CN111369195A - Real-time display system, method and storage medium for goods shelf materials - Google Patents

Abstract

The embodiment of the application provides a shelf material real-time display system, a shelf material real-time display method and a storage medium, wherein the shelf material real-time display system comprises: the goods shelf comprises a plurality of material troughs, and a corresponding material trough label is arranged at each material trough; a material tray, the material tray including a material label; the scanning terminal is used for acquiring material information corresponding to the material label and material groove information corresponding to the material groove label; and the client updates the real-time material information of the simulation goods shelf interface according to the material information and the material groove information. The real-time display system of goods shelves material that this application embodiment provided can be after the material warehouse entry in the warehouse with the delivery from godown, and the customer end is according to the material information and the storage that the material of warehouse entry or delivery from godown the silo information that the silo of material corresponds is automatic to be updated material information in real time, need not that warehouse personnel are manual to be updated, consequently can simplify the material warehouse entry and the operation of delivery from godown, improves production speed.

Description

Real-time display system, method and storage medium for goods shelf materials

Technical Field

The application relates to the technical field of production material control, in particular to a real-time display system and method for shelf materials and a storage medium.

Background

At present, with continuous innovation and increased demand of electronic products, electronic product manufacturers face a difficult problem of how to quickly and accurately process materials of different types and in large quantities in the production process, and enterprise warehouse staff need to quickly and accurately classify, store and position the materials. The quantity of various materials and single materials in a traditional material warehouse of an electronic enterprise is continuously increased, and a corresponding material shelf is continuously increased, so that the work complexity of material warehousing and material delivery is also continuously increased, and warehouse personnel often cannot find a material placement position in the shelf for a long time. When warehouse personnel carry out the material warehouse entry and the material is delivered from the warehouse, all will update the information of material card and individual material card at every turn, when material quantity is more on the production work order, it is consuming time longer to the operation of seeking and delivering from the warehouse of material, and causes the human error easily, restricts the production speed of enterprise.

Disclosure of Invention

The embodiment of the application provides a shelf material real-time display system, a shelf material real-time display method and a storage medium, which can update material information in real time, simplify material warehousing and material ex-warehouse operation and improve production speed.

The embodiment of the application provides a goods shelves material real-time display system, includes:

the goods shelf comprises a plurality of material troughs, and a corresponding material trough label is arranged at each material trough;

the material tray is used for containing materials, the material tray is added into the material groove when the materials are stored in a warehouse and is removed from the material groove when the materials are discharged from the warehouse, and the material tray comprises material labels;

the scanning terminal is used for scanning the material label and the material groove label when materials are stored in or discharged from a warehouse to obtain material information corresponding to the material label and material groove information corresponding to the material groove label, and sending the material information and the material groove information to a client;

the client is used for displaying a simulation shelf interface, the simulation shelf interface comprises a simulation shelf and real-time material information of each trough of the simulation shelf, and the client updates the real-time material information of the simulation shelf interface according to the received material information and the trough information.

In some embodiments, when the client updates the real-time material information of the simulated shelf interface according to the received material information and the material tank information, the client is configured to:

if the real-time material information displayed by the simulation goods shelf and the material groove corresponding to the material groove information is empty, displaying the material information on the corresponding material groove;

and if the real-time material information displayed by the simulation goods shelf and the material groove corresponding to the material groove information is not empty, clearing the real-time material information displayed on the corresponding material groove.

In some embodiments, after the client displays the material information on the corresponding trough, the client also controls the corresponding trough to be highlighted;

and after the client clears the real-time material information displayed on the corresponding material groove, the client also controls the corresponding material groove to cancel highlight display.

In some embodiments, the material information includes one or more of a type of material, a quantity of material, a date of manufacture of the material, a manufacturer of the material.

In some embodiments, the real-time display system for shelf materials further comprises:

the business system is used for sending a production instruction to the client, and the production instruction comprises material information of materials required by production;

the client is further used for acquiring corresponding material groove information according to the material information in the production instruction and sending the material groove information to the goods shelf;

and each material groove of the goods shelf is also provided with a prompt lamp, and the goods shelf is used for controlling the prompt lamp at the material groove corresponding to the material groove information to prompt after receiving the material groove information sent by the client.

In some embodiments, a prompt module is arranged at each trough of the simulation shelf;

and the client is also used for controlling a prompt module at a trough corresponding to the trough information on the simulation goods shelf to prompt after the corresponding trough information is obtained according to the material information in the production instruction.

The embodiment of the application further provides a real-time display method for shelf materials, which is applied to a real-time display system for shelf materials, wherein the real-time display system for shelf materials comprises:

the goods shelf comprises a plurality of material troughs, and a corresponding material trough label is arranged at each material trough;

the material tray is used for containing materials, the material tray is added into the material groove when the materials are stored in a warehouse and is removed from the material groove when the materials are discharged from the warehouse, and the material tray comprises material labels;

the scanning terminal is used for scanning the material label and the material groove label when materials are stored in or discharged from a warehouse to obtain material information corresponding to the material label and material groove information corresponding to the material groove label, and sending the material information and the material groove information to a client;

the system comprises a client, a display module and a display module, wherein the client is used for displaying a simulation goods shelf interface, and the simulation goods shelf interface comprises a simulation goods shelf and real-time material information of each material groove of the simulation goods shelf;

the real-time display method for the shelf materials comprises the following steps:

and updating the real-time material information of the simulation goods shelf interface according to the received material information and the material groove information.

In some embodiments, the updating the real-time material information of the simulated shelf interface according to the received material information and the trough information includes:

when the material information and the trough information are received, if the real-time material information displayed by the simulation goods shelf and the trough corresponding to the trough information is empty, displaying the material information on the corresponding trough;

when the material information and the trough information are received, if the real-time material information displayed by the simulation goods shelf and the trough corresponding to the trough information is not empty, the real-time material information displayed on the corresponding trough is cleared.

In some embodiments, after displaying the material information on the corresponding trough, the method further includes: controlling the corresponding trough to be highlighted;

after clearing away the real-time material information that shows on the corresponding silo, still include: and controlling the corresponding trough to cancel highlight display.

An embodiment of the present application further provides a storage medium, where a computer program is stored in the storage medium, and when the computer program runs on a computer, the computer is enabled to execute any one of the above shelf material real-time display methods.

The real-time display system of goods shelves material that this application embodiment provided can be after the material warehouse entry in the warehouse and the delivery from godown, the customer end is according to the material information and the storage that the material of warehouse entry or delivery from godown corresponds the silo information that the silo of material corresponds is automatic to material information real-time update, need not that warehouse personnel are manual to be updated, both can use manpower sparingly and time, can reduce the mistake that the human negligence leads to again, consequently can simplify the material warehouse entry and the operation of material delivery from godown, improve production speed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural diagram of a shelf material real-time display system provided in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a shelf in the real-time display system for shelf materials shown in fig. 1.

Fig. 3 is a schematic display diagram of a client in the real-time display system for shelf materials according to the embodiment of the present application.

Fig. 4 is another schematic structural diagram of a shelf material real-time display system according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without inventive step, are within the scope of the present application.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a system 100 for displaying shelf materials in real time according to an embodiment of the present disclosure. The real-time display system 100 for shelf materials can be applied to a production workshop and is used for updating and displaying data of materials required for production in real time.

The real-time display system 100 for shelf materials comprises a shelf 10, a client 20, a scanning terminal 30 and a material tray 40.

The shelf 10 is used for placing a material tray 40. It is understood that the shelves 10 may be configured as a multi-layer structure, and each layer may be provided with a plurality of troughs, each of which may receive one of the trays 40. The tray 40 is used for accommodating materials, such as SMT (Surface mount Technology) materials, such as capacitors, resistors, and the like. Wherein the material tray 40 is added to the trough of the shelf 10 when the material is stored in the warehouse and is removed from the trough of the shelf 10 when the material is discharged from the warehouse.

It can be understood that, in the material warehouse, the material warehouse-in and the material warehouse-out can be operated by warehouse personnel. The material warehousing is to place the material tray 40 in the material groove of the shelf 10, and the material warehousing is to take out the material tray 40 from the material groove of the shelf 10. The material placed on the different material trays 40 may be different or the same. It should be noted that the different trays 40 are the same size, so that different trays 40 can be placed in any one of the bins.

Wherein the material tray 40 includes a material label. The material label is used for representing material information of the material contained in the material tray 40, or is understood as the material label is used for recording the material information of the material contained in the material tray 40. The material information recorded by the corresponding material label may be different or the same for different material trays 40. The material information may include one or more of a type of material, a quantity of material, a date of manufacture of the material, and a manufacturer of the material. Various data of the material contained in the material tray 40 can be known through the material information. The material label may be provided, for example, on the bottom of the material tray 40. The material label may be, for example, a bar code or a two-dimensional code.

Referring also to fig. 2, fig. 2 is a schematic structural diagram of the shelf 10 in the real-time display system for shelf materials shown in fig. 1.

The shelf 10 includes a shelf body 11, a shelf platen 12, shelf partitions 13, a trough label 15, and a warning light 16.

The pallet body 11 is used to form an integral frame of the pallet 10 and to support the various components on the pallet 10. The material of the shelf body 11 may be metal or plastic, for example, stainless steel, aluminum alloy, etc.

The shelf deck 12 is provided on the shelf body 11. Among them, the shelf board 12 may be plural. Each shelf deck 12 forms a layer of accommodation space on the shelf body 11. The plurality of shelf boards 12 may be sequentially arranged on the shelf body 11 at intervals and in layers.

The shelf partition grooves 13 are provided on the shelf deck 12. The number of the shelf partitions 13 may be plural. Each shelf board 12 can be sequentially provided with a plurality of shelf partition grooves 13 at intervals, each two adjacent shelf partition grooves 13 and the shelf board 12 are surrounded to form a trough 14, or the shelf main body 11, the shelf partition grooves 13 adjacent to the shelf main body 11 and the shelf board 12 are surrounded to form a trough 14. Thus, a plurality of the troughs 14 can be formed on the shelf 10, and each trough 14 can hold one tray 40.

A corresponding trough label 15 is provided at each trough 14, and the trough label 15 is used to indicate the position of the trough 14, or it is understood that the trough label 15 is used to record trough information of the trough 14, where the trough information may include, for example, position information or a trough number of the trough 14. It can be understood that the trough information recorded on the trough label 15 provided at different troughs 14 is different, that is, different trough labels 15 record different trough information. The bin label 15 may be provided on the shelf deck 12 below the bin 14, for example, as shown in fig. 2. The chute tag 15 can be, for example, a bar code or a two-dimensional code.

Each trough 14 is also provided with a prompting lamp 16, and the prompting lamps 16 are used for prompting warehouse personnel. For example, when warehouse personnel perform material warehousing operation, the prompting lamp 16 can prompt which material tanks 14 are vacant; for another example, when a warehouse worker performs a material delivery operation, the prompting light 16 can prompt which trough 14 the material tray 40 needs to be taken out. The indicator light 16 may be a three-color indicator light, for example, and the indicator light 16 emits lights of different colors under different conditions. The notification light 16 may also be located on the shelf deck 12 below the trough 14, as shown in fig. 2.

It will be appreciated that a control module may also be provided on the pallet 10. The control module can be, for example, a control circuit, a microprocessor chip, etc. The control module may be disposed inside the shelf body 11 of the shelf 10. The control module is used for controlling the indicator light 16 at each trough 14, for example, driving each indicator light 16, so that intelligent control over a plurality of indicator lights 16 can be realized.

With continued reference to fig. 1, the client 20 is an electronic terminal. The client 20 may be, for example, a computer, a notebook computer, a tablet computer, a smart phone, or the like. The client 20 is communicatively coupled to the shelf 10, for example, the client 20 may be communicatively coupled to the shelf 10 via a bus, such that the client 20 may communicate with the shelf 10. For example, the client 20 may communicate with a control module on the shelf 10, such that the control module on the shelf 10 controls the plurality of notification lights 16 based on information sent by the client 20.

The client 20 is provided with a simulation shelf system. For example, an application may be written in a programming language to build a simulated shelving system. The simulation shelf system can display a simulation shelf interface, and the simulation shelf interface comprises a simulation shelf and real-time material information of each trough of the simulation shelf. Wherein the client 20 may include a database for storing real-time material information for each silo on the simulated shelf. The simulation shelf can be an electronic image corresponding to the shelf 10, the simulation shelf can also comprise material troughs, each material trough displayed on the simulation shelf corresponds to each material trough 14 on the shelf 10, and the real-time material information of each material trough on the simulation shelf is the same as the real-time material information of each material trough 14 on the shelf 10. Therefore, the real-time material information of each trough 14 on the shelf 10 can be displayed through the simulation shelf system on the client 20, and warehouse personnel can know the material condition of each trough 14 on the shelf 10 by looking up the simulation shelf system on the client 20. In addition, the warehouse personnel can also inquire the material change record of each trough 14 through a simulation shelf system so as to realize the tracking of the material change of each trough 14.

For example, as shown in fig. 3, fig. 3 is a schematic display diagram of the client 20 in the real-time display system for shelf materials according to the embodiment of the present application. Wherein, 4 silos have placed the material tray on goods shelves 10, correspondingly, the emulation goods shelves on client 20's emulation goods shelves interface also show that 4 silos have been occupied by the material tray to every silo that is occupied shows the material information that holds. For example, the first occupied trough displays material information of material 1, the second occupied trough displays material information of material 2, the third occupied trough displays material information of material 3, and the fourth occupied trough displays material information of material 4.

It is understood that in the simulation shelf system of the client 20, a prompt module may be disposed at each trough of the simulation shelf. The prompting module at each trough of the simulation shelf corresponds to the prompting lamp 16 at each trough 14 of the simulation shelf 10. Each prompting module on the simulation goods shelf can be used for prompting the material condition of the corresponding material groove on the simulation goods shelf.

The scanning terminal 30 is an electronic scanning device, such as an electronic scanning gun or the like. The scanning terminal 30 is communicatively connected to the client 20, for example, the scanning terminal 30 may be communicatively connected to the client 20 through a bus or wireless communication, so that the scanning terminal 30 can communicate with the client 20. The scanning terminal 30 is configured to scan a material label of the material tray 40 stored in or taken out of the warehouse when the material is stored in or taken out of the warehouse, so as to obtain material information recorded on the material label, and send the obtained material information to the client 20.

In addition, the scanning terminal 30 is further configured to scan the trough label 15 corresponding to the shelf 10 when the material is stored in or taken out of the warehouse, so as to obtain the trough information recorded on the trough label 15, and send the obtained trough information to the client 20.

The function of the real-time display system 100 for shelf materials when the materials are stored in and taken out of the warehouse will be described below.

When the material is put in storage, the warehouse staff firstly uses the scanning terminal 30 to scan the material label on the material tray 40 to be put in storage, so as to obtain the material information corresponding to the material label. Then, the warehouse staff places the material tray 40 in the trough 14 of the shelf 10, and scans the trough label 15 corresponding to the trough 14 on which the material tray 40 is placed by using the scanning terminal 30 to acquire the trough information corresponding to the trough label 15. Then, the scanning terminal 30 sends the acquired material information and the trough information to the client 20. Then, the client 20 updates the real-time material information of the simulated shelf interface according to the received material information and the material tank information. It can be understood that, when the material is put in storage, the trough 14 for placing the material tray 40 is initially an empty trough, and at this time, the real-time material information displayed on the simulation shelf displayed by the client 20 and displayed on the trough corresponding to the received material information is also empty, so that the client 20 displays the received material information on the trough corresponding to the simulation shelf, thereby updating the real-time material information on the simulation shelf interface.

It can be understood that, after the client 20 displays the material information on the trough corresponding to the simulated shelf, the trough corresponding to the simulated shelf may be controlled to highlight, so as to indicate that the trough is already occupied or indicate that the trough is already bound to a corresponding material.

When the material is delivered from the warehouse, the warehouse staff firstly uses the scanning terminal 30 to scan the trough label 15 corresponding to the trough 14 at the delivery position, so as to obtain the trough information corresponding to the trough label 15. Then, the warehouse staff takes out the material tray 40 from the material groove 14, and uses the scanning terminal 30 to scan the material label on the material tray 40, so as to obtain the material information corresponding to the material label. Then, the scanning terminal 30 sends the acquired material information and the trough information to the client 20. Then, the client 20 updates the real-time material information of the simulated shelf interface according to the received material information and the material tank information. It can be understood that, when the material is delivered from the warehouse, the trough 14 for placing the material tray 40 is initially an occupied trough, and at this time, the trough corresponding to the received trough information on the simulation shelf displayed by the client 20 displays the material information corresponding to the contained material, that is, the real-time material information displayed at this time is not empty, so that the client 20 clears the real-time material information displayed on the corresponding trough on the simulation shelf, thereby updating the real-time material information of the simulation shelf interface.

It can be understood that, after the client 20 clears the real-time material information displayed on the corresponding trough on the simulation shelf, the corresponding trough on the simulation shelf may also be controlled to cancel highlighting, that is, to resume normal display, so as to indicate that the trough is resumed to an empty trough, or indicate that the trough has been unbound from the corresponding material.

It should be noted that, in general warehouse material management, when warehouse personnel perform material warehousing and material ex-warehouse operations, material information needs to be updated manually after the materials are warehoused or after the materials are ex-warehouse, for example, the number and storage positions of the materials need to be updated, which consumes a lot of manpower and time, and is easy to cause errors due to human negligence, thereby causing great difficulty in warehouse material management. The real-time display system 100 for shelf materials provided by the embodiment of the application can automatically update material information in real time according to material information corresponding to materials to be stored or discharged and storage of the material information corresponding to material troughs of the materials after the materials in and out of a warehouse are stored, does not need manual updating of warehouse personnel, can save labor and time, can reduce errors caused by human negligence, can simplify material storage and material discharge operation, and improves production speed.

Referring to fig. 4, fig. 4 is another schematic structural diagram of the real-time display system 100 for shelf materials according to the embodiment of the present application.

The real-time display system 100 for shelf materials further includes a business system 50. The service system 50 is communicatively connected to the client 20, for example, the service system 50 may be communicatively connected to the client 20 through a bus or a wireless communication method, so that the service system 50 can communicate with the client 20.

The service system 50 is a manufacturing system of a manufacturer, and the service system may generate a production instruction according to an operation of a manufacturer and send the generated production instruction to the client 20. Wherein the production instruction comprises material information of the material required for production. For example, a manufacturer may operate the business system 50 to specify or enter material information for a desired material, so that the business system 50 may generate a production instruction including the material information.

After receiving the production instruction sent by the service system 50, the client 20 obtains the corresponding trough information according to the material information in the production instruction, and sends the obtained trough information to the shelf 10. It can be understood that the material required for production is the material stored on the shelf 10, and the simulation shelf of the client 20 has recorded the required material and the trough in which the material is placed. After receiving the production instruction sent by the service system 50, the client 20 may find the trough information corresponding to the trough storing the material according to the material information in the production instruction, and send the found trough information to the shelf 10.

After receiving the trough information sent by the client 20, the shelf 10 locates the corresponding trough according to the trough information, and then controls the prompt lamp 16 at the trough to prompt. It is understood that the shelf 10 may determine the corresponding trough according to the received trough information through the control module, and then control the indicator light 16 at the trough to indicate, for example, control the indicator light 16 to flash or control the indicator light 16 to light normally in a specific color, such as light normally in red. Therefore, warehouse personnel can be prompted through the prompting lamp 16, so that the warehouse personnel do not need to spend time to search for required materials, and the material tray 40 can be directly taken out from the corresponding material groove according to the prompt of the prompting lamp 16.

In addition, it can be understood that after the client 20 obtains the corresponding material tank information according to the material information in the production instruction, the client 20 may also control a prompt module at the material tank corresponding to the material tank information on the simulated shelf interface of the client 20 to prompt, for example, control the prompt module at the material tank to display in a specific color or flash. Therefore, the warehouse personnel can also know the position of the required material on the shelf 10 by checking the simulation shelf interface, and the warehouse personnel can conveniently operate the material to be delivered out of the warehouse.

The embodiment of the application further provides a shelf material real-time display method, which is applied to the shelf material real-time display system 100. The specific implementation process of the rack material real-time display method may refer to the above description, and is not described herein again.

The embodiment of the application also provides a storage medium, wherein a computer program is stored in the storage medium, and when the computer program runs on a computer, the computer executes the shelf material real-time display method.

It should be noted that, as one of ordinary skill in the art will appreciate, all or part of the steps in the method of the above embodiments may be implemented by instructing relevant hardware through a computer program, which may be stored in a computer-readable storage medium, which may include, but is not limited to: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

The system, the method and the storage medium for displaying shelf materials in real time provided by the embodiment of the application are described in detail above. The principle and the implementation of the present application are explained herein by applying specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A real-time display system for shelf materials is characterized by comprising:

the goods shelf comprises a plurality of material troughs, and a corresponding material trough label is arranged at each material trough;

the material tray is used for containing materials, the material tray is added into the material groove when the materials are stored in a warehouse and is removed from the material groove when the materials are discharged from the warehouse, and the material tray comprises material labels;

the scanning terminal is used for scanning the material label and the material groove label when materials are stored in or discharged from a warehouse to obtain material information corresponding to the material label and material groove information corresponding to the material groove label, and sending the material information and the material groove information to a client;

the client is used for displaying a simulation shelf interface, the simulation shelf interface comprises a simulation shelf and real-time material information of each trough of the simulation shelf, and the client updates the real-time material information of the simulation shelf interface according to the received material information and the trough information.

2. The real-time display system for shelf materials according to claim 1, wherein the client is configured to, when updating the real-time material information of the simulated shelf interface according to the received material information and the material tank information:

if the real-time material information displayed by the simulation goods shelf and the material groove corresponding to the material groove information is empty, displaying the material information on the corresponding material groove;

and if the real-time material information displayed by the simulation goods shelf and the material groove corresponding to the material groove information is not empty, clearing the real-time material information displayed on the corresponding material groove.

3. The shelf material real-time display system of claim 2, wherein:

the client displays the material information on the corresponding material groove and then controls the corresponding material groove to be highlighted;

and after the client clears the real-time material information displayed on the corresponding material groove, the client also controls the corresponding material groove to cancel highlight display.

4. The real-time display system for shelf materials according to any one of claims 1 to 3, wherein the material information comprises one or more of the type of material, the amount of material, the date of production of the material, and the manufacturer of the material.

5. The real-time display system of shelf materials according to any of claims 1 to 3, further comprising:

the business system is used for sending a production instruction to the client, and the production instruction comprises material information of materials required by production;

the client is further used for acquiring corresponding material groove information according to the material information in the production instruction and sending the material groove information to the goods shelf;

and each material groove of the goods shelf is also provided with a prompt lamp, and the goods shelf is used for controlling the prompt lamp at the material groove corresponding to the material groove information to prompt after receiving the material groove information sent by the client.

6. The real-time display system for shelf materials according to claim 5, wherein a prompt module is arranged at each trough of the simulation shelf;

and the client is also used for controlling a prompt module at a trough corresponding to the trough information on the simulation goods shelf to prompt after the corresponding trough information is obtained according to the material information in the production instruction.

7. A real-time display method of shelf materials is applied to a real-time display system of the shelf materials, and is characterized in that the real-time display system of the shelf materials comprises:

the goods shelf comprises a plurality of material troughs, and a corresponding material trough label is arranged at each material trough;

the material tray is used for containing materials, the material tray is added into the material groove when the materials are stored in a warehouse and is removed from the material groove when the materials are discharged from the warehouse, and the material tray comprises material labels;

the scanning terminal is used for scanning the material label and the material groove label when materials are stored in or discharged from a warehouse to obtain material information corresponding to the material label and material groove information corresponding to the material groove label, and sending the material information and the material groove information to a client;

the system comprises a client, a display module and a display module, wherein the client is used for displaying a simulation goods shelf interface, and the simulation goods shelf interface comprises a simulation goods shelf and real-time material information of each material groove of the simulation goods shelf;

the real-time display method for the shelf materials comprises the following steps:

and updating the real-time material information of the simulation goods shelf interface according to the received material information and the material groove information.

8. The real-time display method for shelf materials according to claim 7, wherein the updating the real-time material information of the simulated shelf interface according to the received material information and the trough information comprises:

when the material information and the trough information are received, if the real-time material information displayed by the simulation goods shelf and the trough corresponding to the trough information is empty, displaying the material information on the corresponding trough;

when the material information and the trough information are received, if the real-time material information displayed by the simulation goods shelf and the trough corresponding to the trough information is not empty, the real-time material information displayed on the corresponding trough is cleared.

9. The method for displaying shelf materials in real time according to claim 8, wherein:

after the material information is displayed on the corresponding material groove, the method further comprises the following steps: controlling the corresponding trough to be highlighted;

after clearing away the real-time material information that shows on the corresponding silo, still include: and controlling the corresponding trough to cancel highlight display.

10. A storage medium having stored therein a computer program which, when run on a computer, causes the computer to execute the shelf material real-time display method of any one of claims 7 to 9.

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