operation module program from the warehouse management software to carry out initialization setting according to the equipment characteristics of the warehouse.
2. The method for warehouse management software compatibility according to claim 1, wherein the determining the intelligent characteristic information of the current library is determining whether the current library needs to interact with the warehouse management software, and if not, determining the current library as a non-intelligent library; if yes, the system is an intelligent library.
3. The warehouse management software compatible method of claim 2, wherein the operation module programs are divided into two types, namely, instructions and tasks, wherein the instruction type corresponds to the intelligent library, and the task type corresponds to the non-intelligent library.
4. The warehouse management software compatible method of claim 3, wherein the instruction classes comprise warehouse-out, warehouse-in, distribution; the task class comprises vehicle-mounted tasks and manual operation.
5. The method for compatible warehouse management software according to claim 2, wherein the screening of the extension number of the current warehouse is specifically, when the extension number is greater than 2, the screening corresponds to an operation module program of the dense warehouse; when the number of extension bits is equal to 2, the operation module program of the three-dimensional library is corresponded, and when the number of extension bits is equal to 1, the operation module program of the flat ground library is corresponded.
6. The warehouse management software compatible method of claim 1, wherein the equipment characteristics comprise parameters of pallets, cargo space, roadways, platforms, and handling equipment.
7. A method for warehouse management software compatibility as claimed in claim 1, wherein invoking the application module from the warehouse management software simultaneously matches complex libraries, wherein the complex libraries are two or more libraries that differ in intelligent feature information, extension number, or device features.
8. The method for the compatibility of warehouse management software according to claim 1, wherein when the management relationship between the warehouse management software and the warehouse is established, the program has a visual interface, and the program is automatically displayed on the visual interface according to the input characteristic information of the warehouse.
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Cited By (2)
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CN114638579A (en) * | 2022-04-01 | 2022-06-17 | 机科发展科技股份有限公司 | Visual inventory dynamic data display assembly, method, storage and electronic equipment |
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