CN115344909A

CN115344909A - Shoe body automatic design method and device based on function selection

Info

Publication number: CN115344909A
Application number: CN202211273674.XA
Authority: CN
Inventors: 林子森; 刘培珺; 颜桂明; 周智华; 李琳; 薛飞
Original assignee: Guangdong Shidi Intelligent Technology Co Ltd
Current assignee: Guangdong Shidi Intelligent Technology Co Ltd
Priority date: 2022-10-18
Filing date: 2022-10-18
Publication date: 2022-11-15
Anticipated expiration: 2042-10-18
Also published as: CN115344909B

Abstract

The embodiment of the invention discloses a method for automatically designing a shoe body based on function selection, which comprises the following steps: acquiring a pre-established functional structure comparison table, and generating a functional structure selection control according to the functional structure comparison table; displaying a functional structure selection control in a system design interface; displaying corresponding function level setting options according to the detected operation instructions of the function options; setting an operation instruction of an option according to the detected function level, selecting the corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials; and generating a shoe body model according to the detected selection operation instruction of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies. This scheme is favorable to improving the intelligent degree of shoes body design, provides diversified shoes body design for the user from the angle of shoes body function, can satisfy user's actual demand and can promote design efficiency again.

Description

Automatic shoe body design method and device based on function selection

Technical Field

The application relates to the field of intelligent design, in particular to a method and a device for automatically designing a shoe body based on function selection.

Background

With the development of software intellectualization, the situation that shoe body design is carried out through a software system so as to meet the individual design requirements of users is more and more. The user can design the shoe body according to personal needs through software, such as the design of the material, shape and color used by the shoe body.

In the related art, a user can select materials, shapes and colors of shoe bodies in design software, and shoe bodies meeting the requirements of the user can be designed according to selection of provided options.

Disclosure of Invention

The invention provides a method and a device for automatically designing a shoe body based on function selection, which solve the problems that in the prior art, shoe body design modes are relatively limited in the provided selection design scheme, only options can be simply provided for users to select, and the intelligent degree is not enough, can provide various shoe body design schemes for the users from the aspect of shoe body functions, saves time and designs products which better meet the requirements of the users.

In a first aspect, the present invention provides a method for automatically designing a shoe body based on function selection, the method comprising:

acquiring a pre-established functional structure comparison table, and generating a functional structure selection control according to the functional structure comparison table, wherein the functional structure comparison table records different shoe body functions and corresponding design parameters;

displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options;

displaying corresponding function level setting options according to the detected operation instructions of the function options;

setting an operation instruction of an option according to the detected function level, selecting a corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials;

and generating a shoe body model according to the detected selection operation instruction of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies.

Further, before the obtaining of the pre-established functional structure comparison table, the method further includes:

generating a plurality of shoe body shapes and a plurality of shoe body materials in a character form according to the function data input by the user and the corresponding different function grades;

and obtaining a functional structure comparison table based on the generated plurality of shoe body shapes and the plurality of shoe body materials in the character form.

Further, a plurality of shoes body shapes and a plurality of shoes body materials of text form are generated according to the functional data and the different corresponding function grades of user input, include:

pre-importing a plurality of shape sub-materials and material proton materials, wherein each sub-material is provided with attribute information, and the attribute information is used for identifying a corresponding function grade;

and generating a plurality of shoe body shapes and a plurality of shoe body materials in a character form according to the functional data input by the user and the corresponding different functional grades based on the attribute information of the plurality of shape sub-materials and material sub-materials which are imported in advance.

Further, the generating a functional structure selection control according to the functional structure comparison table includes:

generating a master control button control according to the shoe body functions recorded by the functional structure comparison table;

and generating a slave list control corresponding to the master control button control according to the different shoe body functions and the corresponding design parameters recorded by the functional structure comparison table.

Further, the displaying the corresponding function level setting option according to the detected operation instruction of the function option includes:

according to a detected touch instruction for the three-dimensional design shoe body model, obtaining available function design of a shoe body component corresponding to the touch instruction;

and designing and displaying functional options based on the available functions, and displaying corresponding function level setting options based on click instructions of the displayed functional options.

Further, the three-dimensional model display of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies comprises:

generating and displaying the shoe body shapes and the shoe body materials of the three-dimensional models corresponding to the plurality of shoe body shapes and the plurality of shoe body materials in the character form;

the display of the shoe body material of the three-dimensional model comprises the display of the water absorption, the stretchability and the bending property of the material.

Further, the generating a shoe body model according to the detected selection operation instruction of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies includes:

after detecting a selection operation instruction of the shoe body shape, displaying available shoe body materials related to the shoe body shape, and receiving the selection operation instruction of the shoe body materials in the available shoe body materials;

and the available shoe body materials related to the shoe body shape are determined according to the shape parameters of the shoe body shape.

In a second aspect, the present invention also provides an apparatus for automatically designing a shoe body based on function selection, the apparatus comprising:

the functional structure comparison table acquisition module: the system comprises a function structure comparison table, a control module and a control module, wherein the function structure comparison table is used for acquiring a pre-established function structure comparison table and generating a function structure selection control according to the function structure comparison table, and the function structure comparison table records different shoe body functions and corresponding design parameters;

a control selection module: displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options;

a function level display module: displaying corresponding function level setting options according to the detected operation instructions of the function options;

a three-dimensional model display module: setting an operation instruction of an option according to the detected function level, selecting a corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials;

a shoe body model generation module: and generating a shoe body model according to the detected selection operation instructions of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies.

In a third aspect, the present invention also provides an apparatus for automatically designing a shoe body based on function selection, the apparatus comprising:

one or more processors;

a storage device for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors implement the automatic shoe body design method based on function selection according to the embodiment of the invention.

In a fourth aspect, the present invention also provides a storage medium storing computer-executable instructions for performing the method for automatically designing a shoe body based on function selection according to the embodiment of the present invention when the computer-executable instructions are executed by a computer processor.

In the invention, a pre-established functional structure comparison table is obtained, and a functional structure selection control is generated according to the functional structure comparison table; displaying a functional structure selection control in a system design interface; displaying corresponding function level setting options according to the detected operation instructions of the function options; setting an operation instruction of an option according to the detected function grade, selecting the corresponding function grade, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function grade based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials; and generating a shoe body model according to the detected selection operation instruction of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies. This scheme is favorable to selecting multiple shoes body function, realizes the diversified design of function, improves the intelligent degree of shoes body design, can adjust to there being design defect to the multiple design scheme of corresponding function level generation, avoids extravagant a large amount of manpower and materials, can satisfy user's actual demand and can promote design efficiency again.

Drawings

FIG. 1 is a flow chart of a method for automatically designing a shoe body based on function selection according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for obtaining a function structure comparison table according to an embodiment of the present invention;

FIG. 3 is a flowchart of a method for generating a plurality of shoe body shapes and a plurality of shoe body materials in text form according to an embodiment of the present invention;

fig. 4 is a flowchart of a method for generating a function structure selection control according to an embodiment of the present invention;

fig. 5 is a flowchart of a method for displaying function level setting options according to an embodiment of the present invention;

FIG. 6 is a flowchart of a method for displaying a three-dimensional model according to an embodiment of the present invention;

FIG. 7 is a flowchart of a method for generating a footwear model according to an embodiment of the present invention;

FIG. 8 is a block diagram of an apparatus for automatically designing a shoe body based on function selection according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of an automatic shoe body designing device based on function selection according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be further noted that, for convenience of description, only some structures, not all structures, relating to the embodiments of the present invention are shown in the drawings.

Fig. 1 is a flowchart of a method for automatically designing a shoe body based on function selection according to an embodiment of the present invention, which can be executed by an intelligent terminal device, and specifically includes the following steps:

s101, acquiring a pre-established function structure comparison table, and generating a function structure selection control according to the function structure comparison table, wherein the function structure comparison table records different shoe body functions and corresponding design parameters.

The use scene of the scheme is that a user designs the shoe body in a mode of running shoe body design software on intelligent terminal equipment or in a mode of accessing a shoe body design website through a browser. The intelligent terminal can be a tablet computer, a notebook computer and the like.

In one embodiment, the functional structure comparison table may be obtained statistically according to the design experience or historical design data of the designer, or may be obtained statistically according to the requirement of the user. And the functional structure comparison table is stored in a database of the intelligent terminal, so that the user can conveniently call the functional structure comparison table at any time. Optionally, the functional structure comparison table records different shoe body functions and corresponding design parameters. The shoe body functions may include a bouncing function, a pressure resistance function, and the like. The design parameters may include material, color, texture, etc. of the shoe body. The function structure selection control can be a component used for function selection in the intelligent terminal design interface. The function structure selection control can be obtained by encapsulating data of different functions. Therefore, the design parameters corresponding to different functions can be selected by selecting different functional structure controls.

In one embodiment, a pre-established functional structure comparison table is obtained by sending a request instruction to a database, and functions of different shoe bodies and corresponding design parameters are packaged according to the functional structure comparison table to generate selection controls of different functions.

And S102, displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options.

In one embodiment, the system design interface may be an operation interface for a user to design a shoe, and the interface may include a toolbar, a display bar, and the like. The function options may include functions such as climbing, running, basketball, soccer, etc. The function level corresponding to the function option can be set according to the characteristics of each function. Exemplary, e.g., running function level options may include entry level running, professional level running, recreational level running, and the like. Specifically, the user can select the function options and the corresponding function levels meeting the requirements by clicking the selection control in the toolbar of the system design interface.

And S103, displaying corresponding function level setting options according to the detected operation instructions of the function options.

In one embodiment, after a user clicks a selection control of a corresponding function, an operation instruction is correspondingly generated, and after the system detects the operation instruction, a function level setting option of the function is correspondingly popped up on a system setting interface. For example, if the user clicks the running function control, when the system detects the selection operation, the running level setting option may be popped up in the system design interface.

S104, setting an operation instruction of an option according to the detected function level, selecting a corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials;

in one embodiment, the shoe body shape may refer to the structure of the upper, various shapes of lines in different directions, and the like. May include low shoes, high heels, flat shoes, etc. The shoe body material can be the material of each component of the shoe body, and can comprise rubber material, leather material, textile material, fiber material and the like. The three-dimensional model may be a model for a polygonal representation of the shoe body, and the three-dimensional model may be a real object or an imaginary object. Any real object can be represented by a three-dimensional model. In one embodiment, after the function level setting option corresponding to the selected function is displayed in the system design interface, the user clicks a button of the level setting option, the system recognizes that the level setting option is triggered, a function level menu to which the function belongs is generated, and the user selects a function level meeting the self requirement in the menu. And then searching a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function grade in the function structure comparison table based on the selected function grade. And combining the shapes of the shoe bodies and the materials of the shoe bodies in different modes to construct a three-dimensional model. And displaying the three-dimensional model in a display column of a system design interface. For example, if the leisure running is selected in the function level menu, the functional structure lookup table is used to find out that the plurality of shoe body shapes corresponding to the leisure running are the low upper shape, the half sole air cushion sole and the like, and the plurality of shoe body materials are rubber materials, textile materials, genuine leather materials and the like. The low upper shape and the genuine leather material can be combined, the half sole air cushion sole shape and the rubber material can be combined to generate a three-dimensional model, the three-dimensional model is displayed in a display column of a system design interface, and a user observes the combination effect.

S105, generating a shoe body model according to the detected selection operation instructions of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies.

The shoe body model can be formed by combining various shoe body design parameters, and is used for a user to judge whether the designed shoe body meets the design requirements in advance, so that design defects can be found conveniently according to the shoe body model and can be adjusted in time, and the condition that the produced shoe body is modified and finished and a large amount of manpower and material resources are consumed is avoided. In one embodiment, a user can select a combination mode of the shoe body shape and the shoe body material in a system design interface by clicking a button, and after the system identifies the selection operation of the shoe body shape and the shoe body material, a shoe body model is generated according to the selection instruction and displayed in the system design interface, so that the user can judge whether the model meets the requirements of the user.

According to the method, a pre-established function structure comparison table is obtained, and a function structure selection control is generated according to the function structure comparison table; displaying a functional structure selection control in a system design interface; displaying corresponding function level setting options according to the detected operation instructions of the function options; setting an operation instruction of an option according to the detected function grade, selecting the corresponding function grade, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function grade based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials; and generating a shoe body model according to the detected selection operation instruction of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies. This scheme is favorable to selecting multiple shoes body function, realizes the diversified design of function, improves the intelligent degree of shoes body design, can adjust to there being design defect to the multiple design scheme of corresponding function level generation, avoids extravagant a large amount of manpower and materials, can satisfy user's actual demand and can promote design efficiency again.

Fig. 2 is a flowchart of a method for obtaining a functional structure comparison table according to an embodiment of the present invention, as shown in fig. 2, specifically including the following steps:

s201, generating a plurality of shoe body shapes and a plurality of shoe body materials in a character form according to the function data input by the user and the corresponding different function grades.

In one embodiment, the functional data may be used to represent a user's need for shoe body function during a shoe body design process. May include functions of climbing mountains, running, basketball, soccer, etc. The shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies in the character form can be the material types and the shapes directly indicated by the character form. Such as a wavy shape, a flat bottom shape, a pure leather material with gradually changed colors, etc. Specifically, the method is used for inputting the function data and the corresponding different function grades into the design system in a form of keyboard input or voice input at the intelligent terminal, so that the shapes and the materials of the plurality of shoe bodies corresponding to the different function grades are generated in a text form.

S202, obtaining a functional structure comparison table based on the generated plurality of shoe body shapes and the plurality of shoe body materials in the character form.

In one embodiment, the application range of the shoe body design system is not only directed to professional shoe body designers, but also applicable to all users with design requirements. Therefore, a plurality of shoe body shapes and a plurality of shoe body materials in the form of characters can be generated according to the functional data and corresponding different functional grades, and a corresponding functional structure comparison table can be generated based on the generated multiple character descriptions, wherein a fixed input format is not provided.

S203, acquiring a pre-established functional structure comparison table, and generating a functional structure selection control according to the functional structure comparison table, wherein the functional structure comparison table records different shoe body functions and corresponding design parameters.

And S204, displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options.

And S205, displaying corresponding function level setting options according to the detected operation instructions of the function options.

S206, setting an operation instruction of an option according to the detected function level, selecting a corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials.

And S207, generating a shoe body model according to the detected selection operation instructions of the shapes of the shoe bodies and the materials of the shoe bodies.

According to the method, a plurality of shoe body shapes and a plurality of shoe body materials in a character form are generated according to the function data input by the user and the corresponding different function grades; based on the generated character forms of the shoe body shapes and the shoe body materials, a functional structure comparison table is obtained, so that the shoe body design system is suitable for more user groups, is beneficial to rapidly determining various materials and various shapes corresponding to different functions, and further improves the shoe body design efficiency.

Fig. 3 is a flowchart of a method for generating a plurality of shoe body shapes and a plurality of shoe body materials in a text form according to an embodiment of the present invention, as shown in fig. 3, specifically including the following steps:

s301, importing a plurality of shape sub-materials and material sub-materials in advance, wherein each sub-material is provided with attribute information, and the attribute information is used for identifying a corresponding function level.

In one embodiment, the shape sub-materials and the material sub-materials may be the shoe body shape and the shoe body material which may be involved in the shoe body design process, and the shape sub-materials may include heels with different shapes, shoe lasts with different shapes, sole thicknesses with different shapes, and the like. The material sub-element comprises rubber material, leather material and the like. Texture of materials such as smooth leather, mesh textile, etc. may also be included. The attribute information may include skid resistance, wear resistance, and the like. The strengths of different attributes in the attribute information identify different functional levels. Specifically, a shoe body with a running function can be designed, and the shoe body meets the requirement of anti-skid property, so that the function level of the mark is determined according to the anti-skid property of the sub-material. For example, if the sub-material is a smooth foam sole, it may be used to identify a casual grade run; if the sub-material is the rubber sole with texture, the sub-material can be used for marking the entrance level running; if the child material is a rubber sole with short nails at the front sole, the child material can be used for marking competitive running. In one embodiment, the functional levels of the attribute information identifiers of the sub-materials and the different sub-materials which may be needed in the shoe body design process are bound and stored in the database in advance.

S302, generating a plurality of shoe body shapes and a plurality of shoe body materials in a character form according to the function data input by the user and the corresponding different function grades based on the attribute information of the plurality of shape sub-materials and material sub-materials which are input in advance.

For example, if the function data entered by the user is a running function and the corresponding running function level is a competitive running level, a rubber sole with short nails on the front sole or a rubber sole with deep texture may be generated according to the attribute information of the plurality of shape sub-materials and material sub-materials pre-stored in the database.

S303, obtaining a functional structure comparison table based on the shapes and the materials of the plurality of shoe bodies in the character form.

S304, obtaining a pre-established function structure comparison table, and generating a function structure selection control according to the function structure comparison table, wherein the function structure comparison table records different shoe body functions and corresponding design parameters.

S305, displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options.

And S306, displaying the corresponding function level setting options according to the detected operation instructions of the function options.

S307, setting an operation instruction of an option according to the detected function level, selecting the corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials.

S308, generating a shoe body model according to the detected selection operation instructions of the shapes of the shoe bodies and the materials of the shoe bodies.

As can be seen from the above, a plurality of shape sub-materials and material sub-materials are introduced in advance, wherein each sub-material is provided with attribute information, and the attribute information is used for identifying a corresponding function level; based on the attribute information of the shape sub-materials and the material sub-materials, which is imported in advance, the shapes and the materials of the shoe bodies in the character form are generated according to the functional data input by the user and the corresponding different functional levels, so that the related sub-materials corresponding to the functional levels are avoided being searched one by one, and the design efficiency of the shoe bodies is further improved.

Fig. 4 is a flowchart of a method for generating a function structure selection control according to an embodiment of the present invention, and as shown in fig. 4, the method specifically includes the following steps:

s401, generating a master control button control according to the shoe body functions recorded by the functional structure comparison table.

In one embodiment, a master button control can be used to control the selection of shoe body functions. Illustratively, if the shoe body functions recorded by the function structure comparison table are basketball, football and climbing, the generated main control button controls are basketball function controls, football function controls and climbing function controls.

S402, generating a slave list control corresponding to the main control button control according to the different shoe body functions and the corresponding design parameters recorded by the functional structure comparison table.

The slave list control can be used to control the selection of design parameters corresponding to different shoe body functions. For example, if the shoe body functions recorded in the function structure comparison table are respectively basketballs, the generated master control button control is a basketball function control, and the slave list control of the generated master control button control may be a basketball upper height control, a basketball sole roughness control, and the like. The basketball upper height control can control the selection of the basketball upper height data; the basketball sole roughness control may control the selection of the basketball sole roughness data.

And S403, displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options.

S404, displaying the corresponding function level setting options according to the detected operation instructions of the function options.

S405, setting an operation instruction of an option according to the detected function level, selecting the corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials.

S406, generating a shoe body model according to the detected selection operation instructions of the shapes of the shoe bodies and the materials of the shoe bodies.

According to the function structure comparison table, the master control button control is generated according to the shoe body functions recorded by the function structure comparison table; according to the different shoe body functions and the corresponding design parameters recorded by the functional structure comparison table, the slave list control corresponding to the master control button control is generated, the different functions and the corresponding design parameters of the different functions can be directly selected, the operation mode is simple, and the shoe body design efficiency is further improved.

Fig. 5 is a flowchart of a function level setting option display method according to an embodiment of the present invention, and as shown in fig. 5, the method specifically includes the following steps:

s501, obtaining a pre-established function structure comparison table, and generating a function structure selection control according to the function structure comparison table, wherein the function structure comparison table records different shoe body functions and corresponding design parameters.

And S502, displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options.

S503, obtaining available function design of the shoe body component corresponding to the touch instruction according to the detected touch instruction of the three-dimensional design shoe body model.

In one embodiment, the touch instructions may be used to control the design of the various shoe body components, which may include shoelace design instructions, sole design instructions, shoe tree design instructions, and the like. Available functional design may refer to the ability to perform corresponding functional settings for the shoe body components, such as the setting of multi-sole textures, the setting of last colors, and the like. Specifically, after the three-dimensional design shoe body model is generated, shoe body part labels, which may include shoelaces, soles, lasts, etc., may be generated at corresponding shoe body part positions in the three-dimensional design model. When a user wants to design a function of a certain component, the user clicks the corresponding tag. Specifically, after the system detects the operation of clicking the label, a corresponding touch instruction is generated, and the function design is performed on the corresponding shoe body component according to the touch instruction. Illustratively, if a user clicks a sole tag, a sole control instruction is generated, and roughness design, material design and the like of sole components are obtained.

S504, displaying the functional options based on the available functional design, and displaying the corresponding functional grade setting options based on the click instructions of the displayed functional options.

In one embodiment, after determining the available function design of the shoe body component, a menu of corresponding function options is popped up on a system design interface, any function is clicked in the menu of the function options through a mouse, the shoe body design system responds to the click instruction, and a function level setting option corresponding to the selected function is displayed in a dialog box mode for further selection of a user.

And S505, setting an operation instruction of an option according to the detected function level, selecting the corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials.

S506, generating a shoe body model according to the detected selection operation instructions of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies.

According to the method, the available function design of the shoe body component corresponding to the touch instruction is obtained according to the detected touch instruction of the three-dimensional design shoe body model; based on available functional design shows the function option, and based on the click command that shows the function option shows the function level that corresponds sets up the option, be favorable to directly setting up the function and the function level of each part, can audio-visually show function and set up the effect, whether the user of being convenient for judges the functional design of each part fast satisfies the design demand.

Fig. 6 is a flowchart of a three-dimensional model displaying method according to an embodiment of the present invention, and as shown in fig. 6, the method specifically includes the following steps:

s601, generating a plurality of shoe body shapes and a plurality of shoe body materials in a character form according to the function data input by the user and the corresponding different function levels.

S602, obtaining a functional structure comparison table based on the generated plurality of shoe body shapes and the plurality of shoe body materials in the character form.

S603, obtaining a pre-established functional structure comparison table, and generating a functional structure selection control according to the functional structure comparison table, wherein the functional structure comparison table records different shoe body functions and corresponding design parameters.

S604, displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options.

And S605, displaying the corresponding function level setting options according to the detected operation instructions of the function options.

S606, setting an operation instruction of an option according to the detected function level, selecting a corresponding function level, and determining the shapes and the materials of a plurality of shoe bodies corresponding to the function level based on the function structure comparison table.

S607, generating and displaying the shoe body shapes and the shoe body materials of the three-dimensional models corresponding to the plurality of shoe body shapes and the plurality of shoe body materials in the character form; the display of the shoe body material of the three-dimensional model comprises the display of the water absorption, the stretchability and the bending property of the material.

In one embodiment, the water absorbency of a material may be used to indicate how much water the material is capable of absorbing in water. Optionally, the exhibition of the shoe body material of the three-dimensional model comprises exhibition of water absorption, stretchability and bendability of the material. The stretchability of a material may be used to indicate the tensile strength that the material can withstand. The bending property can be used to indicate the bending strength that the material can withstand. The water absorption, stretchability and bendability of the material are displayed by corresponding parameters. Specifically, the shoe body shape and the shoe body material of the corresponding three-dimensional model are generated according to the plurality of shoe body shapes and the plurality of shoe body materials described in the text form and displayed in a display column of a system design page, and the shape of the three-dimensional model and the water absorption parameter, the stretchability parameter, the bendability parameter and the like of the shoe body material are correspondingly displayed in a dialog box at the top of a system design interface.

S608, generating a shoe body model according to the detected selection operation instructions of the shapes of the shoe bodies and the materials of the shoe bodies.

According to the above, the shoe body shape and the shoe body material of the three-dimensional model corresponding to the plurality of shoe body shapes and the plurality of shoe body materials in the character form are generated and displayed; the shoe body material of the three-dimensional model is displayed by the water absorption, the stretchability and the bendability of the material, so that a user can know the corresponding material and the shape conveniently, whether the material and the shape meet the design requirement or not is judged, and the whole design scheme can be adjusted conveniently through the relevant parameters of the material.

Fig. 7 is a flowchart of a method for generating a shoe body model according to an embodiment of the present invention, as shown in fig. 7, which specifically includes the following steps:

s701, obtaining a pre-established function structure comparison table, and generating a function structure selection control according to the function structure comparison table, wherein the function structure comparison table records different shoe body functions and corresponding design parameters.

S702, displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options.

And S703, displaying the corresponding function level setting options according to the detected operation instructions of the function options.

S704, setting an operation instruction of an option according to the detected function level, selecting a corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials.

S705, after detecting a selection operation instruction of the shoe body shape, displaying available shoe body materials related to the shoe body shape, and receiving the selection operation instruction of the shoe body materials in the available shoe body materials; and the available shoe body materials related to the shoe body shape are determined according to the shape parameters of the shoe body shape.

In one embodiment, the shoe body material related to the shape of the shoe body can be preset in the shoe body design system, wherein the shape of the shoe body and the material of the shoe body can be preset, and can also be obtained according to big data learning and stored in a database in advance, so that the related relationship can be conveniently realized at any time in the design process. Optionally, the available shoe body materials related to the shoe body shape are determined according to shape parameters of the shoe body shape, where the shape parameters may include the size of the shoe body, the thickness of the sole, the height of the upper, and the like. Specifically, due to the requirements on the functions of the shoe bodies, the corresponding design effect can be achieved only by using fixed materials for the shapes of certain shoe bodies. For example, when the shoe body is shaped as a basketball shoe with a high top, the height of the upper is greater than the ankle, e.g., 6 cm. The ankle support is used for protecting and supporting the ankle, and therefore the related materials can be selected from synthetic leather materials, so that the ankle support has good air permeability and certain supporting force.

In one embodiment, when the user clicks the "shoe shape" option in the system design interface, the system receives the click operation command, and displays the shoe material associated with the selected shoe shape according to the operation command, thereby selecting the best shoe material among all the displayed associated shoe materials.

By the above, after detecting the selection operation instruction to the shoes body shape, show with the shoes body material that is available that shoes body shape is relevant receive the selection operation instruction of shoes body material in the shoes body material that is available, can avoid collocating shoes body shape and shoes body material respectively in the design process, constantly adjust the collocation combination that does not satisfy the design demand, be favorable to further improving shoes body design efficiency.

Fig. 8 is a block diagram illustrating a structure of an apparatus for automatically designing a shoe body based on function selection according to an embodiment of the present invention, which is used for performing the method for automatically designing a shoe body based on function selection according to the above embodiment, and has corresponding function modules and advantages. As shown in fig. 8, the apparatus specifically includes:

the functional structure comparison table obtaining module 81: the system comprises a function structure comparison table, a control module and a control module, wherein the function structure comparison table is used for acquiring a pre-established function structure comparison table and generating a function structure selection control according to the function structure comparison table, and the function structure comparison table records different shoe body functions and corresponding design parameters;

the control selection module 82: displaying the function structure selection control in a system design interface, wherein the function structure selection control comprises function options and corresponding function level setting options;

function level display module 83: displaying corresponding function level setting options according to the detected operation instructions of the function options;

three-dimensional model presentation module 84: setting an operation instruction of an option according to the detected function level, selecting a corresponding function level, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function level based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials;

shoe body model generation module 85: and generating a shoe body model according to the detected selection operation instructions of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies.

According to the method, a pre-established functional structure comparison table is obtained, and a functional structure selection control is generated according to the functional structure comparison table; displaying a functional structure selection control in a system design interface; displaying corresponding function level setting options according to the detected operation instructions of the function options; setting an operation instruction of an option according to the detected function grade, selecting the corresponding function grade, determining a plurality of shoe body shapes and a plurality of shoe body materials corresponding to the function grade based on the function structure comparison table, and displaying three-dimensional models of the shoe body shapes and the shoe body materials; and generating a shoe body model according to the detected selection operation instruction of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies. This scheme is favorable to selecting multiple shoes body function, realizes the diversified design of function, improves the intelligent degree of shoes body design, can adjust to there being design defect to the multiple design scheme of corresponding function level generation, avoids extravagant a large amount of manpower and materials, can satisfy user's actual demand and can promote design efficiency again.

Fig. 9 is a schematic structural diagram of an automatic shoe body designing apparatus based on function selection according to an embodiment of the present invention, as shown in fig. 9, the apparatus includes a processor 901, a memory 902, an input device 903, and an output device 904; the number of the processors 901 in the device may be one or more, and one processor 901 is taken as an example in fig. 9; the processor 901, the memory 902, the input device 903 and the output device 904 of the apparatus may be connected by a bus or other means, and fig. 9 illustrates the connection by a bus as an example. The memory 902 is a computer-readable storage medium for storing software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the method for automatically designing a shoe body based on function selection according to the embodiment of the present invention. The processor 901 executes various functional applications and data processing of the device by running software programs, instructions and modules stored in the memory 902, namely, the above-mentioned automatic shoe body design method based on function selection is realized. The input device 903 may be used to receive input numeric or character information and generate key signal inputs related to user settings and function controls of the apparatus. The output device 904 may include a display device such as a display screen.

Embodiments of the present invention also provide a storage medium containing computer-executable instructions, which when executed by a computer processor, perform a method for automatic shoe body design based on function selection, the method comprising: acquiring a pre-established functional structure comparison table, and generating a functional structure selection control according to the functional structure comparison table, wherein the functional structure comparison table records different shoe body functions and corresponding design parameters;

and generating a shoe body model according to the detected selection operation instructions of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies.

It should be noted that, in the embodiment of the automatic shoe body design device based on function selection, the included units and modules are only divided according to the function logic, but not limited to the above division, as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the embodiment of the invention.

In some possible embodiments, various aspects of the methods provided by the present application may also be implemented in the form of a program product including program code for causing a computer device to perform the steps of the methods according to various exemplary embodiments of the present application described above in the present specification when the program product is run on the computer device, for example, the computer device may perform the method for automatically designing a shoe body based on function selection as described in the examples of the present application. The program product may be implemented using any combination of one or more readable media.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. Those skilled in the art will appreciate that the embodiments of the present invention are not limited to the specific embodiments described herein, and that various obvious changes, rearrangements and substitutions can be made by those skilled in the art without departing from the scope of the embodiments of the invention. Therefore, although the embodiments of the present invention have been described in more detail through the above embodiments, the embodiments of the present invention are not limited to the above embodiments, and many other equivalent embodiments can be included without departing from the concept of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims

1. A shoe body automatic design method based on function selection is characterized by comprising the following steps:

2. The method of claim 1, further comprising, prior to said obtaining a pre-established functional structure comparison table:

3. The method of claim 2, wherein generating a plurality of shoe body shapes and a plurality of shoe body materials in text form according to the function data entered by the user and the corresponding different function levels comprises:

4. The method according to claim 1, wherein the generating a functional structure selection control according to the functional structure comparison table comprises:

and generating a slave list control corresponding to the main control button control according to the different shoe body functions and the corresponding design parameters recorded by the functional structure comparison table.

5. The automatic shoe body designing method based on function selection according to any one of claims 1 to 4, wherein said displaying corresponding function level setting options according to the operation instructions of the detected function options comprises:

6. The method according to any one of claims 2 to 4, wherein said performing a three-dimensional model display of said plurality of shoe body shapes and said plurality of shoe body materials comprises:

generating and displaying shoe body shapes and shoe body materials of the three-dimensional model corresponding to the plurality of shoe body shapes and the plurality of shoe body materials in the form of characters;

7. The method according to any one of claims 1 to 4, wherein the generating of the shoe body model according to the detected selection operation instructions of the plurality of shoe body shapes and the plurality of shoe body materials comprises:

after a selection operation instruction of the shoe body shape is detected, displaying available shoe body materials related to the shoe body shape, and receiving the selection operation instruction of the shoe body materials in the available shoe body materials;

8. Shoe body automatic design device based on function selection, its characterized in that includes:

a shoe body model generation module: and generating a shoe body model according to the detected selection operation instruction of the shapes of the plurality of shoe bodies and the materials of the plurality of shoe bodies.

9. An apparatus for automatically designing a shoe body based on function selection, the apparatus comprising: one or more processors; storage means for storing one or more programs which, when executed by the one or more processors, cause the one or more processors to implement the method of automatically designing footwear bodies based on functional selection according to any one of claims 1-7.

10. A storage medium storing computer-executable instructions for performing the method of automatic shoe body design based on function selection according to any one of claims 1-7 when executed by a computer processor.