CN115067627B - Automatic customized shoe tree generation system and method, equipment, storage medium and cloud platform - Google Patents

Abstract

The invention relates to an automatic customized shoe tree generation system, an automatic customized shoe tree generation method, equipment, a storage medium and a cloud platform, belongs to the field of shoe making, and solves the problems that in the prior art, a customized shoe tree cannot be really fit, cannot be manufactured in batches and is automatic. The customized shoe tree automatic generation system obtains foot type characteristic parameters by obtaining a user foot type model, and the checking shoe tree model generation module adjusts a target shoe style standard shoe tree model according to the foot type characteristic parameters to enable the standard shoe tree model to be matched with the foot length of the user foot type model, so as to obtain the checking shoe tree model; the foot-type shoe wearing deformation simulation module is used for adjusting the foot-type model of a user and foot-type characteristic parameters thereof according to the code shoe tree model and the shoe pattern characteristic data to obtain a shoe wearing deformation simulation model; and the customized shoe tree automatic generation module is used for adjusting the gauge shoe tree model according to the shoe wearing deformation simulation model to enable the gauge shoe tree model to be attached to the shoe wearing deformation simulation model, so as to obtain the customized shoe tree model.

Description

Automatic customized shoe tree generation system and method, equipment, storage medium and cloud platform

Technical Field

The invention relates to the field of shoemaking, in particular to an automatic customized shoe tree generation system and method, an equipment storage medium and a cloud platform.

Background

Along with the development of science and technology and the improvement of the living standard of substances, the requirements of people on shoes gradually develop from single functions to comfort and individuation, so that the customized shoe technology has a good market prospect. However, in the existing shoe making field, shoe making is not carried out, but shoe making is time-consuming and labor-consuming, and shoe making cost can be reduced only in the process of large-scale industrial production. Therefore, in the existing shoemaking mode, the last model is difficult to be made to be different from person to person.

The 3D printing technology provides a new development direction for customizing shoes and shoelasts. In the prior art, it is common practice to acquire data of a user's static foot shape first, then simply sleeve the data over an existing last model, thereby generating a simple custom last model or custom shoe model, and performing 3D printing. The problem is that the comfort of the user in the shoe wearing state, namely whether the foot shape is matched with the shoe last model or not is neglected, so that all users cannot really fit the feet.

In addition, the design and manufacture of the shoe last often depend on experience of technicians, and it is difficult to design customized shoe lasts in a batch and automatic manner. These factors have limited the development of custom made shoes.

Disclosure of Invention

In view of the above analysis, the embodiments of the present invention aim to provide a system, a method, a device, a storage medium, and a cloud platform for automatically generating customized shoetree, which are used for solving the problems that the shoetree model is not fit, and batch and automatic production cannot be realized in the existing shoetree production.

In one aspect, an embodiment of the present invention provides an automatic custom last generation system, including:

The foot type automatic acquisition module is used for acquiring a foot type model of a user;

The foot-type characteristic parameter automatic extraction module is used for automatically measuring and extracting foot-type characteristic parameters based on a user foot-type model;

the number checking shoe tree model generating module is used for adjusting a standard shoe tree model of the target shoe style according to the foot type characteristic parameters to enable the standard shoe tree model to be matched with the foot length of the user foot type model, so that the number checking shoe tree model is obtained;

The foot-type shoe wearing deformation simulation module is used for adjusting the foot-type model of a user and foot-type characteristic parameters thereof according to the code shoe tree model and the shoe pattern characteristic data to obtain a shoe wearing deformation simulation model;

and the customized shoe tree automatic generation module is used for adjusting the gauge shoe tree model according to the shoe wearing deformation simulation model to enable the gauge shoe tree model to be attached to the shoe wearing deformation simulation model, so as to obtain the customized shoe tree model.

Further, the alignment shoe tree model generation module comprises a model automatic alignment module and a shoe tree size adjustment module, wherein the model automatic alignment module is used for aligning a standard shoe tree model with the heel of a user foot model; and the shoe tree size adjusting module is used for adjusting the length and the width of the aligned standard shoe tree model according to the foot shape characteristic parameters, so that the shoe size corresponding to the standard shoe tree model is matched with the foot length of the foot shape model of the user, and the size-matched shoe tree model is obtained.

Further, the model automatic alignment module comprises a left foot and right foot selection module, and the left foot and right foot selection module determines whether the output standard shoe tree model is a left foot or a right foot according to the input control parameters.

Further, the foot-type shoe wearing deformation simulation module comprises a foot-type bottom surface matching module and a target shoe type characteristic matching module, wherein the foot-type bottom surface matching module is used for lifting the heel part of the user foot-type model according to the front heel difference or the side contour bottom line of the pairing shoe tree model, adjusting the foot-type characteristic parameters of the user foot-type model, enabling the curve of the foot-type bottom surface to be matched with the curve of the bottom surface of the pairing shoe tree model, and outputting the user foot-type model with the foot-type bottom surface matched;

The target shoe style characteristic matching module adjusts the foot type characteristic parameters of the user foot type model after the foot type bottom surface is matched according to the characteristic data of the target shoe style, and generates a shoe wearing deformation simulation model, so that the deformation between the shoe wearing deformation simulation model and the original user foot type model accords with the shoe style characteristic data.

Further, the customized shoe tree automatic generation module adjusts the gauge shoe tree model according to the shoe style characteristic data to enable the gauge shoe tree model to be integrally attached to the shoe wearing deformation simulation model, and the customized shoe tree model is obtained.

Further, the footwear style characteristic data is selected from one or more of toe cap shape, last side contour bottom line, last extension, width compression, plantar girth scaling.

Further, the foot-type characteristic parameter is selected from one or more of foot length, foot width, plantar circumference, plantar girth line.

In one aspect, an embodiment of the present invention provides a method for automatically generating a customized last, including the steps of:

acquiring a foot model of a user;

Based on the foot model of the user, automatically measuring and extracting foot characteristic parameters;

according to the characteristic parameters of the foot shape, the standard shoe tree model of the target shoe style is regulated, so that the standard shoe tree model is matched with the foot length of the foot model of the user, and a gauge shoe tree model is obtained;

According to the model of the pairing shoe tree and the characteristic data of the shoe pattern, the foot model of the user and the characteristic parameters of the foot model are regulated to obtain a shoe wearing deformation simulation model;

And according to the shoe wearing deformation simulation model, adjusting the gauge shoe tree model to be attached to the shoe wearing deformation simulation model to obtain the customized shoe tree model.

Further, according to the characteristic parameters of the foot type, the standard shoe tree model of the target shoe style is adjusted to enable the standard shoe tree model to be matched with the foot length of the foot model of the user, and the obtaining of the checking shoe tree model comprises the following steps:

aligning the standard last model with the heel of the user's foot model;

And according to the characteristic parameters of the foot types, adjusting the length and the width of the aligned standard shoe tree model to enable the shoe size corresponding to the standard shoe tree model to be matched with the foot length of the foot model of the user, and obtaining the size-matched shoe tree model.

Further, according to the pairing shoe tree model and the shoe style characteristic data, the user foot model and the foot style characteristic parameters thereof are adjusted, and the shoe wearing deformation simulation model is obtained, which comprises the following steps:

Lifting the heel part of the user foot model according to the front and rear heel differences or the side contour bottom line of the gauge shoe tree model, and adjusting the foot characteristic parameters of the user foot model to enable the foot bottom surface to be matched with the curve of the bottom surface of the gauge shoe tree model, so as to obtain a user foot model with the matched foot bottom surface;

And according to the characteristic data of the target shoe style, adjusting the foot type characteristic parameters of the user foot type model after the foot type bottom surface is matched, and generating a shoe wearing deformation simulation model, so that the deformation between the shoe wearing deformation simulation model and the original user foot type model accords with the shoe style characteristic data.

The real-time example of the invention also provides a custom shoe tree automatic generation device, which comprises:

a memory for storing a computer program;

and the processor is used for realizing the steps of the customized shoe tree automatic generation method when executing the computer program.

The real-time example of the present invention also provides a readable storage medium storing a computer program, which when executed by a processor, implements the steps of the customized last automatic generation method.

The embodiment of the invention also provides a shoe tree braking generation cloud platform, wherein the customized shoe tree automatic generation system is embedded in the cloud platform, and shoe tree automatic generation service is provided for customers.

Further, the cloud platform comprises a client and a management end, the customized shoe tree automatic generation system is embedded in the client, and the management end is used for managing staff to realize background management of the cloud platform.

Compared with the prior art, the invention has at least one of the following beneficial effects:

1. according to the system and the method for automatically customizing the shoe tree, human intervention is almost not needed in the customizing design process, the customized shoe tree model is automatically generated after the foot model of a user is input, the design efficiency is greatly improved, the automation of the design is realized, and an efficient and low-cost implementation mode is provided for large-scale customizing shoe business.

2. According to the shoe tree automatic generation system and method, the foot type shoe wearing deformation simulation module is arranged, so that the deformation foot type of a user wearing target shoes is simulated, the number shoe tree model is further adjusted according to the shoe wearing deformation foot type, the number shoe tree model is integrally attached to the shoe wearing deformation foot type, and finally the customized shoe tree model is obtained. According to the shoe last model of the checking number of the shoe, the shoe last manufactured by the shoe last model adjusting method is more comfortable, and the shoe last manufactured by the shoe last model adjusting method is more comfortable.

3. The customized shoe tree cloud platform is internally embedded with the customized shoe tree automatic generation system, so that customized shoe tree automatic generation service can be provided for a user, the user can obtain the service only by logging in the cloud platform, and the requirement of the user on automatic shoe tree generation is met.

4. According to the automatic customized shoe generation system, the 3D model of the customized shoe can be obtained by inputting the characteristic data of the shoe last model and the target shoe style, so that automatic design is realized, and an efficient and low-cost implementation mode is provided for large-scale customized shoe business.

5. Because of the full digital design process and input and output, the system can conveniently interface with a front-end data acquisition mode and a rear-end digital manufacturing end. The customization shoe tree of output can directly input back end 3D printing equipment, makes shoe tree and customization shoes of entity through 3D printing, also can regard as the input model of additive design generation module, realizes the lightweight through the additive design.

In the invention, the technical schemes can be mutually combined to realize more preferable combination schemes. Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the invention, like reference numerals being used to refer to like parts throughout the several views.

FIG. 1 is a schematic diagram showing the components of an automatic custom last generation system according to an embodiment of the present invention;

FIG. 2 is a schematic illustration of a standard last model and a user foot model in accordance with one embodiment of the present invention;

FIG. 3 is a schematic view showing the construction of a gauge last model according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a simulated deformation model for wearing a shoe in one embodiment of the invention;

FIG. 5 is a schematic view showing the structure of a customized last model according to an embodiment of the present invention;

FIG. 6 is a flowchart illustrating a method for automatically generating a custom last according to an embodiment of the present invention;

reference numerals: 1-standard shoe last model, 2-user foot model, 3-gauge shoe last model, 4-side contour bottom edge line, 5-shoe wearing deformation simulation model, 6-plantar girth line, 7-custom shoe last model.

Detailed Description

The following detailed description of preferred embodiments of the application is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the application, are used to explain the principles of the application and are not intended to limit the scope of the application.

Example 1

In one embodiment of the present invention, an automatic custom last generation system is disclosed, as shown in FIG. 1. The customized last automatic generation system includes: the device comprises a foot type automatic acquisition module, a foot type characteristic parameter automatic extraction module, a number checking shoe tree model generation module, a foot type shoe wearing deformation simulation module and a customized shoe tree automatic generation module.

The foot type automatic acquisition module is used for acquiring a foot type model of a user;

Specifically, as shown in fig. 2, the foot model 2 of the user may be obtained by a conventional method of reverse molding, three-dimensional scanning, or the like.

The foot-type characteristic parameter automatic extraction module is used for automatically measuring and extracting foot-type characteristic parameters based on a user foot-type model;

in particular, the foot-type characteristic parameter is selected from one or more of foot length, foot width, plantar circumference, plantar girth line.

The gauge shoe tree model generating module is used for adjusting the standard shoe tree model 1 of the target shoe style according to the foot type characteristic parameters, so that the standard shoe tree model 1 is matched with the foot length of the user foot model to obtain a gauge shoe tree model 3;

as shown in fig. 2, standard last model 1 is derived from a digitized model of one or more existing lasts that belong to one or more target shoe styles, including athletic shoes, casual shoes, geriatric shoes, professional football shoes, and the like.

Specifically, the number checking shoe tree model generating module comprises a model automatic alignment module and a shoe tree size adjusting module;

The model automatic alignment module is used for aligning the standard shoe tree model with the heel of the user foot model;

And the shoe tree size adjustment module is used for adjusting the length and the width of the aligned standard shoe tree model 1 according to the foot shape characteristic parameters, so that the shoe size corresponding to the standard shoe tree model is matched with the foot length of the user foot model 2, and a gauge shoe tree model 3 is obtained, as shown in fig. 3.

Specifically, the length and width of the standard shoe last model can be adjusted by adjusting the shoe last lengthening amount and the width compression amount;

in another embodiment, the last sizing module may also extract the side contour bottom edge 4 of the gauge last model.

The model automatic alignment module comprises a left foot selection module and a right foot selection module, wherein the left foot selection module and the right foot selection module determine whether an output standard shoe tree model is a left foot or a right foot according to input control parameters. For example, when the user input control parameter is 1, a standard last model of the left foot is output; when the input control parameter is 0, the standard last model of the right foot is output.

The foot-type shoe-wearing deformation simulation module is used for adjusting the foot-type model 2 of the user and the foot-type characteristic parameters of the user according to the code shoe tree model 3 and the shoe pattern characteristic data to obtain a shoe-wearing deformation simulation model 5;

specifically, the foot-type shoe wearing deformation simulation module comprises a foot-type bottom surface matching module and a target shoe style characteristic matching module;

As shown in fig. 4, the foot-type bottom surface matching module lifts the heel of the user foot-type model 2 according to the front-rear heel of the pairing last model 3 or the side contour bottom line, adjusts the foot-type characteristic parameters of the user foot-type model 2, enables the foot-type bottom surface to be matched with the curve of the pairing last model bottom surface, and outputs the user foot-type model with the foot-type bottom surface matched;

And the target shoe style characteristic matching module is used for adjusting the foot type characteristic parameters of the user foot type model after the foot type bottom surface is matched according to the characteristic data of the target shoe style, and generating a shoe wearing deformation simulation model 5, so that the deformation between the shoe wearing deformation simulation model 5 and the original user foot type model 2 accords with the shoe style characteristic data.

For example, based on the shoe style characteristic data such as the target shoe style width compression amount and the plantar circumference scaling amount, the foot type characteristic parameters such as the plantar circumference of the user foot model 2 are adjusted so that the forefoot width is narrowed and the height is increased. In the above embodiment, the foot-type characteristic parameters are not changed beyond the lengthening amount of the shoe last, and the plantar circumference in the foot-type model 2 of the user is consistent with the plantar circumference scaling amount required by the target shoe-type compared with the plantar circumference of the shoe-wearing deformation simulation model 5.

In order to ensure the comfort of the foot of a user wearing the shoe, a certain target shoe style has set shoe style characteristic data. The shoe style characteristic data comprise toe cap shapes, shoe last side contour bottom lines, shoe last lengthening amounts, single side width compression amounts, plantar girth scaling amounts and the like. When the user wears the corresponding shoe style, if the deformation of the foot accords with the shoe style characteristic data set by the shoe style, the comfort of wearing the shoe can be ensured; however, if the amount of deformation of the foot exceeds the shoe style characteristic data set for the shoe style, the foot may be perceived as being out of engagement. Therefore, the system for automatically customizing the shoe tree provided by the invention needs to adjust the customized shoe tree model in advance according to the foot model of the user after putting on the shoe, so that the foot model of the user after putting on the shoe accords with the shoe style characteristic data with the target shoe tree, and the comfort of the user after putting on the shoe is ensured.

And the customized shoe tree automatic generation module is used for adjusting the gauge shoe tree model according to the shoe wearing deformation simulation model to enable the gauge shoe tree model to be attached to the shoe wearing deformation simulation model, so as to obtain the customized shoe tree model.

Specifically, the automatic generation module of the customized shoe tree controls the head node and the rear node of the pairing shoe tree model according to the shoe wearing deformation simulation model, so that the head node and the rear node are attached to the shoe wearing deformation simulation model, the customized shoe tree model is obtained, the head shape of the customized shoe tree model keeps the design characteristics of the target shoe style, and the shoe tree is integrally attached to the foot shape of a customer.

Example 2

In accordance with one embodiment of the present invention, a customized last automatic generation method is disclosed, as shown in fig. 6, comprising the steps of,

S1, acquiring a foot model of a user;

s2, based on a user foot model, automatically measuring and extracting foot characteristic parameters;

S3, adjusting a standard shoe tree model of the target shoe style according to the foot type characteristic parameters to enable the standard shoe tree model to be matched with the foot length of the foot model of the user, and obtaining a checking shoe tree model;

The specific step S3 includes:

s31, aligning the standard shoe tree model with the heel of the user foot model;

s32, according to the characteristic parameters of the foot types, the length and the width of the aligned standard shoe tree model are adjusted, so that the shoe size corresponding to the standard shoe tree model is matched with the foot length of the foot model of the user, and the size-matched shoe tree model is obtained.

S4, according to the pairing shoe tree model and the shoe pattern characteristic data, adjusting the user foot model and the foot pattern characteristic parameters to obtain a shoe wearing deformation simulation model;

The specific step S4 includes:

S41, lifting the heel part of the user foot model according to the front and rear heel differences or the side contour bottom line of the checking shoe tree model, and adjusting the foot characteristic parameters of the user foot model to enable the foot bottom surface to be matched with the curve of the bottom surface of the checking shoe tree model, so as to obtain the user foot model with the matched foot bottom surface;

S42, according to the characteristic data of the target shoe style, adjusting the foot type characteristic parameters of the user foot type model with the matched foot type bottom surface to generate a shoe wearing deformation simulation model, so that the deformation between the shoe wearing deformation simulation model and the original user foot type model accords with the shoe style characteristic data.

S5, according to the shoe wearing deformation simulation model, the gauge shoe tree model is adjusted to be attached to the shoe wearing deformation simulation model, and the customized shoe tree model is obtained.

The step S5 specifically comprises the following steps: and controlling the head node and the rear node of the gauge shoe tree model according to the shoe-wearing deformation simulation model to enable the head node and the rear node to be attached to the shoe-wearing deformation simulation model, so as to obtain the customized shoe tree model. The head shape of the custom last model maintains the design features of the target shoe style and the last conforms entirely to the customer's foot shape.

Example 3

In one embodiment of the present invention, an apparatus for automatically generating a customized last is disclosed, the apparatus comprising:

a memory for storing a computer program;

A processor for implementing the steps of the custom last automatic generation method of embodiment 2 when executing a computer program.

Example 4

In one embodiment of the present invention, a readable storage medium is disclosed for storing a computer program that, when executed by a processor, performs the steps of the customized last automatic generation method described in example 2.

Example 5

In one embodiment of the present invention, a customized last cloud platform is disclosed, in which the customized last automatic generation system described in example 1 is embedded, providing automatic last generation services to customers.

Specifically, the cloud platform comprises a client and a management end; the customized shoe tree automatic generation system is embedded in the client, and the management end is used for managing personnel to realize background management of the cloud platform.

The client comprises a shoe tree design unit and a data storage unit;

The shoe tree design unit comprises a shoe tree design module and an order management module; the last design module is implemented by the customized last automatic generation system in example 1, providing customized last generation services to the user; the order management module provides order management service for the user, and the user can input specific order numbers, order types, order sources, customer names, task names and the like in the order management module.

After the user logs in successfully, the user can enter the client, order information is generated based on the order management module, the subsequent design tasks are based on the order, and all task data are associated with the order. The design task is completed in the shoe last design module, and finally the customized shoe last model meeting the order requirement is designed.

The data storage module is used for storing shoe tree model data, foot type parameter data, shoe style characteristic data, calculation task data, design order data and the like.

The management end comprises application management, client management, user management, task center, shoe tree model management and the like, and is used for managing personnel to realize back-end management of the cloud platform.

Those skilled in the art will appreciate that all or part of the flow of the methods of the embodiments described above may be accomplished by way of a computer program to instruct associated hardware, where the program may be stored on a computer readable storage medium. Wherein the computer readable storage medium is a magnetic disk, an optical disk, a read-only memory or a random access memory, etc.

The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention.

Claims (11)

1. A customized last cloud platform, the cloud platform providing customized last auto-generation services for customers, comprising:

the cloud platform management system comprises a client and a management end, wherein a customized shoe tree automatic generation system is embedded in the client, and the management end is used for managing personnel to realize background management of the cloud platform;

The client comprises a shoe tree design unit and a data storage unit; the shoe tree design unit comprises a shoe tree design module and an order management module; the shoe tree design module is realized by a customized shoe tree automatic generation system;

The customized last automatic generation system includes:

The foot type automatic acquisition module is used for acquiring a foot type model of a user;

The foot-type characteristic parameter automatic extraction module is used for automatically measuring and extracting foot-type characteristic parameters based on a user foot-type model;

the number checking shoe tree model generating module is used for adjusting a standard shoe tree model of the target shoe style according to the foot type characteristic parameters to enable the standard shoe tree model to be matched with the foot length of the user foot type model, so that the number checking shoe tree model is obtained;

The foot-type shoe wearing deformation simulation module is used for adjusting the foot-type model of a user and foot-type characteristic parameters thereof according to the code shoe tree model and the shoe pattern characteristic data to obtain a shoe wearing deformation simulation model;

the customized shoe tree automatic generation module is used for adjusting the gauge shoe tree model according to the shoe wearing deformation simulation model to enable the gauge shoe tree model to be attached to the shoe wearing deformation simulation model, so that a customized shoe tree model is obtained;

The foot-type shoe wearing deformation simulation module comprises a foot-type bottom surface matching module and a target shoe style characteristic matching module; the foot-shaped bottom surface matching module is used for lifting the heel part of the user foot-shaped model according to the front heel difference or the side contour bottom line of the checking shoe tree model, adjusting the foot-shaped characteristic parameters of the user foot-shaped model, enabling the foot-shaped bottom surface to be matched with the curve of the bottom surface of the checking shoe tree model, and outputting the user foot-shaped model with the foot-shaped bottom surface matched;

The target shoe style feature matching module adjusts the foot type feature parameters of the user foot type model after the foot type bottom surface is matched according to the feature data of the target shoe style, and generates a shoe wearing deformation simulation model, so that the deformation between the shoe wearing deformation simulation model and the original user foot type model accords with the shoe style feature data.

2. The customized last cloud platform of claim 1, wherein the gauge last model generation module comprises a model auto-alignment module, a last size adjustment module; the model automatic alignment module is used for aligning the standard shoe tree model with the heel of the user foot model; and the shoe tree size adjustment module is used for adjusting the length and the width of the aligned standard shoe tree model according to the characteristic parameters of the foot shape, so that the shoe size corresponding to the standard shoe tree model is matched with the foot length of the foot shape model of the user, and the gauge shoe tree model is obtained.

3. The custom last cloud platform of claim 2, wherein the model auto-alignment module includes a left and right foot selection module that determines whether the output standard last model is a left foot or a right foot based on the input control parameters.

4. The customized last cloud platform according to claim 1, wherein the customized last automatic generation module adjusts the gauge last model to integrally fit the shoe wearing deformation simulation model according to the shoe style characteristic data to obtain the customized last model.

5. The customized last cloud platform of claim 1, wherein the footwear characterization data is selected from one or more of a toe shape, a last side contour bottom line, a last extension, a width compression, a plantar girth scaling.

6. The customized last cloud platform of claim 1, wherein the foot-type characteristic parameter is selected from one or more of foot length, foot width, plantar girth line.

7. The automatic customized last generation method based on the customized last cloud platform of claim 1, comprising the steps of:

acquiring a foot model of a user;

Based on the foot model of the user, automatically measuring and extracting foot characteristic parameters;

according to the characteristic parameters of the foot shape, the standard shoe tree model of the target shoe style is regulated, so that the standard shoe tree model is matched with the foot length of the foot model of the user, and a gauge shoe tree model is obtained;

According to the model of the pairing shoe tree and the characteristic data of the shoe pattern, the foot model of the user and the characteristic parameters of the foot model are regulated to obtain a shoe wearing deformation simulation model;

And according to the shoe wearing deformation simulation model, adjusting the gauge shoe tree model to be attached to the shoe wearing deformation simulation model to obtain the customized shoe tree model.

8. The automatic customized last generation method according to claim 7, wherein the adjusting the standard last model of the target shoe style according to the foot-type feature parameters to match the standard last model with the foot length of the user foot-type model, the obtaining the gauge last model comprises the steps of:

aligning the standard last model with the heel of the user's foot model;

And according to the characteristic parameters of the foot types, adjusting the length and the width of the aligned standard shoe tree model to enable the shoe size corresponding to the standard shoe tree model to be matched with the foot length of the foot model of the user, and obtaining the size-matched shoe tree model.

9. The automatic customized last generation method according to claim 7, wherein the step of adjusting the user's foot model and the foot model characteristic parameters thereof according to the comparison last model and the shoe style characteristic data to obtain the shoe wearing deformation simulation model comprises the steps of:

Lifting the heel part of the user foot model according to the front and rear heel differences or the side contour bottom line of the gauge shoe tree model, and adjusting the foot characteristic parameters of the user foot model to enable the foot bottom surface to be matched with the curve of the bottom surface of the gauge shoe tree model, so as to obtain a user foot model with the matched foot bottom surface;

And according to the characteristic data of the target shoe style, adjusting the foot type characteristic parameters of the user foot type model after the foot type bottom surface is matched, and generating a shoe wearing deformation simulation model, so that the deformation between the shoe wearing deformation simulation model and the original user foot type model accords with the shoe style characteristic data.

10. An apparatus for automatically generating a customized last, the apparatus comprising:

a memory for storing a computer program;

a processor for implementing the steps of the customized last automatic generation method according to any one of claims 7 to 9 when executing a computer program.

11. A readable storage medium storing a computer program, which when executed by a processor, performs the steps of the customized last automatic generation method of any one of claims 7 to 9.