CN111190663A - Locker interface dynamic drawing method and locker - Google Patents

Abstract

The invention relates to the technical field of storage, and discloses a locker interface dynamic drawing method and a locker. The method for dynamically drawing the interface of the storage cabinet can automatically acquire the asset code of each cabinet and automatically draw the simulation diagram of the storage cabinet according to the automatically acquired asset code of each cabinet, so that the displayed simulation diagram of the storage cabinet can be automatically updated when the number, types and arrangement sequence of the cabinets of the storage cabinet are changed, a user does not need to manually upgrade an application program, and the convenience of the user is greatly improved. The locker provided by the invention is used for realizing the locker interface dynamic drawing method, so that the locker interface dynamic drawing method has the same beneficial effect.

Description

Locker interface dynamic drawing method and locker

Technical Field

The invention relates to the technical field of storage, in particular to a locker interface dynamic drawing method and a locker.

Background

The storage cabinet in the prior art comprises a display device and a plurality of cabinets, each cabinet comprises a plurality of storage boxes, the display device can display a simulation graph of the storage cabinet, and a user opens a box door of the corresponding storage box by clicking a storage box icon in the simulation graph. Due to the reasons of user demand change, cabinet maintenance and the like, the types of cabinets included in the cabinet, the number of cabinets or the installation and arrangement sequence of a plurality of cabinets may change, when at least one item of the information changes, the user needs to manually upgrade the application program installed in the cabinet, so that the simulation diagram of the cabinet displayed on the display device is consistent with the actual shape of the cabinet, which brings great inconvenience to the user.

Disclosure of Invention

In view of the above, an object of the present invention is to provide a method for dynamically drawing a locker interface and a locker, so as to solve the problem that it is inconvenient for a user to manually upgrade an application to update a simulation diagram displayed on a display device when a type of a cabinet, a number of cabinets, or an installation and arrangement order of a plurality of cabinets is changed.

The embodiment of the invention is realized by the following steps:

a locker interface dynamic drawing method is used for drawing a simulation graph of a locker, the locker comprises a display device and a plurality of cabinets, and the locker interface dynamic drawing method comprises the following steps:

acquiring an asset code of each cabinet, wherein the asset code of each cabinet comprises an identification number and a type of each cabinet;

analyzing the asset code of each cabinet, and determining the arrangement sequence of the graphic components of each cabinet and the graphic components of all cabinets;

and drawing a simulation graph of the storage cabinet according to the arrangement sequence of the graph components of each cabinet and the graph components of all the cabinets, and controlling the display device to display the simulation graph of the storage cabinet.

Further, acquiring the asset code of each cabinet comprises:

broadcasting and sending a cabinet query command to each cabinet;

receiving asset codes fed back by each cabinet;

and each cabinet feeds back the asset code of the cabinet when receiving the cabinet inquiry command.

Further, determining the arrangement sequence of the graphic assemblies of all the cabinets comprises:

and determining the arrangement sequence of the graphic assemblies of all the cabinets according to the sequence of the asset feedback codes of all the cabinets.

Further, determining the arrangement sequence of the graphic assemblies of all the cabinets comprises:

and sequencing the identification numbers of all the cabinets according to a preset rule, and determining the arrangement sequence of the graphic assemblies of all the cabinets according to the sequencing of the identification numbers of all the cabinets.

Further, the cabinet comprises a dial switch, and the identification number of the cabinet corresponds to the state of the dial switch.

Further, the storage cabinet comprises a storage device, and the storage device is used for storing the graphic components corresponding to each type of cabinet; determining a graph component for each cabinet, comprising: and acquiring the graphic components of the cabinet from the storage device according to the type of the cabinet.

Furthermore, each cabinet comprises at least one storage box, the graphic assembly of each cabinet comprises at least one storage box icon, and the number of the storage box icons included in the graphic assembly of each cabinet is equal to the number of the storage boxes included in the cabinet and corresponds to the number of the storage boxes included in the cabinet one by one; the locker interface dynamic drawing method also comprises the following steps:

and establishing a mapping relation between each storage box icon and the corresponding storage box.

The utility model provides a locker, locker includes main control device, display device and a plurality of rack, and every rack all includes at least one storage tank, and display device sets up on one of a plurality of racks, and every rack all includes sub-control device, and main control device is connected with display device and every sub-control device electricity respectively, and main control device is used for:

the method comprises the steps of obtaining asset codes of corresponding cabinets from each sub-control device, analyzing the asset codes of each cabinet, determining the arrangement sequence of the graphic components of each cabinet and the graphic components of all cabinets, drawing a simulation graph of the cabinets according to the arrangement sequence of the graphic components of each cabinet and the graphic components of all cabinets, establishing the mapping relation between storage box icons included in the graphic components of each cabinet and corresponding storage boxes, and controlling a display device to display the simulation graph of the cabinets, wherein the asset codes of the cabinets comprise identification numbers and types of the cabinets, the graphic components of each cabinet comprise at least one storage box icon, and the number of the storage box icons included in the graphic components of the cabinets is equal to the number of the storage boxes included in the cabinets and corresponds to one another.

Further, the main control device is used for:

broadcasting and sending cabinet query commands to each sub-control device, and receiving asset codes of the corresponding cabinets fed back by each sub-control device;

and each sub-control device feeds back the asset code of the corresponding cabinet to the main control device when receiving the cabinet query command.

Furthermore, the storage cabinet further comprises a storage device, the storage device is used for storing the graphic components corresponding to each type of cabinet, the storage device is electrically connected with the control device, and the main control device is used for acquiring the graphic components of the cabinet from the storage device according to the type of each cabinet.

The embodiment of the invention has the beneficial effects that:

according to the dynamic drawing method for the storage cabinet interface, the storage cabinet can automatically acquire the asset code of each cabinet, and automatically draw the simulation diagram of the storage cabinet according to the automatically acquired asset code of each cabinet, so that the displayed simulation diagram of the storage cabinet can be automatically updated when the number, types and arrangement sequence of the cabinets of the storage cabinet are changed, a user does not need to manually upgrade an application program, and the use convenience of the user is greatly improved. The storage cabinet provided by the embodiment of the invention is used for realizing the method, so that the same beneficial effects are achieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of a storage cabinet according to an embodiment of the present invention;

FIG. 2 is a block diagram of the storage cabinet according to an embodiment of the present invention;

FIG. 3 is a flowchart of a method for dynamically rendering a locker interface according to an embodiment of the present invention;

FIG. 4 is a flow diagram of obtaining asset codes for each enclosure in one embodiment of the invention;

fig. 5 is a diagram illustrating a graphic assembly of a cabinet displayed by the display device according to an embodiment of the present invention.

Icon: 1-a storage cabinet; 2-a main cabinet; 21-a dial switch; 22-auxiliary cabinet; 3-a storage box; 31-a box body; 32-a box door; 33-an electric control lock; 4-a master control device; 5-a display device; 51-storage box icon; 52-identification; 53-frame body; 54-a columnar pattern; 541-a first area; 6-a sub-control device; 7-storage means.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The embodiment of the invention provides a locker interface dynamic drawing method and a locker, and firstly introduces the structure of the locker in order to explain the locker interface dynamic drawing method.

FIG. 1 is a schematic view of a storage cabinet according to an embodiment of the present invention; FIG. 2 is a block diagram of the storage cabinet according to an embodiment of the present invention. Referring to fig. 1 and 2, a cabinet 1 of the present embodiment includes a plurality of cabinets and a main control device 4 electrically connected to the plurality of cabinets. The plurality of cabinets include a main cabinet 2 and at least one sub-cabinet 22, the storage cabinet 1 shown in fig. 1 includes the main cabinet 2 and three sub-cabinets 22, and the display device 5 is disposed on the surface of the main cabinet 2. In this embodiment, the display device 5 is a touch display screen, the display device 5 is used for displaying the simulation diagram of the storage cabinet 1 to the user to show the type of each cabinet and the information of the articles stored therein, and the display device 5 can also be used for the user to input an operation instruction to access the articles, configure parameters and the like.

Each cabinet is provided with a sub-control device 6 and at least one storage box 3, and the sub-control device 6 is electrically connected with the main control device 4 to receive commands sent by the main control device 4 and feed back data information to the main control device 4. As shown in fig. 2, in the present embodiment, only the connection relationship between one main cabinet 2, one sub-cabinet 22 and the main control device 4 is taken as an example for illustration, in other embodiments, the main control device 4 shown in fig. 2 may also be connected to a plurality of sub-control devices 6 of the sub-cabinet 22, and further, the plurality of sub-control devices 6 included in the main cabinet 2 and the sub-cabinet 22 are connected to the main control device 4 after being cascaded. Further, the cabinet includes a plurality of storage tanks 3, and the specification of a plurality of storage tanks 3 can be multiple, and the storage tank 3 of each specification is used for storing an article of a corresponding specification. The storage cabinet 1 may include a plurality of cabinets of different types, for example, a main cabinet 2 and at least one auxiliary cabinet 22, the main cabinet 2 may include a main logistics cabinet 2, a main material cabinet 2, and the like, and the auxiliary cabinet 22 may include a material cabinet No. 1, a material cabinet No. 2, and the like. The structure of different types of cabinets, the number of storage boxes 3, and the distribution pattern of the storage boxes 3 may be different, so that different types of cabinets can be used for storing different types of articles or meeting the requirements of different users.

As shown in fig. 1, in the present embodiment, each cabinet includes a plurality of storage boxes 3, and each storage box 3 includes a box body 31 having an opening and a switch assembly for opening or closing the opening of the box body 31. In this embodiment, the switch assembly includes a door 32 movably connected to the box 31 and an electrically controlled lock 33 disposed between the box 31 and the door 32, the door 32 is used for opening or closing the opening of the box 31, and the electrically controlled lock 33 is used for maintaining the door 32 at a position for closing the opening of the box 31. Specifically, one side of the door 32 of the present embodiment is pivotally connected to the box 31 through a pivot, and the door 32 can rotate around the pivot, so as to close or open the opening of the box 31. In other embodiments of the present invention, the door 32 may be connected to the box 31 by a slide rail, and the door 32 may move along the slide rail to close or open the opening of the box 31. In other alternative embodiments of the present invention, the box 31 may also be configured as a drawer structure with an opening facing upwards, and the user may push and pull the box 31 to open or close the opening of the box 31, in which case the electric lock 33 should be disposed between the box 31 and the cabinet.

In this embodiment, the display device 5 on the main cabinet 2 and the openings of the boxes 31 of the storage boxes 3 are located on the same side of the cabinet (i.e. on the side in the direction c in fig. 1).

Optionally, a dial switch 21 electrically connected to the sub-control device 6 may be further disposed on each cabinet, the dial switch 21 may be manually set to different states, the identification number of the cabinet corresponds to the state of the dial switch 21, the sub-control device 6 may read the state of the dial switch 21 and generate the identification number of the cabinet according to the state of the dial switch 21, and the main control device 5 distinguishes each cabinet by using different identification numbers. It is understood that in other embodiments of the present invention, the cabinets may not be provided with the dial switch 21, and the identification number of each cabinet may be stored in a memory provided in each cabinet in advance.

Further, the storage cabinet 1 may further include a storage device 7, where the storage device 7 is configured to store a graphic component corresponding to each type of cabinet, and when the graphic component of each cabinet needs to be determined, the graphic component of each cabinet may be obtained from the storage device 7 according to the type of each cabinet.

The main control device 4 in this embodiment is electrically connected to the display device 5, the sub-control device 6 of each cabinet, and the storage device 7, respectively, and each sub-control device 6 is electrically connected to the electric control lock 33 and the dial switch 21 of the corresponding cabinet, respectively. In this embodiment, the sub-control 6 may be used to feed back asset codes of the cabinets and control the electronically controlled locks 33 to open or close.

The asset code of the cabinet comprises an identification number and a type of the cabinet, the main control device 4 is used for acquiring the asset code of the corresponding cabinet from each sub-control device 6, and determining the arrangement sequence of the graphic assembly of each cabinet and the graphic assemblies of all the cabinets by analyzing the asset code of each cabinet, wherein the graphic assembly of each cabinet comprises at least one storage box icon, and the number of the storage box icons is equal to the number of the storage boxes 3 in the cabinet and corresponds to one another. The main control device 4 is further configured to draw a simulation diagram 1 of the locker according to the arrangement sequence of the graphic components of each cabinet and the graphic components of all cabinets, establish a mapping relationship between each storage box icon and the corresponding storage box, and control the display device 5 to display the simulation diagram of the locker. Optionally, the main control device 4 is further configured to control the corresponding storage box 3 to execute a set action when detecting that one storage box icon is clicked.

Optionally, each time the locker 1 is powered on, the control device 6 automatically obtains the asset code of each cabinet and automatically draws the simulation diagram of the locker 1, and the control display device 5 controls to display the simulation diagram of the locker 1.

The storage cabinet provided by the embodiment can automatically acquire the asset code of each cabinet, and automatically draw the simulation diagram of the storage cabinet according to the automatically acquired asset code of each cabinet, so that the displayed simulation diagram of the storage cabinet can be automatically updated when the number, types and arrangement sequence of the cabinets of the storage cabinet are changed, a user does not need to manually upgrade an application program, and the use convenience of the user is greatly improved.

FIG. 3 is a flowchart of a locker interface dynamic rendering method according to an embodiment of the present invention. Referring to fig. 3, the method for dynamically drawing a locker interface according to the embodiment is applicable to the locker 1 according to the embodiment of the present invention, and the method specifically includes:

step S100, acquiring an asset code of each cabinet, wherein the asset code of each cabinet comprises an identification number and a type of each cabinet.

Taking the storage cabinet 1 provided by the embodiment of the invention as an example, the asset code of the cabinet comprises an identification number of the cabinet and a type code for indicating the type of the cabinet. The identification number of the cabinet has uniqueness, the identification number of the cabinet corresponds to the cabinet, and the control device 6 can send a command to the cabinet through the identification number of the cabinet. The type code of the cabinet corresponds to the type of the cabinet, and the type of the cabinet can be identified through the type code, for example, the cabinet corresponding to the type code of 100 is a main cabinet of the material cabinet, the cabinet corresponding to the type code of 101 is a number 1 auxiliary cabinet of the material cabinet, the cabinet corresponding to the type code of 102 is a number 2 auxiliary cabinet … … of the material cabinet, and so on; the cabinet corresponding to the type code of "200" is the main cabinet of the logistics cabinet, the cabinet corresponding to the type code of "201" is the auxiliary cabinet No. 1 of the logistics cabinet, the cabinet corresponding to the type code of "202" is the auxiliary cabinet No. 2 of the logistics cabinet … …, and so on. The master control apparatus 4 may obtain the asset code of the corresponding cabinet from the sub-control apparatus 6 of each cabinet.

FIG. 4 is a flow chart of obtaining an asset code for each enclosure in one embodiment of the invention. Referring to fig. 4, based on the embodiment in fig. 3, the acquiring the asset code of each cabinet in step S100 may further include:

step S110, broadcasting and sending cabinet inquiry commands to each cabinet.

In the present embodiment, the main control apparatus 4 broadcasts and transmits the cabinet inquiry command to the sub-control apparatus 6 of each cabinet. After receiving the cabinet query command sent by the main control device 4, the sub-control device 6 of the cabinet feeds back the asset code of the corresponding cabinet to the main control device 4.

And step S130, receiving the asset code fed back by each cabinet.

In the present embodiment, the main control apparatus 4 receives the asset code fed back by the sub control apparatus 6 to be parsed.

Continuing with FIG. 3, the method for dynamically rendering the locker interface further comprises:

step S200, analyzing the asset code of each cabinet, and determining the arrangement sequence of the graphic components of each cabinet and the graphic components of all cabinets.

Taking the storage cabinet 1 provided by the embodiment of the invention as an example, the main control device 4 analyzes the asset codes after receiving the asset codes of each cabinet, and acquires the identification numbers, type codes and other information of the corresponding cabinets from each asset code, thereby determining the arrangement sequence of the graphic components of each cabinet and the graphic components of all cabinets. In this embodiment, the storage device 7 stores a graphic component corresponding to each cabinet type in advance, and after the main control device 4 determines the type of the cabinet according to the type code of the cabinet included in the asset code, the determining the graphic component of each cabinet in step S200 may include: the graphical components of the cabinet are retrieved from the storage means 7 according to the type of cabinet.

Further, the graphic assembly of each cabinet comprises a plurality of storage box icons, and the number of the storage box icons is equal to that of the storage boxes 3 included in the cabinet and corresponds to that of the storage boxes one by one.

The main control device 4 may sequence the graphic components of the cabinet according to a set rule. In an alternative embodiment, the identification numbers of all the cabinets can be sorted according to a preset rule, and then the arrangement order of the graphic assemblies of all the cabinets can be determined according to the sorting of the identification numbers of all the cabinets. Specifically, the identification numbers of all the cabinets can be sorted in an increasing or decreasing mode. In this case, the user can manually set the states of the dial switches 21 of the respective cabinets in sequence according to the physical arrangement positions of the respective cabinets, so that the sequence of the identification numbers of the respective cabinets is the same as the sequence of the physical positions of the respective cabinets, thereby ensuring that the generated simulation diagram of the locker 1 corresponds to the specific structure of the locker 1, improving the readability of the simulation diagram of the locker 1, and enabling the user to quickly locate the box icon corresponding to the box 3 to be operated.

In another optional embodiment, the arrangement order of the graphic components of all the cabinets can be determined according to the sequence of the feedback asset codes of the plurality of cabinets. For example, the main control device 4 is in communication connection with the sub-control devices 6 of each cabinet through RS485, after the main control device 4 broadcasts and sends a cabinet query command, the identification numbers of the plurality of cabinets are sorted according to the sequence of the asset codes returned by the sub-control devices 6 of the cabinets, for example, the identification number of the cabinet which returns the asset code first is arranged at the first position, the identification number of the cabinet which returns the asset code second is arranged at the second position, and the like, and then the graphic assemblies of the cabinets are sorted according to the sorting of the identification numbers. In this case, the user may set the electrical connection relationship between the cabinets and the main control device 6 according to the physical arrangement positions of the cabinets, for example, sequentially cascade a plurality of successively adjacent cabinets according to the physical arrangement positions of the cabinets, and then electrically connect the first cabinet after the cascade connection with the main control device 6, so that the sequence of the asset codes returned by the sub-control devices 6 of the cabinets corresponds to the physical arrangement positions of the cabinets, thereby ensuring that the generated simulation diagram of the locker 1 corresponds to the specific structure of the locker 1, improving the readability of the simulation diagram of the locker 1, and enabling the user to quickly locate the locker icon corresponding to the locker 3 to be operated.

In an embodiment of the present invention, after being powered on, the main control device 4 allocates an identification number to each cabinet according to a set rule according to an arrangement order of the plurality of cabinets, for example, the plurality of cabinets are cascaded and then connected to the main control device 4, the main control device allocates an identification number to each cabinet according to a preset order (an increasing rule or a decreasing rule) according to the cascade order of the plurality of cabinets, then, after obtaining an asset code of each cabinet and obtaining an identification number of each cabinet, the main control device 4 determines an arrangement order of the plurality of identification numbers according to a preset principle of allocating the identification number, and then determines an arrangement order of the graphic assemblies of the cabinets according to the ordering of the identification numbers. In this case, the user may set the electrical connection relationship between the cabinets and the main control device 6 according to the physical arrangement position of each cabinet, for example, sequentially cascade a plurality of successively adjacent cabinets according to the physical arrangement position of the cabinets, then, the first cabinet after cascade connection is electrically connected with the main control device 6, so that the control device 6 can allocate identification numbers for the cabinets according to the arrangement sequence of the cabinets, the arrangement sequence of the identification numbers of the cabinets corresponds to the physical arrangement positions of the cabinets, and thus, after the main control device 4 acquires the identification numbers of the cabinets, the identification numbers can be sorted according to the principle of distributing the identification numbers, therefore, the generated simulation graph of the storage cabinet 1 is ensured to correspond to the specific structure of the storage cabinet 1, the readability of the simulation graph of the storage cabinet 1 is improved, and a user can quickly position the storage box icon corresponding to the storage box 3 to be operated.

And step S300, drawing a simulation diagram of the storage cabinet according to the arrangement sequence of the graphic components of each cabinet and the graphic components of all the cabinets, and controlling the display device to display the simulation diagram of the storage cabinet.

Taking the cabinet 1 provided by the embodiment of the invention as an example, the main control device 4 draws a simulation diagram of the cabinet 1 according to the graphic components of each cabinet, and controls the display device 5 to display the simulation diagram. The arrangement order of the graphic components of each cabinet can be used to determine the drawing order or arrangement on the display device 5. Fig. 5 is a diagram illustrating a graphic assembly of a cabinet displayed by the display device according to an embodiment of the present invention. Referring to fig. 5, the simulation diagram of the cabinet 1 includes graphic components of a plurality of cabinets, the graphic components of the plurality of cabinets correspond to the plurality of cabinets in an equal number and one-to-one manner, the graphic component of each cabinet includes a plurality of storage box icons 51, and the number of the storage box icons 51 is equal to the number of the storage boxes 3 included in the cabinet and corresponds to one-to-one manner. Further, in order to facilitate a user to determine the corresponding storage box 3 according to the storage box icon 51, the specification of the storage box icon 51 corresponds to the specification of the storage box 3 corresponding to the storage box icon 51, and the arrangement mode of the plurality of storage box icons 51 is consistent with the physical layout of the plurality of storage boxes 3 in the cabinet. For example, the storage box icon 51 corresponding to the storage box 3 with the height larger than the width is also higher than the width in the graphic assembly of the cabinet, and the storage box icon 51 corresponding to the storage box 3 on the left side of the bottommost layer is also located on the left side of the bottommost layer in the graphic assembly of the cabinet.

Further, step S300 further includes: and establishing a mapping relation between each storage box icon and the corresponding storage box. That is, the main control device 4 establishes a mapping relationship between each storage box icon 51 and the corresponding storage box 3, so that when a user performs a click operation on one storage box icon 51 displayed on the display device 5, the main control device 4 can acquire a state of the corresponding storage box 3 or send a corresponding control instruction to the sub-control device 6 of the corresponding cabinet, so that the sub-control device controls the corresponding storage box 3 to perform a setting action (for example, open/close the storage box 3).

In the present embodiment, each of the locker icons 51 may show the identification 52 of the article and the remaining amount of the article in the corresponding locker 3. Optionally, a bar graph 54 is further displayed in the frame 53 of each storage box icon 51, the bar graph 54 includes a first region 541, and a ratio of an area of the first region 541 to a total area of the bar graph 54 is equal to a ratio of the remaining number of articles in the storage box 3 to the total number of articles that can be accommodated in the storage box 3.

In summary, the locker and the dynamic drawing method for the locker interface according to the embodiments of the present invention can automatically acquire the asset code of each cabinet, and automatically draw the simulation diagram of the locker according to the automatically acquired asset code of each cabinet, so that the displayed simulation diagram of the locker can be automatically updated when the number of cabinets, the type of cabinets, and the arrangement order of the cabinets of the locker are changed, and a user does not need to manually upgrade an application program, thereby greatly improving the convenience of the user.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A locker interface dynamic drawing method is used for drawing a simulation graph of a locker, the locker comprises a display device and a plurality of cabinets, and the locker interface dynamic drawing method comprises the following steps:

acquiring an asset code of each cabinet, wherein the asset code of each cabinet comprises an identification number and a type of each cabinet;

analyzing the asset code of each cabinet, and determining the arrangement sequence of the graphic assembly of each cabinet and the graphic assemblies of all the cabinets;

and drawing a simulation graph of the storage cabinet according to the arrangement sequence of the graph component of each cabinet and the graph components of all the cabinets, and controlling the display device to display the simulation graph of the storage cabinet.

2. The locker interface dynamic rendering method of claim 1, wherein obtaining the asset code for each of the cabinets comprises:

broadcasting and sending a cabinet query command to each cabinet;

receiving asset codes fed back by each cabinet;

and each cabinet feeds back the asset code of the cabinet when receiving the cabinet query command.

3. The method of claim 2, wherein determining the order of arrangement of the graphical components of all of the cabinets comprises:

and determining the arrangement sequence of the graphic assemblies of all the cabinets according to the sequence of the asset codes fed back by all the cabinets.

4. The method of claim 1, wherein determining the order of arrangement of the graphical components of all of the cabinets comprises:

and sequencing the identification numbers of all the cabinets according to a preset rule, and determining the arrangement sequence of the graphic components of all the cabinets according to the sequencing of the identification numbers of all the cabinets.

5. The locker interface dynamic rendering method of claim 4, wherein the cabinet comprises a dial switch, and the identification number of the cabinet corresponds to a state of the dial switch.

6. The locker interface dynamic rendering method of claim 1, wherein the locker comprises a storage device for storing a graphic component corresponding to each type of the cabinet; determining a graphical component for each of the cabinets, comprising: and acquiring the graphic component of the cabinet from the storage device according to the type of the cabinet.

7. The locker interface dynamic rendering method of claim 1, wherein each cabinet comprises at least one locker, the graphic assembly of each cabinet comprises at least one locker icon, and the graphic assembly of each cabinet comprises the locker icons in the same number and in one-to-one correspondence with the lockers of the cabinet; the locker interface dynamic drawing method further comprises the following steps:

and establishing a mapping relation between each storage box icon and the corresponding storage box.

8. A storage cabinet, comprising a main control device, a display device, and a plurality of cabinets, wherein each cabinet comprises at least one storage box, the display device is disposed on one of the cabinets, each cabinet comprises a sub-control device, the main control device is electrically connected to the display device and each sub-control device, and the main control device is configured to:

acquiring the asset code of the corresponding cabinet from each sub-control device, analyzing the asset code of each cabinet, determining the arrangement sequence of the graphic components of each cabinet and the graphic components of all the cabinets, drawing a simulation graph of the storage cabinet according to the arrangement sequence of the graph component of each cabinet and the graph components of all the cabinets, establishing a mapping relation between a storage box icon included in the graph component of each cabinet and a corresponding storage box, and controlling the display device to display the simulation graph of the storage cabinet, wherein the asset code of the cabinet comprises an identification number and a type of the cabinet, the graphical component of each cabinet comprises at least one locker icon, the number of the storage box icons included by the graphic assembly of the cabinet is equal to and in one-to-one correspondence with the number of the storage boxes included by the cabinet.

9. A cabinet according to claim 8, wherein the main control means is adapted to:

broadcasting and sending cabinet query commands to each sub-control device, and receiving asset codes of the corresponding cabinets fed back by each sub-control device;

and when each sub-control device receives the cabinet query command, feeding back the corresponding asset code of the cabinet to the main control device.

10. The storage cabinet of claim 8, further comprising a storage device for storing graphic components corresponding to each type of the cabinet, the storage device being electrically connected to the control device, the main control device being configured to retrieve the graphic components of the cabinet from the storage device according to the type of each cabinet.

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