CN114638579B - Visual inventory dynamic data display assembly, method, storage and electronic equipment - Google Patents

Abstract

The invention provides a visual inventory dynamic data display assembly, a method, a storage and electronic equipment, wherein the visual inventory dynamic data display assembly comprises a dynamic database inventory display assembly library, a scene management module and a data acquisition module; the dynamic database display component library comprises a top view component and/or a side view component; the top view component is used for taking a shelf at a certain layer in the storage area as an object and dynamically presenting the use states of the goods positions of all shelves arranged at different layers in the storage area in a layer selection mode; the side view component is used for presenting the use state of the goods space by taking a certain row of goods shelves in the storage area as an object, taking the goods shelves as abscissa and taking the goods shelf layer as ordinate. The invention can help developers engaged in intelligent storage developers to flexibly and efficiently develop and integrate a complex inventory management system, thereby reducing the burden of customized development of the developers; meanwhile, the invention is beneficial to the use and maintenance of the end user and reduces the professional quality requirement of the operation user.

Description

Visual inventory dynamic data display assembly, method, storage and electronic equipment

Technical Field

The invention relates to the technical field of inventory management, in particular to a visual inventory dynamic data display assembly, a visual inventory dynamic data display method, a visual inventory dynamic data display memory and electronic equipment.

Background

The inventory management system WMS (geographic management system) is a database system used by enterprises and organizations for decision-making and management. The inventory management system can be widely applied to wholesale, retail and production commercial enterprises, shops, retail stores, warehouses and the like, and can be used for integrally managing the goods feeding, selling and inventory, the financial receipt and payment and the customer account. The main functions of the device are as follows: the system comprises a warehouse entry management system, a warehouse exit management system, a collection and payment management system, a commodity data management system, a user information and customer data management system, other income management system, an expenditure management system, various detailed account inquiry and other functions.

In order to highlight the simplicity and universality of the application program of the inventory management system WMS, a main interface mode combining a pull-down menu and a toolbar is usually used in the WMS, and inventory data is presented in a list mode. For WMS developers, the requirements of different industries and different client application functions lead the developers to carry out customized function development on WMS, thus undoubtedly increasing the working intensity of the developers, having large workload and being not beneficial to the modular development of programs; in addition, for a user side, the method can lead to the problem of inconsistent maintenance of the inventory data due to the lack of a graphical and rapid inventory maintenance function due to repeated and tedious inventory data maintenance in daily life, and bring immeasurable economic loss to daily production and operation. Therefore, it is very important to reduce the working strength of developers and ensure the consistency of data usage.

Disclosure of Invention

The invention aims to provide a visual inventory dynamic data display component, a visual inventory dynamic data display method, a visual inventory dynamic data display memory and electronic equipment, which are used for solving the problems that the working strength of developers can be increased and the maintenance of inventory data is inconsistent due to the existing inventory data display method in an inventory management system WMS.

Specifically, the technical scheme of the invention is realized as follows:

a visual inventory dynamic data display component, comprising:

the dynamic database inventory display component library is used for presenting the use state of the goods space in the whole storage area in a visual mode; the dynamic database display component library comprises a top view component and/or a side view component; the top view component is used for dynamically displaying the states of the goods positions in different rows and different columns in the same layer by taking a certain layer of goods shelf in the storage area as an object, and dynamically presenting the use states of the goods positions of all the goods shelves in different layers in the storage area in a layer selection mode; the side view component is used for dynamically displaying the cargo space state by taking a certain row of shelves in the storage area as an object, taking the shelf columns as abscissa and the shelf layer as ordinate;

the scene management module is used for setting and previewing the component attributes during the design and configuration of the inventory management system, and performing component selection, inventory positioning query and maintenance during the operation and maintenance of the inventory management system;

and the data acquisition module is used for acquiring the dynamic data related to the inventory from the database service system.

Further optimizing the technical scheme, the scene management module comprises:

the component attribute unit can configure corresponding component attributes on line in the design and development process of the inventory management system;

the component preview unit is used for forming a preview component after the component attribute is configured and visually and dynamically displaying the data component;

the component selection unit is used for carrying out goods position information detail dynamic display, inventory data positioning query and goods position state change operation;

and the inventory positioning and maintaining unit is used for realizing the positioning and maintenance of the inventory data.

Further optimizing the technical scheme, the component attributes include but are not limited to row number, row name, total number of layers, total number of columns, width of single cargo space display, height of single cargo space display, current layer, and whether cargo space number is displayed.

Further optimizing the technical scheme, the goods position state comprises but is not limited to an idle state, a goods state, a working state, a closed state, a problem state and an empty tray state, and the states of the various states are switched with each other by taking the goods position state after the actual inventory changes as a reference and through the component selection unit.

Further optimizing the technical scheme, the cargo space information details include but are not limited to cargo space numbers, storage container numbers, material types, material numbers, warehousing equipment, warehousing time and production time.

The implementation method of the visual inventory dynamic data display assembly comprises the following steps:

drawing the top view component and/or the side view component according to the whole actual inventory use state: drawing the top view components in a row and in a column mode on the basis of a certain row and a current layer; and drawing the side view component by taking a certain row as an object, columns as abscissa and layers as ordinate.

Further optimizing the technical scheme, the top view component comprises the following specific implementation steps:

s10, initializing a top view assembly, and setting the width and the height of the assembly, wherein the width of the assembly is the width multiplied by the total column number of a single cargo space, and the height of the assembly is the height of the single cargo space;

s11, traversing according to the total column number of the assemblies, calculating the number of the current goods position, and respectively drawing the outer contour and the inner contour of the goods position to generate a three-dimensional display effect;

s12, obtaining the current goods position state from the database service system, and converting the current goods position state into a goods position legend according to the state to draw a legend;

s13, judging whether the goods position number needs to be drawn or not, and if the goods position number needs to be drawn, drawing the goods position number into the inner contour of the goods position in a character string mode;

and S14, repeating the steps S11 to S13 until all the columns are drawn.

Further optimizing the technical scheme, the side view component comprises the following concrete implementation steps:

s100, initializing a side view component, and setting component width and component height, wherein the component width is the single cargo space width x (total column number + 1), and the component height is the single cargo space height x (total layer number + 1);

s101, drawing a coordinate system with the number of shelf columns as an abscissa and the number of shelf layers as a ordinate on the left side by taking the lower left corner of the component as an origin of coordinates; indicating numerical values are respectively marked on the plotted abscissa and ordinate at equal intervals, the indicating numerical value on the abscissa represents the number of columns corresponding to a certain column of goods shelves, and the indicating numerical value on the ordinate represents the number of layers corresponding to a certain layer of goods shelves;

s102, traversing according to the total number of layers and the total number of columns of the assemblies, calculating the number of the current goods position, and respectively drawing the outer contour and the inner contour of the goods position to generate a three-dimensional display effect;

s103, obtaining the current goods position state from the database service system, and converting the current goods position state into a goods position legend according to the state to draw a legend;

s104, judging whether the goods position number needs to be drawn or not, and if the goods position number needs to be drawn, drawing the goods position number into the inner contour of the goods position in a character string mode;

and S105, repeating the steps S102 to S104 until all columns and all layers are drawn.

And the memory is used for storing the program of the visualized inventory dynamic data display component.

An electronic device, comprising:

the memory; and

a processor; the processor is configured to execute the computer instructions stored in the memory, and in particular, to implement the method for visualizing the display assembly of dynamic inventory data.

The method of the invention has the following advantages:

the invention can help developers engaged in intelligent warehousing developers to flexibly and efficiently develop and integrate complex WMS application software, greatly improve the system intelligence degree through the development of the visual component, greatly reduce the customized development burden of the developers, shield the specific development details, and only need to call the visual display component in the development process, so that the visualization interface development and the realization of background functional logic can be carried out. Meanwhile, the invention is beneficial to the use and maintenance of the end user, simplifies the specific inventory operation and maintenance details, reduces the professional quality requirement of the operation user, can be widely applied to matched WMS application programs in different industry fields, and has remarkable economic and social benefits.

The invention provides powerful support for WMS application modularization and visualization development method through visualization and modularization assembly of the inventory management module, a loosely coupled structure of components, standardized encapsulation and interface and an effective interoperation mechanism.

Drawings

FIG. 1 is a block diagram schematically illustrating the structure of the present invention;

FIG. 2 is a diagram of the property composition of the inventory display assembly of the present invention;

FIG. 3 is a diagram of a single cargo space display assembly attribute of the present invention;

FIG. 4 is a top view assembly drawing flow diagram in accordance with the present invention;

FIG. 5 is a side view assembly rendering flow diagram of the present invention;

FIG. 6 is a top view assembly effect diagram of the single row shelf of the present invention;

fig. 7 is a side view assembly effect diagram of the single row shelf of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below in conjunction with specific embodiments, but it should be understood by those skilled in the art that the embodiments described below are only illustrative of the present invention and should not be construed as limiting the scope of the present 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.

The preferred embodiments of the present invention will be described in detail with reference to the following examples. It is to be understood that the following examples are given for illustrative purposes only and are not intended to limit the scope of the present invention. Numerous modifications and alternative arrangements may be devised by those skilled in the art without departing from the spirit and scope of the present invention and all such modifications and alternatives fall within the scope of the appended claims.

The experimental procedures used in the following examples are all conventional procedures unless otherwise specified. Materials, reagents and the like used in the following examples are commercially available unless otherwise specified.

The visualized inventory dynamic data display component, shown in fig. 1 to 3, includes a dynamic database inventory display component library, a scene management module, and a data acquisition module.

And the dynamic database inventory display component library is used for visually presenting the use state of the whole inventory position. The dynamic database display component library includes a top view component and/or a side view component. The dynamic database inventory display component library in the invention can show the whole inventory use state in a combination of a top view component and a side view component, or show the inventory use state separately in one of the top view component and the side view component.

The top view component takes a shelf on a certain layer of the storage area as an object, dynamically displays the states of the goods positions of different rows and different columns in the same layer, and dynamically displays the use states of the goods positions of all the shelves on different layers of the storage area in a layer selection mode.

And the side view component is used for dynamically displaying the state of the goods position by taking a certain row of goods shelves in the storage area as an object, taking the goods shelves as an abscissa and taking the goods shelf layer as an ordinate.

As shown in FIG. 3, the top view component and the side view component both have single cargo space display components with different rows, columns and layers, and the properties of the single cargo space display components comprise cargo space numbers, cargo space states, cargo space legends and inventory data.

The goods position state comprises but is not limited to an idle state, a goods state, a working state, a closed state, a problem state and an empty tray state, and the states of the various states are switched with each other by taking the goods position state after the actual inventory changes as a reference through the component selection unit.

The change of the cargo space state is performed by changing a cargo space function, the change of the cargo space state is limited, and the cargo space state is not switched randomly, for example, the cargo state cannot be changed into the cargo-free state.

The scene management module is configured to be a component attribute and a component preview function of a design process and used in the design and configuration process of the inventory management system; the system comprises a component selection function, an inventory positioning query function and a maintenance function which are configured to be used for operating the process, and is used for operating the maintenance process in the inventory management system.

The scene management module comprises a component attribute unit, a component preview unit, a component selection unit and an inventory positioning maintenance unit.

And the component attribute unit can configure corresponding component attributes on line in the design and development process of the inventory management system. The component attributes include, but are not limited to, the row number, the row name, the total number of layers, the total number of columns, the width of the single-cargo space display, the height of the single-cargo space display, the current layer, whether the cargo space number is displayed.

And the component preview unit is used for forming a preview component after the component attribute is configured and visually and dynamically displaying the data component.

The component selection unit is used for capturing mouse movement and displaying dynamic data; and the right mouse button is used for positioning and inquiring inventory data and changing the goods position state. And the dynamic data display is the detailed dynamic display of the goods position information.

And the inventory positioning and maintaining unit is used for realizing the positioning and maintenance of the inventory data, and the WMS developer and the end user can accurately position the inventory data to be maintained through the inventory positioning and maintaining unit, so that the WMS developer and the end user can quickly and conveniently maintain the visual inventory data.

And the data acquisition module acquires the dynamic data related to the inventory from the database service system. The data acquisition module is an interface connected with the database service system and is configured to acquire relevant dynamic data of the inventory from the database service system.

The implementation method of the visual inventory dynamic data display component comprises an implementation method of a top view component and an implementation method of a side view component.

The method for realizing the top view component can be divided into the processes of acquiring the current shelf and drawing the top view component.

The method for realizing the side view component can be divided into the processes of obtaining the current shelf, setting the size of a window with a coordinate system, displaying the name of the shelf and drawing the side view component.

Wherein, the drawing process is to draw the top view component and/or the side view component according to the whole actual inventory using state:

the top view components are drawn in columns based on a certain row, the current layer.

And drawing the side view component by taking a certain row as an object, columns as abscissa and layers as ordinate.

The method is characterized in that the dynamic display of the using state of the goods space of the whole storage area of the current layer in a layer selection mode by using the whole storage area shelf object is realized by a top view component, and as shown in a combined figure 4, the flow chart is drawn in a column mode on the basis of a certain row and the current layer, and the specific drawing steps of the top view component are as follows:

s10, initializing a top view assembly, calculating and setting the width and the height of the assembly, wherein the width of the assembly is the width multiplied by the total column number of the single cargo space, and the height of the assembly is the height of the single cargo space.

S11, traversing according to the total number of the rows of the assemblies, calculating the number of the current goods position, and respectively drawing the outer contour and the inner contour of the goods position to form a goods position display effect with a stereoscopic impression.

And S12, acquiring the current goods location state from the database service system, and converting the current goods location state into a goods location legend to perform legend/graph drawing according to the state.

And S13, judging whether the goods position number needs to be drawn or not, and if the goods position number needs to be drawn, drawing the goods position number into the inner contour of the goods position in a character string mode.

The step of drawing the goods position number is to determine whether to draw the goods position number according to whether the component displays the goods position number attribute, a switch for drawing the goods position number is arranged in the goods position number drawing device, and the goods position number is drawn only when the switch for drawing the goods position number is clicked and opened. And the invention can also set up the switch that controls the goods position number to reveal, when clicking and opening the display switch of the goods position number, can reveal the goods position number after drawing.

And S14, repeating the steps S11 to S13 until all the columns are drawn.

And the steps are used for drawing a certain row of top view components, and the drawing of a plurality of rows of top view components can be completed according to the steps according to actual needs.

The display of the cargo space state with a certain row as an object, columns as abscissa and layers as ordinate is realized by a side view module, as shown in fig. 5, the flow chart is drawn with the current row as an object, columns as abscissa and layers as ordinate, and the side view module specifically realizes the steps of:

s100, initializing a side view component, setting component width and height, wherein the component width is the single cargo space width x (total column number + 1), and the component height is the single cargo space height x (total layer number + 1).

S101, drawing a coordinate system with the number of shelf rows as an abscissa and the number of shelf layers as a ordinate on the left side by taking the lower left corner of the component as an origin of coordinates; indicating numerical values are respectively marked on the abscissa and the ordinate at equal intervals, the indicating numerical value on the abscissa represents the number of columns corresponding to a certain column of goods shelves, and the indicating numerical value on the ordinate represents the number of layers corresponding to a certain layer of goods shelves. Through the coordinate system of drawing, can fix a position goods position fast, conveniently more.

And S102, traversing according to the total layer number and the total column number of the components. This step includes the steps of cycling through the total number of layers of the side view components and cycling through the total number of columns of the side view components.

The goods space number of the current goods space is calculated, the outer contour and the inner contour of the goods space are respectively drawn, and the goods space display effect with the stereoscopic impression is formed.

In this step, the process of calculating the current cargo space number is as follows: starting with layer number =0, layer number < total number of layers, when the next layer is drawn, the layer number increases accordingly; starting with column number =0, column number < total number of columns, the column number increases accordingly when the next column is drawn. The bin number of each single bin = row number + column number + tier number.

S103, obtaining the current cargo space state from the database service system, and converting the current cargo space state into a cargo space legend according to the state to draw the legend.

And S104, judging whether the goods position number needs to be drawn or not, and if the goods position number needs to be drawn, drawing the goods position number into the inner contour of the goods position in a character string mode.

The step of drawing the cargo space number is to determine whether to draw the cargo space number according to whether the assembly displays the attribute of the cargo space number, a switch for drawing the cargo space number is arranged in the cargo space number drawing device, and the cargo space number is drawn only when the switch for drawing the cargo space number is clicked and opened.

And S105, repeating the steps S102 to S104 until all columns and all layers are drawn. Step S105 specifically includes the following: judging whether the row number is completely traversed; if the row number is not traversed completely, returning to the step of circularly traversing the total layer number of the side view component; if the row number is completely traversed, judging whether the layer number is completely traversed; if the number of layers is not traversed, returning to the step of circularly traversing the total columns of the side view components; and if the number of layers is traversed, the drawing of the side view component is finished.

And the steps are used for drawing a certain row of side view components, and the steps can be used for drawing a plurality of rows of side view components according to actual needs.

In addition, the implementation method of the visual dynamic inventory data display component further comprises an implementation method for dynamically displaying the use state of the inventory area, and the use state of the inventory is dynamically displayed through the drawn top view component and/or side view component. Clicking on a certain row of shelves in the top view component by a mouse displays the side view component of the row of shelves, as shown in fig. 6 and 7, and clicking on the row of shelves in fig. 6 by the mouse can obtain the side view component display effect shown in fig. 7. And the dynamic display of the use state of the storage rack in the storage area is realized through the goods space state information displayed in the top view component and/or the side view component.

And dynamically displaying the use states of the goods shelves in each row of the goods shelves in the whole storage area of different layers in a layer selection mode by using the goods shelf objects in the whole storage area.

The goods position state is displayed by taking a certain row of goods shelves in the storage area as an object, taking the goods shelf columns as the abscissa and taking the goods shelf layers as the ordinate.

After the inventory components are drawn, a side view component and a top view component appear in the visual development IDE tool, when a software interface is developed, the corresponding components are dragged from a toolbar to the interface, the components are selected, then the corresponding attributes are configured in the attributes of the components, and the components can be seen to generate specific shelves along with the configured attributes. Of course, the attribute can be configured in the background code without being configured in the attribute, and at the moment, the effect can be seen in the running process, and the effect cannot be seen in the development process. Therefore, developers only need to call the visual display component in the development process, and the visual interface development and the background function logic can be realized. The process is a development implementation method of the visual inventory dynamic data display component in the development process.

The method for realizing the visual inventory dynamic data display component also comprises a method for realizing the preview of the property of the goods position component and a method for realizing the maintenance of the goods position state.

The method for realizing the preview of the property of the goods location component comprises the following specific operation steps:

and setting the property of the component on line, and generating a component preview effect picture consistent with the operation. And displaying the component attribute of the single cargo space on line by moving a mouse cursor.

The method for realizing the maintenance of the goods position state comprises the following specific operation steps: and clicking the selected single goods position through a right button of the mouse, and performing maintenance operation on the state of the goods position through a popped shortcut menu.

And in combination with the cargo space with a plurality of different legends presented in a certain top view, when the mouse moves to the position above the corresponding cargo space, the inventory data stored in the cargo space can be dynamically displayed, so that the dynamic query and the checking of personnel are facilitated. The cargo space information details include, but are not limited to, cargo space number, cargo space status, number of storage containers, container number, material type, warehousing type, material number, material quantity, warehousing time of warehousing equipment, and production time.

When the mouse moves to the position above a certain goods position to be maintained, a right-click mouse pops up a shortcut menu to display convenient inventory operation and goods position operation, the mouse directly enters an inventory maintenance interface by clicking editing, an inventory inquiry interface of the current goods position is displayed by clicking positioning to the inventory, a target goods position interface is popped up by clicking transferring the inventory, the inventory data is directly moved to the target goods position, the shortcut menu set as the following is clicked to switch a goods position legend from one state to another state, and the current state is limited by background logic, so that the positioning maintenance of the goods position data is realized.

In specific implementation, the invention can be applied to a single-row shelf, and as shown in fig. 6, fig. 6 is a top view component with 30 rows of total rows of shelves as objects, the top view component can be set online through component attributes in the design process, so that a component preview effect diagram consistent with the operation can be generated, meanwhile, the component attributes of a single cargo space (such as the cargo space number 1-1-1, the cargo space state: free/available/working/closed/problem/empty tray, material information) can be displayed online by moving a mouse cursor in the operation process, and the selected single cargo space can be clicked by right clicking a mouse, so that the functions of stock data list query, stock data maintenance, cargo space state change and the like of the current cargo space can be positioned through a pop-up shortcut menu.

Meanwhile, the invention can also be applied to a single row of shelves, and is combined with the graph shown in FIG. 7, the graph shown in FIG. 7 is a side view component with a certain row of shelves as an object and 10 total layers, the side view component can be arranged on line through component attributes in the design process, so that a component preview effect graph consistent with the operation can be generated, meanwhile, the component attributes of a single cargo space (such as a cargo space number 1-1-1, a cargo space state: idle/cargo/work/closed/problem/empty tray, material information) can be displayed on line by moving a mouse cursor in the operation process, the single cargo space can be selected by clicking a right mouse button, and the functions of stock data list inquiry, stock data maintenance, cargo space state change and the like of the current cargo space can be positioned through a popup shortcut menu.

When the intelligent three-dimensional warehousing system is implemented specifically, the intelligent three-dimensional warehousing system can be applied to the intelligent three-dimensional warehousing system, the layout of the whole intelligent warehousing system is presented in the form of a plan view of the using state of the inventory, 4 roadway stackers are taken as warehousing-in and warehousing-out objects of the intelligent warehousing system, 2 rows of independent cross beam type goods shelves are configured on the left side and the right side of each roadway, and the warehousing-in and warehousing-out conveying system is assisted to form the whole intelligent warehousing system.

Meanwhile, top view switching display of different layers by taking layer selection as an object is provided. The number of rows of the intelligent warehousing system is 8, the number of layers is 10, and the number of columns is 30.

The side view of the row of shelves can be entered by double-clicking any row of shelves by a mouse, the side view takes the shelves with the abscissa of 30 rows and the ordinate of 10 layers as objects to perform visual display of the whole row of shelves, and the functional operation as described in fig. 6 and 7 can be performed.

The embodiment of the application also discloses a storage which is used for storing the program of the visual inventory dynamic data display component.

The embodiment of the application discloses an electronic device, which comprises a memory and one or more than one instruction, wherein the one or more than one instruction is stored in the memory and is configured to be executed by one or more than one processor to implement the method for displaying the visual inventory dynamic data, which is shown in the embodiment.

In specific implementations, the electronic device may include, but is not limited to, a mobile phone, a tablet computer, other Universal Serial Bus (USB) interface devices, and the like.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

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

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein. The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention.

Claims (8)

1. A visual inventory dynamic data display component, comprising:

the dynamic database inventory display component library is used for presenting the use state of the goods space in the whole storage area in a visual mode; the dynamic database display component library comprises a top view component and/or a side view component; the top view component is used for dynamically displaying the states of the goods positions in different rows and different columns in the same layer by taking a certain layer of goods shelf in the storage area as an object, and dynamically presenting the use states of the goods positions of all the goods shelves in different layers in the storage area in a layer selection mode; the side view component is used for dynamically displaying the cargo space state by taking a certain row of shelves in the storage area as an object, taking the shelf columns as abscissa and the shelf layer as ordinate;

the scene management module is used for setting and previewing the attributes of the components when the inventory management system is designed and configured, and selecting the components, and carrying out inventory positioning query and maintenance when the inventory management system is operated and maintained;

the data acquisition module is used for acquiring the relevant dynamic data of the stock from the database service system;

the scene management module includes:

the component attribute unit can configure corresponding component attributes on line in the design and development process of the inventory management system;

the component preview unit is used for forming a preview component after the component attribute is configured and visually and dynamically displaying the data component;

the component selection unit is used for carrying out goods position information detail dynamic display, inventory data positioning query and goods position state change operation;

the inventory positioning and maintaining unit is used for realizing the positioning and maintenance of inventory data;

the goods position states include but are not limited to an idle state, a goods state, a working state, a closed state, a problem state and an empty tray state, and the states are switched with each other by taking the goods position state after the actual inventory changes as a reference through the component selection unit; the goods position state is changed by changing the goods position function.

2. The visual inventory dynamic data display component of claim 1, wherein the component attributes include, but are not limited to, a rank number, a rank name, a total number of tiers, a total number of columns, a width of a single level display, a height of a single level display, a current tier, whether a level number is displayed.

3. The visual inventory dynamic data display assembly as recited in claim 1, wherein the cargo space information details include, but are not limited to, cargo space number, number of containers stored, container number, material type, material number, material quantity, warehousing equipment, warehousing time, production time.

4. The method of any one of claims 1 to 3, wherein the method comprises the steps of:

drawing the top view component and/or the side view component according to the whole actual inventory use state: drawing the top view components in a row and in a column mode on the basis of a certain row and a current layer; and drawing the side view assembly by taking a certain row as an object, columns as abscissa and layers as ordinate.

5. The method for implementing the visual inventory dynamic data display component as claimed in claim 4, wherein the top view component is implemented by the following steps:

s10, initializing a top view assembly, and setting the width and the height of the assembly, wherein the width of the assembly is the width multiplied by the total column number of a single cargo space, and the height of the assembly is the height of the single cargo space;

s11, traversing according to the total column number of the assemblies, calculating the number of the current goods position, and respectively drawing the outer contour and the inner contour of the goods position to generate a three-dimensional display effect;

s12, obtaining the current goods position state from the database service system, and converting the current goods position state into a goods position legend according to the state to draw a legend;

s13, judging whether the goods position number needs to be drawn or not, and if the goods position number needs to be drawn, drawing the goods position number into the inner contour of the goods position in a character string mode;

and S14, repeating the steps S11 to S13 until all the columns are drawn.

6. The method for implementing the visualized inventory dynamic data display module according to claim 4, wherein the side view module is implemented by the following steps:

s100, initializing a side view component, and setting component width and component height, wherein the component width is the single cargo space width x (total column number + 1), and the component height is the single cargo space height x (total layer number + 1);

s101, drawing a coordinate system with the number of shelf columns as an abscissa and the number of shelf layers as a ordinate on the left side by taking the lower left corner of the component as an origin of coordinates; indicating numerical values are respectively marked on the plotted abscissa and ordinate at equal intervals, the indicating numerical value on the abscissa represents the number of columns corresponding to a certain column of goods shelves, and the indicating numerical value on the ordinate represents the number of layers corresponding to a certain layer of goods shelves;

s102, traversing according to the total number of layers and the total number of columns of the assemblies, calculating the number of the current goods position, and respectively drawing the outer contour and the inner contour of the goods position to generate a three-dimensional display effect;

s103, obtaining the current cargo space state from the database service system, and converting the current cargo space state into a cargo space legend according to the state to draw a legend;

s104, judging whether the goods position number needs to be drawn or not, and if the goods position number needs to be drawn, drawing the goods position number into the inner contour of the goods position in a character string mode;

and S105, repeating the steps S102 to S104 until all the columns and all the layers are drawn.

7. Memory for storing a program for visualizing an inventory dynamic data display assembly as claimed in any one of claims 1 to 3.

8. An electronic device, comprising:

the memory of claim 7; and

a processor; the processor is used for executing the computer instructions stored in the memory, and particularly executing the implementation method of the visualized inventory dynamic data display component according to any one of claims 4 to 6.

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