CN115329915B

CN115329915B - Data processing method suitable for intelligent park equipment

Info

Publication number: CN115329915B
Application number: CN202211250884.7A
Authority: CN
Inventors: 孙世国; 徐全铭; 王家慧; 张航
Original assignee: Jiangsu Gude Operation And Maintenance Information Technology Co ltd
Current assignee: Jiangsu Gude Operation And Maintenance Information Technology Co ltd
Priority date: 2022-10-13
Filing date: 2022-10-13
Publication date: 2023-01-03
Anticipated expiration: 2042-10-13
Also published as: CN115329915A

Abstract

The invention discloses a data processing method suitable for intelligent park equipment, which comprises the following steps: determining first storage behavior information of the first historical storage information, configuring a first display state for a file lattice in the initial interface according to the first storage behavior information, and configuring storage logic for the file lattice in the first display state; configuring a second display state for the file lattice in the initial interface according to the second storage behavior information, and configuring storage logic and/or pickup logic for the file lattice in the second display state; and taking the initial interface configured with the first display state and/or the second display state as a target interface of a corresponding user, sending the target interface to the handheld end, calling corresponding storage logic and/or pickup logic by the server according to the file lattice of the first display state and/or the file lattice of the second display state selected by the user, and remotely controlling the digital storage cabinet so as to enable the user to store and/or pick up the file.

Description

Data processing method suitable for intelligent park equipment

Technical Field

The invention relates to the technical field of data processing, in particular to a data processing method suitable for intelligent park equipment.

Background

The intelligent park equipment comprises various types, such as passing equipment, security and protection equipment, office equipment and the like, wherein the office equipment is most commonly a digital storage cabinet, and the digital storage cabinet is a cabinet for placing files, data and the like. It is commonly used in offices, file rooms, filing rooms, storage rooms, personal study rooms, etc. With the arrival of the electronic age, storage cabinets also begin to step into an electronic intelligent road, and more digital storage cabinets emerge.

In prior art 1, see reference CN109166254a, a method for storing and taking goods in a logistics container is provided, which discloses that an operation of storing goods can be performed on a liquid crystal touch screen, and a storage condition is displayed through the liquid crystal touch screen, a full cabinet shows red, an empty cabinet shows green, and a user can select the cabinet showing green to store. However, this is mainly suitable for single taking and storing of articles in public areas, and for use scenes such as offices, archives, data rooms and the like, the utilization rate of the storage cabinet is not high, and the storage cabinet cannot be suitable for scenes that a user needs to take and store for many times. In addition, in the prior art, the display interface for each user is the same, and adaptive adjustment cannot be realized for the user.

In prior art 2, reference is made to CN114677810a, which provides a method, an apparatus, an electronic device, and a medium for processing storage data, including: outputting a storage service page based on a communication connection relation between the storage service page and a storage client, wherein the storage service page comprises cabinet opening controls respectively corresponding to M cabinets connected with the storage client, determining the cabinet corresponding to the triggered cabinet opening control as a target cabinet according to triggering operation of the cabinet opening controls corresponding to the M cabinets in the storage service page, acquiring cabinet opening verification information aiming at the target cabinet from storage background equipment corresponding to the storage client, and sending the cabinet opening verification information to the storage client based on the communication connection relation so that the storage client performs cabinet opening operation on the target cabinet according to the cabinet opening verification information. Above scheme can improve the convenience and the security of carrying out the management of opening the cabinet to the locker. However, in the actual operation process, a user may store different things into the same locker for multiple times, but in the prior art 2, the situation that the items are put into the same locker or file grid for multiple times and the items are taken away at one time cannot be satisfied, so that the operation can be performed only according to the cyclic logic of placing the items → taking the items → placing the items → taking the items, and the usage scenario is single.

Disclosure of Invention

The invention overcomes the defects of the prior art, provides the data processing method suitable for the intelligent park equipment, can be suitable for scenes of multiple access, has different display interfaces for each user, and can realize adaptability adjustment for the users. The use scene of the invention is diversified, and the invention can carry out diversified operations such as placing articles → fetching articles, etc., so that the same file grid can carry out continuous article storage operation, thereby being convenient and fast and greatly improving the utilization rate of each file grid.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the embodiment of the invention provides a data processing method suitable for intelligent park equipment, which comprises the following steps:

s1, a handheld terminal identifies a bar code of a digital storage cabinet, extracts first label information of the digital storage cabinet, and uploads second label information of the handheld terminal and the first label information to a server respectively;

s2, the server searches a corresponding tag white list according to the first tag information, and if the second tag information is judged to correspond to any one of the tag white lists, first historical storage information corresponding to the first tag information and second historical storage information corresponding to the second tag information are called;

s3, obtaining an initial interface corresponding to the first label information, wherein the initial interface comprises a plurality of file grids, and each first label information is provided with an initial interface which is preset correspondingly;

s4, determining first storage behavior information of the first historical storage information, configuring a first display state for a file lattice in an initial interface according to the first storage behavior information, and configuring storage logic for the file lattice in the first display state;

s5, if the second historical storage information is judged to have second storage behavior information, configuring a second display state for the file lattice in the initial interface according to the second storage behavior information, and configuring storage logic and/or pickup logic for the file lattice in the second display state;

s6, taking an initial interface configured with the first display state and/or the second display state as a target interface of a corresponding user, sending the target interface to a handheld end, establishing a transparent display layer at the target interface according to a file lattice of the first display state and/or a file lattice of the second display state selected by the user, and triggering by the user based on the transparent display layer to enable the server to call corresponding storage logic and/or pickup logic and remotely control the digital storage cabinet to enable the user to store and/or pick files.

Further, the S1 includes:

the server generates a corresponding bar code according to first label information of each digital storage cabinet, wherein the first label information comprises storage cabinet ID information;

the handheld terminal extracts second label information and first label information of the handheld terminal and uploads the second label information and the first label information to the server respectively, wherein the second label information comprises terminal ID information.

Further, the S2 includes:

the server searches in a white list library by taking the first label information as a first target word to obtain a corresponding label white list, wherein each first label information has a label white list which is preset correspondingly;

the server searches in the obtained tag white list by taking the second tag information as a target word, and if the second tag information is judged to correspond to any one of the tag white lists;

calling first historical storage information corresponding to the first label information, wherein the first historical storage information comprises storage behavior information of each file grid of the digital storage cabinet, and the storage behavior information comprises any one or more of a storage main body, a file grid number, a character subjected to document storage and a character not subjected to document storage;

and traversing the storage main bodies in each piece of storage behavior information, and counting the storage behavior information of all the corresponding storage main bodies to obtain second historical storage information if the storage behavior information of the storage main bodies corresponding to the second label information is judged to exist.

Further, the S4 includes:

sequentially retrieving all storage behavior information in the first historical storage information, taking the storage behavior information with the non-document storage characters as first storage behavior information, and taking the storage behavior information with the document storage characters as second storage behavior information;

determining a corresponding first file grid in an initial interface according to the file grid number of the first storage behavior information, and configuring a first display state for the first file grid;

calling preset storage logic, and respectively corresponding the storage logic to a first file lattice with a first display state, so that when the first file lattice in the first display state is triggered, the corresponding storage logic is called for storage interaction.

Further, the S5 includes:

if the second historical storage information is not empty, acquiring all second storage behavior information in the second historical storage information;

determining a corresponding second file case in an initial interface according to the file case number of the second storage behavior information, and configuring a second display state for the second file case;

partitioning the second file grid to obtain a first area and a second area, configuring a first sub-state in the first area, and setting a second sub-state in the second area, wherein the first sub-state and the second sub-state are fused into a second display state;

and calling preset storage logic and pickup logic, corresponding the storage logic to a first area of a second file grid, and corresponding the pickup logic to a second area of the second file grid, so that when the first area of the first sub-state or the second area of the second sub-state is triggered, the corresponding storage logic or pickup logic is called to perform storage or pickup interaction.

Further, the S6 includes:

if the file lattice in any first display state selected by the user is judged, the server performs storage processing according to storage logic, wherein the storage logic is to extract the file lattice number of the selected file lattice and send the file lattice number and a storage instruction to the digital storage cabinet;

the digital storage cabinet opens file grids corresponding to the file grid numbers based on the storage instruction, and generates a storage completion instruction and sends the storage completion instruction to the server after judging that the user closes the file grids;

and the server extracts a storage main body of the handheld terminal based on the storage completion instruction, and generates storage behavior information of a corresponding file case based on the storage main body, the file case number and the file storage character.

Further, the S6 includes:

if the user selects any one file grid in the second display state, generating transparent display layers with the same size on the upper part of the target interface;

displaying the file grid of the second display state selected by the user in the transparent display layer according to the first multiple;

if the first area of the second file lattice is triggered by the user, the server performs storage processing according to storage logic, wherein the storage logic is used for extracting the file lattice number of the selected file lattice and sending the file lattice number and a storage instruction to the digital storage cabinet;

and the digital storage cabinet opens the file grids corresponding to the file grid numbers based on the storage command, and generates a storage completion command and sends the storage completion command to the server after judging that the user closes the file grids, wherein the server does not modify the storage behavior information of the corresponding file grids.

Further, the S6 includes:

if the user triggers the second area of the second file lattice is judged, the server performs pickup processing according to pickup logic, the pickup logic is to extract the file lattice number of the selected file lattice and send the file lattice number and a pickup instruction to the digital storage cabinet;

the digital storage cabinet opens file grids corresponding to the file grid numbers based on the pickup instruction, and generates a pickup finishing instruction and sends the pickup finishing instruction to the server after judging that the user closes the file grids;

and the server deletes second storage behavior information corresponding to the file lattice previously based on the pickup completing instruction, and generates new storage behavior information corresponding to the file lattice, wherein the new storage behavior information comprises characters which are not subjected to document storage.

Further, if it is determined that the user selects any one of the file grids in the second display state, generating a transparent display layer with the same size on the upper portion of the target interface includes:

when the user selects any one of the file grids in the second display state, acquiring the total number, the transverse number and the longitudinal number of the file grids in the target interface;

generating an arrangement coefficient of the file grids according to the total number, the transverse number and the longitudinal number, and if the arrangement coefficient is larger than the preset coefficient, generating transparent display layers with the same size on the upper part of the target interface;

calculating the arrangement coefficient of the file grids in the target interface by the following formula,

wherein,

in order to arrange the coefficients of the light,

the horizontal number of file compartments in the target interface,

is the vertical number of file compartments in the target interface,

is a normalized value of the difference value,

is the weight value of the difference value,

the total number of file compartments in the target interface,

the value is normalized for the total amount,

is a total weight value.

Further, the method also comprises the following steps:

the displaying the file lattice of the second display state selected by the user in the transparent display layer according to a first multiple includes:

obtaining a configuration coefficient of a file grid in a target interface, and comparing the configuration coefficient with a preset coefficient to obtain a configuration coefficient difference value;

adjusting a reference magnification factor according to the arrangement coefficient difference value, generating a first magnification factor corresponding to the file grid, and displaying the file grid in the second display state in the transparent display layer according to the first magnification factor;

the first multiple is calculated by the following formula,

wherein,

is a first multiple of the number of the first,

in order to set the coefficients to a predetermined value,

in order to be a predetermined constant value,

is the reference magnification.

The beneficial effects of the invention are:

(1) According to the method, the handheld terminal and the digital storage cabinet are used for interacting and accessing the piece, the initial interface is updated according to the first historical storage information corresponding to the digital storage cabinet and the second historical storage information corresponding to the handheld terminal to obtain the target interface, the target interface is sent to the handheld terminal for displaying, and the user can access the piece based on the convenient operation of the target interface; in addition, the file lattice in the target interface of the scheme comprises two display states, wherein one display state is the file lattice in the first display state, the file lattice in the first display state shows the files which are not stored in the file lattice to the user, and all the users can store the files into the file lattice; the other is a file lattice in a second display state, the file lattice is displayed to a corresponding user who stores the file in the file lattice for the first time, and the corresponding user can only store the file in the file lattice corresponding to the second display state or take out the file; the scheme is used for displaying the file grids in a classified mode, the state of the file grids can be simply and clearly displayed for a user, and the user is assisted in achieving the operation of storing and taking the file quickly and conveniently. It should be noted that, different from the prior art, the display interface sent to each user by the present scheme is different and exclusive, and can be adjusted adaptively for the user, and the user can operate based on the exclusive interface of the user; in addition, the scheme can not only perform the operation of accessing the file to the file grid, but also access the file to the specific file grid for multiple times, so that a user can flexibly select the file, and the scheme can be suitable for scenes of multiple accesses; meanwhile, because the display interfaces sent to each user are different, each user can only open the corresponding file case, and the operations of inputting verification codes, verification information and the like into the storage cabinet can be omitted.

(2) The second display state of the invention consists of a first sub-state and a second sub-state, the corresponding file grid is divided into two parts, namely a first area and a second area, and a storage triggering area and a pickup triggering area are respectively displayed for a user so that the user can store or take out files from the file grid in the second display state; meanwhile, the scheme adds corresponding storage logic or pickup logic to the corresponding areas respectively, and storage or pickup interaction is automatically carried out when a user triggers; in addition, the scheme considers that 2 display areas corresponding to the file lattices in the second display state are relatively small, and under the condition that the file lattices are small, the scheme is provided with a transparent display layer for amplifying and displaying in order to prevent misoperation of a user, and is used for amplifying and displaying the file lattices in the second display state for the user to trigger, so that the accuracy of user operation is improved, and the user experience is improved.

(3) The invention also can comprehensively calculate the difference dimension of the transverse quantity and the longitudinal quantity and the total quantity dimension to obtain the arrangement coefficient, and automatically judge whether amplification processing is needed or not by utilizing the arrangement coefficient to assist the user in accurate operation; meanwhile, considering that the sizes of the corresponding file lattices are different due to different models of the digital storage cabinets, if the same magnification factor is adopted for amplification, the display proportion of the amplified file lattices is poor, and even the situation that a user cannot completely check the file lattices occurs, so that the scheme can determine the proper magnification factor by combining the arrangement coefficient difference value obtained by the arrangement coefficient and the preset coefficient, thereby obtaining a proper magnified image and assisting the user in accurate operation.

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 description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic diagram of a scenario provided by the present invention;

FIG. 2 is a schematic diagram of a digital storage cabinet according to the present invention;

fig. 3 is a schematic diagram of another digital storage cabinet provided by the present invention.

Detailed Description

In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

Referring to fig. 1, which is a schematic view of a scenario provided in this embodiment, the scenario shows a digital storage cabinet, where the digital storage cabinet has a plurality of file compartments, and each file compartment can store a file of a corresponding person.

The embodiment of the invention provides a data processing method suitable for intelligent park equipment, which comprises the following steps of S1-S6:

s1, a handheld terminal identifies a bar code of a digital storage cabinet, extracts first label information of the digital storage cabinet, and uploads second label information of the handheld terminal and the first label information to a server respectively.

The digital storage cabinet is provided with the bar code, a user can identify the bar code of the digital storage cabinet by using a handheld end, and the handheld end can be a mobile phone, a tablet and other terminals.

According to the scheme, after the bar code of the digital storage cabinet is identified by the handheld end, the first label information of the digital storage cabinet can be extracted, and the second label information and the first label information of the handheld end are uploaded to the server respectively.

It can be understood that a plurality of digital storage cabinets and a plurality of handheld terminals can be arranged, and in order to establish association between the digital storage cabinets and the handheld terminals, the first label information of the digital storage cabinets and the second label information of the handheld terminals are uploaded to the server.

In some embodiments, the S1 includes S11-S12:

s11, the server generates a corresponding bar code according to the first label information of each digital storage cabinet, wherein the first label information comprises storage cabinet ID information.

It can be understood that each digital storage cabinet may correspond to one storage cabinet ID information, and the first tag information in this embodiment may be generated from the corresponding storage cabinet ID information.

And S12, the handheld terminal extracts second label information and first label information of the handheld terminal and uploads the second label information and the first label information to the server respectively, wherein the second label information comprises terminal ID information.

It can be understood that each handheld terminal may correspond to a terminal ID information, and the second tag information of the present embodiment may be generated from the corresponding cabinet ID information.

After receiving the second tag information and the first tag information, the server can know that the handheld terminal corresponding to the second tag information needs to interact with the digital storage cabinet corresponding to the first tag information at this time.

S2, the server searches a corresponding tag white list according to the first tag information, and if the second tag information is judged to correspond to any one of the tag white lists, first historical storage information corresponding to the first tag information and second historical storage information corresponding to the second tag information are called.

In some embodiments, the S2 includes S21-S24:

s21, the server searches in a white list library by taking the first label information as a first target word to obtain a corresponding label white list, and each first label information has a label white list which is preset correspondingly.

It can be understood that, because the file lattices of the digital storage cabinets are limited, each digital storage cabinet can be stored by only a few people, the scheme sets a label white list corresponding to each digital storage cabinet, and only users in the label white list can access files in the digital storage cabinet.

And S22, the server searches in the obtained tag white list by taking the second tag information as a target word, and if the second tag information is judged to correspond to any one of the tag white lists, the server searches in the obtained tag white list.

According to the scheme, when the second label information is judged to correspond to any one of the label white lists, the first historical storage information corresponding to the first label information and the second historical storage information corresponding to the second label information are called.

According to the scheme, the second label information is used as a target word (for example, a terminal A), searching is carried out in the obtained label white list, and if the second label information is judged to correspond to any one of the label white lists (the terminal A is arranged in the label white list).

And S23, calling first historical storage information corresponding to the first label information, wherein the first historical storage information comprises storage behavior information of each file grid of the digital storage cabinet, and the storage behavior information comprises any one or more of a storage main body, a file grid number, a character subjected to document storage and a character not subjected to document storage.

The scheme calls first historical storage information corresponding to first label information (corresponding to a digital storage cabinet), wherein the first historical storage information comprises storage behavior information of each file grid, and the storage behavior information comprises any one or more of a storage main body (such as a terminal A), a file grid number (such as a 3 rd row and a 3 rd column), a character for storing a document (such as prompting a user that the file is stored in a grid), and a character for storing the document (such as prompting the user that the file is not stored in the grid).

And S24, traversing the storage main bodies in each piece of storage behavior information, and counting the storage behavior information of all the corresponding storage main bodies to obtain second historical storage information if the storage behavior information of the storage main bodies corresponding to the second label information is judged to exist.

According to the scheme, the storage main bodies in each piece of storage behavior information are traversed, and if the storage behavior information of the storage main body corresponding to the second label information is judged to exist, the storage behavior information of all corresponding storage main bodies is counted to obtain second historical storage information.

For example, the scheme may count all the storage behavior information of the terminal a to obtain the second history storage information.

And S3, acquiring an initial interface corresponding to the first label information, wherein the initial interface comprises a plurality of file grids, and each piece of first label information is provided with an initial interface which is preset correspondingly.

Referring to fig. 1, the digital storage cabinet has 9 file grids, and the initial interface of the present solution may also display 9 file grids.

S4, determining first storage behavior information of the first historical storage information, configuring a first display state for a file case in an initial interface according to the first storage behavior information, and configuring storage logic for the file case in the first display state.

The scheme determines first storage behavior information of the first historical storage information, then configures a first display state for the file lattice in the initial interface according to the first storage behavior information, and configures storage logic for the file lattice in the first display state.

In some embodiments, said S4 comprises S41-S43:

s41, all the storage behavior information in the first history storage information is retrieved in sequence, the storage behavior information with the non-document-storage character is used as the first storage behavior information, and the storage behavior information with the document-storage character is used as the second storage behavior information.

It can be understood that the first history storage information refers to storage information in the digital storage cabinet, and the scheme can use the first history storage information to know which file compartments store files and which file compartments do not store files.

In addition, the scheme takes the storage behavior information with the characters which are not subjected to document storage as the first storage behavior information, and takes the storage behavior information with the characters which are subjected to document storage as the second storage behavior information.

S42, determining a corresponding first file grid in the initial interface according to the file grid number of the first storage behavior information, and configuring a first display state for the first file grid.

According to the scheme, the file grid number of the first storage behavior information is utilized to obtain the corresponding first file grid in the initial interface, and the first display state is configured for the first file grid.

For example, referring to fig. 1, the first storage behavior information is that no file is stored in row 1, column 3, row 2, column 3, and row 3, column 3, and this scheme determines the file grids corresponding to row 1, column 3, row 2, column 3, and row 3, column 3 as the first file grid, and then configures the first display state for the first file grid.

The first display state may be displayed in a green form, for example, and the display range may correspond to the size of each first file compartment, so as to mark the first file compartment, thereby prompting the user whether a file exists in the corresponding file compartment.

S43, calling preset storage logics, and enabling the storage logics to correspond to the first file grids with the first display states respectively, so that when the first file grids with the first display states are triggered, the corresponding storage logics are called to carry out storage interaction.

It can be understood that the first file lattice is a file lattice in which a user can store a file, and the scheme calls a preset storage logic, and the storage logic corresponds to the first file lattice with the first display state respectively, so that when the first file lattice with the first display state is triggered, the corresponding storage logic is called to perform storage interaction.

And S5, if the second historical storage information is judged to have second storage behavior information, configuring a second display state for the file lattice in the initial interface according to the second storage behavior information, and configuring storage logic and/or pickup logic for the file lattice in the second display state.

Different from the step S4, the present solution determines second storage behavior information of the second history storage information, and then configures a second display state for the file grid in the initial interface according to the second storage behavior information, and configures storage logic and/or pickup logic for the file grid in the second display state. That is, the user can take out the file from the file space in the second display state, or store the file into the file space in the second display state.

In some embodiments, said S5 comprises S51-S54:

and S51, if the second historical storage information is not empty, acquiring all second storage behavior information in the second historical storage information.

It can be understood that if the second history storage information is not empty, which indicates that the digital file cabinet is definitely storing files, the present solution will obtain all the second storage behavior information in the second history storage information.

S52, determining a corresponding second file grid in the initial interface according to the file grid number of the second storage behavior information, and configuring a second display state for the second file grid.

It can be understood that the second storage behavior information refers to information generated by the handheld terminal to the storage device in the digital storage cabinet, for example, the handheld terminal a stores a file into the digital storage cabinet a in the 2 nd row and the 1 st column, and this scheme determines the file lattice corresponding to the 2 nd row and the 1 st column as the second file lattice and configures a second display state for the second file lattice.

The second display state may be displayed in a red form, for example, and the display range may be a size corresponding to each second file format, so as to implement marking of the second file format.

It should be noted that, after the user performs the file storing operation, the user may also input information of the stored file, such as a file name, by using the digital storage cabinet, the digital storage cabinet may generate a corresponding file list and send the file list to the corresponding user, and the user may refer to the file list to accurately fetch the file when performing the file fetching operation.

And S53, carrying out partition processing on the second file form to obtain a first area and a second area, configuring a first sub-state in the first area, and setting a second sub-state in the second area, wherein the first sub-state and the second sub-state are fused into a second display state.

Because the file is stored in the second file grid, the scheme considers that the user may store the file in the second file grid and may take out the file in the second file grid, so the scheme divides the area of the second file grid into a first area and a second area, configures a first sub-state (for example, storage) in the first area, sets a second sub-state (for example, pickup) in the second area, and then fuses the first sub-state and the second sub-state into a second display state.

It should be noted that once a file is first stored in a file compartment by a user, other users cannot open the file, and only the corresponding user can open the file to perform the file storing and fetching operations again.

And S54, calling preset storage logic and preset pickup logic, enabling the storage logic to correspond to a first area of a second file grid, enabling the pickup logic to correspond to a second area of the second file grid, and calling the corresponding storage logic or pickup logic to perform storage or pickup interaction when the first area of the first sub-state or the second area of the second sub-state is triggered.

The file may be stored in the second file lattice, and the file in the second file lattice may also be taken out, so that the scheme may configure a storage logic and a pickup logic for the second file lattice, then correspond the storage logic to the first area of the second file lattice, correspond the pickup logic to the second area of the second file lattice, call the corresponding storage logic interaction when the first area of the first substate is triggered, and call the corresponding pickup logic interaction when the second area of the second substate is triggered.

It is understood that since the files stored by each user are different, the corresponding display interfaces are also different. Therefore, in the scheme, the target interface of the corresponding user is obtained according to the initial interface configured with the first display state and/or the second display state, and then the target interface of the corresponding user is sent to the handheld end of the corresponding user, so that the user can use the corresponding target interface to store or fetch the parts.

In some embodiments, for the user to save the file to the file grid in the first display state, S6 includes S61-S63:

s61, if the file lattice in any first display state selected by the user is judged, the server performs storage processing according to storage logic, wherein the storage logic is to extract the file lattice number of the selected file lattice and send the file lattice number and a storage instruction to the digital storage cabinet.

If the user selects any file lattice in the first display state, which indicates that the user wants to perform storage operation, the server performs storage processing according to storage logic, namely extracts the file lattice number of the file lattice selected by the user, and sends the file lattice number and a storage instruction to the digital storage cabinet.

And S62, the digital storage cabinet opens the file grids corresponding to the file grid numbers based on the storage command, and generates a storage completion command and sends the storage completion command to the server after judging that the file grids are closed by the user.

The digital storage cabinet responds to the storage command to open the file grids corresponding to the file grid numbers, a user can store the file into the file grids corresponding to the file grid numbers, then the user can close the grid doors of the file grids, and then the digital storage cabinet generates a storage completion command and sends the storage completion command to the server after judging that the user closes the file grids.

And S63, the server extracts the storage main body of the handheld terminal based on the storage completion instruction, and generates storage behavior information of a corresponding file lattice based on the storage main body, the file lattice number and the file storage character.

It can be understood that the server extracts the storage main body of the handheld terminal based on the storage completion instruction, and generates storage behavior information of a corresponding file lattice based on the storage main body, the file lattice number and the file storage character.

In other embodiments, for the user performing a storage operation on the file form in the second display state, S6 includes S64-S67:

and S64, if the user selects any one file grid in the second display state, generating transparent display layers with the same size on the upper part of the target interface.

It should be noted that when there are many file cells in the digital storage cabinet, the display area of each file cell is small, and when a user performs a trigger operation, it is easy for the user to generate a misoperation, especially for the file cell in the second display state, because there are 2 display areas in the file cell in the second display state, one is the first sub-state, and the other is the second sub-state. For example, if the user wants to store a file, and the area corresponding to the second sub-state is triggered because the area is small, the server may erroneously determine that the user wants to perform a file fetching operation.

In order to solve the problem, according to the scheme, when a user selects any one file grid in the second display state, a transparent display layer with the same size as that of the target interface is generated on the upper portion of the target interface.

The transparent display layer is transparent, the transparent display layer can be preset in the server, and when a user selects any one file grid in the second display state, the transparent display layer is triggered to display.

And S65, displaying the file grid in the second display state selected by the user in the transparent display layer according to the first multiple.

According to the scheme, the file lattices in the second display state selected by the user are displayed in the transparent display layer according to the first multiple.

It can be understood that, in the scheme, the transparent display layer is used for amplifying and displaying the display area of the file lattice in the second display state, so that the file lattice in the second display state is clearly presented to a user, meanwhile, the trigger areas of the user to two areas in the file lattice in the second display state are increased, and the possibility of misoperation of the user is reduced.

And S66, if the first area of the second file lattice is triggered by the user, the server performs storage processing according to storage logic, wherein the storage logic is to extract the file lattice number of the selected file lattice and send the file lattice number and a storage instruction to the digital storage cabinet.

It can be understood that the first area of the second file lattice corresponds to storage, and if it is determined that the user triggers the first area of the second file lattice, the server performs storage processing according to storage logic, that is, extracts the file lattice number of the selected file lattice, and sends the file lattice number and a storage instruction to the digital storage cabinet.

And S67, the digital storage cabinet opens the file grids corresponding to the file grid numbers based on the storage command, and generates a storage completion command and sends the storage completion command to the server after judging that the user closes the file grids, wherein the server does not modify the storage behavior information of the corresponding file grids.

It should be noted that although the server does not modify the storage behavior information of the corresponding file grid, after the user performs the file storing operation again, the user may also input information of the file to be stored again, such as information of a file name, etc., by using the digital storage cabinet, the digital storage cabinet may update the corresponding file list, add the newly stored file in the file list, and then send the newly stored file to the corresponding user again, and when the user performs the next file fetching or storing operation, the user may refer to the file list to accurately fetch the file.

In still other embodiments, for the user' S operation of fetching the file to the file grid in the second display state, the S6 includes:

and S68, if the user selects any one file grid in the second display state, generating transparent display layers with the same size on the upper part of the target interface.

Similar to the principle of step S64, in this scheme, when the user selects any one of the file grids in the second display state, a transparent display layer with the same size as the target interface is generated on the upper portion of the target interface.

And S69, displaying the file grid in the second display state selected by the user in the transparent display layer according to the first multiple.

Similar to step S65, the file grid in the second display state selected by the user is displayed in the transparent display layer according to the first multiple.

It can be understood that in the scheme, the transparent display layer is used for amplifying and displaying the display area of the file grid in the second display state, so that the file grid in the second display state is clearly presented to a user, meanwhile, the triggering area of the user for two areas in the file grid in the second display state is increased, and the possibility of misoperation of the user is reduced.

S610, if the fact that the user triggers the second area of the second file lattice is judged, the server carries out pickup processing according to pickup logic, the pickup logic is to extract the file lattice number of the selected file lattice, and the file lattice number and a pickup instruction are sent to the digital storage cabinet.

Different from the step S66, if it is determined that the second area of the second file grid corresponds to pickup, the server performs pickup according to the pickup logic, that is, extracts the file grid number of the selected file grid, and sends the file grid number and a pickup instruction to the digital storage cabinet.

And S611, the digital storage cabinet opens the file grids corresponding to the file grid numbers based on the pickup instruction, and generates a pickup completion instruction and sends the pickup completion instruction to the server after judging that the user closes the file grids.

The digital storage cabinet responds to the pickup instruction to open the file lattice corresponding to the file lattice number, a user can pick up a file from the file lattice corresponding to the file lattice number, then the user can close the lattice door of the file lattice, and then the digital storage cabinet generates a pickup completion instruction and sends the pickup completion instruction to the server after judging that the user closes the file lattice.

And S612, deleting second storage behavior information corresponding to the file lattice previously by the server based on the pickup completing instruction, and generating new storage behavior information corresponding to the file lattice, wherein the new storage behavior information comprises characters which are not subjected to document storage.

The server deletes the second storage behavior information corresponding to the file grid in advance based on the pickup completing instruction, generates new storage behavior information corresponding to the file grid, and the new storage behavior information comprises characters which are not subjected to document storage.

It can be understood that, when the user takes the file out of the corresponding file lattice, the server will update the state of the file lattice, and the update operation is to delete the second storage behavior information previously corresponding to the file lattice, generate new storage behavior information corresponding to the file lattice, where the new storage behavior information includes characters which are not stored in the file lattice. It will also be appreciated that the display state of the corresponding document tray may also change, being displayed as the first display state, prompting the user that the document may be stored therein.

It should be noted that, in the foregoing embodiment, for a scenario where a user takes a file out of a file compartment in its entirety, if the user takes the file out of the file compartment in its entirety, the second storage behavior information corresponding to the file compartment in advance is not deleted in the present embodiment, but the storage behavior information of the corresponding file compartment is not modified as in step S67, that is, the corresponding file compartment is displayed in the second display state, and other users cannot store the file in the file compartment except for the user who first stores the file in the file compartment.

It should be noted that, after the user performs a partial pickup operation (the file is not completely picked up), the user may also input information of the file to be picked up, such as information of a file name, by using the digital storage cabinet, the digital storage cabinet may update the corresponding file list, delete the file to be picked up from the file list, and send the file to the corresponding user again, and the user may accurately pick up the file by referring to the file list when performing the next pickup or storage operation.

In the above embodiment, if it is determined that the user selects any one of the file lattices in the second display state, generating transparent display layers with the same size on the upper portion of the target interface includes steps 1 to 2:

step 1, when the user selects any one of the file grids in the second display state, the total number, the transverse number and the longitudinal number of the file grids in the target interface are obtained.

In practical application, the digital storage cabinets have different forms and are arranged in a balanced manner from top to bottom and from left to right, for example, referring to fig. 1, the total number is 9, the transverse number is 3, and the longitudinal number is 3; referring to fig. 2, the total number is 36, the number in the transverse direction is 6, and the number in the longitudinal direction is also 6. There are also uneven arrangements, for example, see fig. 3, with a total number of 16, a number of 8 in the transverse direction and a number of 2 in the longitudinal direction.

And 2, generating an arrangement coefficient of the file grids according to the total number, the horizontal number and the longitudinal number, and if the arrangement coefficient is larger than the preset coefficient, generating transparent display layers with the same size on the upper part of the target interface.

According to the scheme, the total number, the transverse number and the longitudinal number are used for generating the arrangement coefficients of the file grids, if the arrangement coefficients are larger than the preset coefficients, it is indicated that the display areas of the corresponding file grids need to be amplified, and transparent display layers with the same size are generated on the upper portion of the target interface.

；

wherein,

in order to arrange the coefficients of the light,

the horizontal number of file compartments in the target interface,

is the vertical number of file compartments in the target interface,

the value is normalized for the difference value,

is a difference weight value，

The total number of file compartments in the target interface,

the value is normalized for the total amount,

is a total weight value.

In the above-mentioned formula,

representing the degree of the phase difference between the dimensions of the horizontal quantity and the longitudinal quantity, wherein the larger the degree of the phase difference is, the longer one row or one column is, the smaller the display area of the corresponding file grid is, and the larger the corresponding arrangement coefficient is;

representing the coefficients in the dimension of the total number, the total number of document compartments in the target interface

The larger the number of document grids is, the smaller the display area of the corresponding document grid is, and the larger the corresponding arrangement coefficient is. Wherein the difference weight value

And the total weight value

May be preset.

In the mode, the arrangement coefficient is obtained by comprehensively calculating the difference dimension of the transverse quantity and the longitudinal quantity and the total quantity dimension, and whether amplification processing is needed or not is automatically judged by using the arrangement coefficient to assist a user in accurate operation.

On the basis of the above embodiment, the displaying the file lattice of the second display state selected by the user in the transparent display layer according to the first multiple includes steps 3 to 4:

and 3, obtaining the arrangement coefficient of the file grids in the target interface, and comparing the arrangement coefficient with a preset coefficient to obtain an arrangement coefficient difference value.

It can be understood that the larger the difference between the arrangement coefficient and the preset coefficient is, the smaller the specification file lattice is, the larger the magnification factor is.

And 4, adjusting a reference magnification according to the arrangement coefficient difference value, generating a first magnification corresponding to the file grid, and displaying the file grid in the second display state in the transparent display layer according to the first magnification.

According to the scheme, the arrangement coefficient difference value is used for adjusting the reference magnification to obtain a first multiple corresponding to the file lattice, and then the file lattice in the second display state is displayed in the transparent display layer according to the first multiple.

The first multiple is calculated by the following formula,

wherein,

is the first multiple of the first time,

in order to set the coefficients to a predetermined value,

in order to preset the value of the constant,

is the reference magnification.

In the above-mentioned formula,

to representThe larger the coefficient on the difference of the arrangement coefficients, the smaller the specification document size, the magnification factor is required

The larger. Wherein the reference magnification factor

May be preset.

In the embodiment, the sizes of the corresponding file lattices are different in consideration of different models of the digital storage cabinets, and if the same magnification factor is adopted for amplification, the display proportion of the amplified file lattices is poor, and even the situation that a user cannot completely view the file lattices occurs.

In addition to the above embodiments, the present invention may have other embodiments; all technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope of the claims of the present invention.

Claims

1. Data processing method suitable for wisdom garden equipment, its characterized in that includes:

s2, the server searches a corresponding label white list according to the first label information, and if the second label information is judged to correspond to any one of the label white lists, first historical storage information corresponding to the first label information and second historical storage information corresponding to the second label information are called;

s6, taking an initial interface configured with a first display state and/or a second display state as a target interface of a corresponding user, sending the target interface to a handheld end, establishing a transparent display layer at the target interface according to a file lattice of the first display state and/or a file lattice of the second display state selected by the user, and triggering by the user based on the transparent display layer to enable a server to call corresponding storage logic and/or pickup logic and remotely control a digital storage cabinet to enable the user to store and/or pick files;

the S6 comprises the following steps:

the digital storage cabinet opens file grids corresponding to the file grid numbers based on the storage command, and generates a storage completion command and sends the storage completion command to the server after judging that the user closes the file grids;

the server extracts a storage main body of the handheld terminal based on the storage completion instruction, and generates storage behavior information of a corresponding file lattice based on the storage main body, the file lattice number and the file storage character;

the S6 comprises the following steps:

if the user triggers the first area of the second file lattice is judged, the server carries out storage processing according to storage logic, the storage logic extracts the file lattice number of the selected file lattice, and the file lattice number and a storage instruction are sent to the digital storage cabinet;

the digital storage cabinet opens file grids corresponding to the file grid numbers based on the storage instruction, and generates a storage completion instruction and sends the storage completion instruction to a server after judging that a user closes the file grids, wherein the server does not modify the storage behavior information of the corresponding file grids; or the like, or a combination thereof,

the S6 comprises the following steps:

the server deletes second storage behavior information corresponding to the file lattice in advance based on the pickup completing instruction, and generates new storage behavior information corresponding to the file lattice, wherein the new storage behavior information comprises characters which are not subjected to document storage;

if the file grid in any second display state is selected by the user, generating transparent display layers with the same size on the upper part of the target interface, wherein the method comprises the following steps:

generating an arrangement coefficient of the file grids according to the total number, the transverse number and the longitudinal number, and if the arrangement coefficient is larger than a preset coefficient, generating transparent display layers with the same size on the upper part of the target interface;