CN112489184A

CN112489184A - Jewelry customization system

Info

Publication number: CN112489184A
Application number: CN202011466947.3A
Authority: CN
Inventors: 何宇明; 许灿明
Original assignee: Shenzhen Xiaowanyi Intelligent Technology Co ltd
Current assignee: Shenzhen Xiaowanyi Intelligent Technology Co ltd
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-03-12

Abstract

The application provides a jewelry customization system, jewelry customization system includes parameter input module, pattern element storehouse, material element storehouse, molding element storehouse, custom element module, 3D model generation module, show module, simulation module of trying on. This application can try on the module through parameter input module, pattern element storehouse, material element storehouse, molding element storehouse, custom element module, 3D model generation module, display module, simulation, realizes the jewelry customization parameter that the target customization jewelry that corresponds according to user input, generates user's custom jewelry element, and can be according to user's custom jewelry element generates the 3D model that the target customization jewelry corresponds to can realize letting each part of user's free choice jewelry carry out the jewelry customization, improve the efficiency and the user experience of jewelry customization.

Description

Jewelry customization system

Technical Field

The application relates to the field of computers, in particular to a jewelry customization system.

Background

With the continuous improvement of living standard and aesthetic concept of people, consumers can not only pay attention to the fashion style and the exquisite degree of the ornament when selecting to wear the ornament, but also want to be capable of integrating with the personalized elements and aesthetic requirements of the consumers, more and more consumers want to be capable of participating in the design of the ornament, personal information and emotion are integrated into the ornament in the design process, the personalized ornament which is liked by the consumers is customized, and different ornaments which are different from others are worn, such as the ring or the bracelet is engraved with the name or the image-text symbol representing the consumers, and the shapes of the ring or the bracelet which are asymmetrical left and right or show the individuality are selected. However, most consumers can not participate in the design of jewelry when entering a large and small store to purchase jewelry, the design method of the jewelry at present still adopts the traditional mode, namely, designers design popular jewelry in the background according to the current popular style or standard style, and the popular style jewelry enters each large store to be sold after being batched by factories, when the jewelry enters a counter to be sold, the style and style of the jewelry are already set, the consumers can not integrate the personalized features of the consumers into the jewelry, and the consumers can not participate in the design process of the jewelry to design the favorite style of the consumers, so that the consumers lack autonomy and interest in the process of purchasing the jewelry, the existing merchants have seen the contradiction and try to solve, for example, a rapid design and manufacturing method is provided, the method aims at that the consumers have seen a certain existing formed jewelry, but is not satisfied with a certain local part, aiming at the problem, the Chinese patent application No. 201210276896.7 discloses a rapid design and manufacturing method of metal jewelry, which adopts the original scanning measurement and reverse design method, the method comprises scanning popular and fashionable metal jewelry selected by a consumer, quickly extracting point cloud data, performing CAD modeling to obtain a simulation design model of a product, locally changing the model according to the requirements of the consumer, such as replacing jewels of a ring, although the design method can reluctantly cope with the dissatisfaction of consumers and shorten the development period of products, the design method still cannot meet the requirements of consumers for independently participating in the design process of the jewelry and cannot allow the consumers to independently and rapidly design and customize individualized and differentiated jewelry favored by the consumers, and the existing jewelry design method cannot meet the requirements of the consumers more and more.

Disclosure of Invention

The application provides and has realized a jewelry customization system to each part that the realization lets the user freely select the jewelry carries out the jewelry customization, improves the efficiency and the user experience of jewelry customization.

The application provides a jewelry customization system, which comprises a parameter input module, a pattern element library, a material element library, a modeling element library, a custom element module, a 3D model generation module, a display module and a simulation try-on module;

the pattern element library stores a plurality of preset jewelry patterns, and each jewelry pattern corresponds to a pattern identifier one by one;

the material element stock is stored with a plurality of preset jewelry materials, and each jewelry material is respectively corresponding to a material identifier one by one;

the modeling element bank stores a plurality of preset jewelry models, and each jewelry material corresponds to a modeling identifier one by one;

the parameter input module is used for displaying the jewelry patterns and the corresponding pattern identifications in the pattern element library, the jewelry materials and the corresponding material identifications in the material element library, the jewelry shapes and the corresponding shape identifications in the shape element library to a user; receiving jewelry customization parameters corresponding to target customized jewelry input by a user; collecting a portrait of a user;

the custom element module is used for generating user-defined jewelry elements according to the jewelry custom parameters corresponding to the target custom jewelry;

the 3D model generation module is used for generating a 3D model corresponding to the target customized jewelry according to the user-defined jewelry elements; generating a 3D portrait according to the portrait of the user;

the display module is used for customizing the target to the 3D model corresponding to the jewelry;

and the simulation try-on module is used for wearing the 3D model corresponding to the target customized jewelry on the 3D portrait for display.

Optionally, the jewelry customization parameters include a pattern identifier corresponding to a jewelry pattern, a material identifier corresponding to a jewelry material, a model identifier corresponding to a jewelry model, and/or a custom customization requirement.

Optionally, the customized customization requirement includes at least one of the following: the jewelry design comprises a custom pattern requirement corresponding to a pattern identifier corresponding to the jewelry pattern, a custom material requirement of a material identifier corresponding to the jewelry material, a custom molding requirement and a custom element requirement of a molding identifier corresponding to the jewelry molding.

Optionally, the custom element module is specifically configured to: adjusting the jewelry pattern corresponding to the pattern identifier according to the user-defined pattern requirement corresponding to the pattern identifier corresponding to the jewelry pattern to obtain a user-defined pattern element; according to the self-defined material requirement of the material identification corresponding to the jewelry material, adjusting the jewelry material corresponding to the material identification to obtain a self-defined material element; according to the self-defined modeling requirement of the modeling identifier corresponding to the jewelry modeling, the jewelry modeling corresponding to the modeling identifier is adjusted to obtain a self-defined modeling element; generating a custom element according to the custom element requirement; wherein the user-defined jewelry elements comprise the user-defined pattern elements, the user-defined material elements, the user-defined styling elements, and/or the user-defined elements.

Optionally, the customized pattern requirements include: pattern layout adjustment mode, pattern size adjustment mode, pattern and pattern adjustment mode, and pattern color adjustment mode; the custom material requirements include: a material component adjusting mode, a material color adjusting mode, a material brightness adjusting mode and a material fragrance adjusting mode; the custom styling requirements include: a modeling layout adjusting mode, a modeling size adjusting mode and a modeling style adjusting mode; the custom elements include: including Chinese and Chinese combination characters, English, date, number, constellation symbol, plant, animal, trademark symbol and personal life information symbol including fingerprint, footprint and original handwriting.

Optionally, the 3D model generation module is specifically configured to: and generating a 3D model corresponding to the target customized jewelry according to the custom pattern elements, the custom material elements, the custom modeling elements and/or the custom elements.

Optionally, the display module is specifically configured to perform 360-degree rotation display on the 3D model corresponding to the target customized jewelry.

Optionally, the simulation try-on module is configured to wear the 3D model corresponding to the target customized jewelry to the 3D portrait for 360-degree rotation display.

Optionally, the jewelry customization system further comprises: an adjustment module; the adjusting module is used for adjusting the user-defined jewelry elements according to the face shape, the stature, the skin color and the size of each body part of the user.

Optionally, the jewelry customization system further comprises: an order generation module; and the order generation module is used for generating an order manufacturing design drawing according to the user-defined jewelry elements if a confirmation instruction corresponding to the 3D model corresponding to the target customized jewelry is received.

According to the technical scheme, the jewelry customization system comprises a parameter input module, a pattern element library, a material element library, a modeling element library, a custom element module, a 3D model generation module, a display module and a simulation try-on module; the pattern element library stores a plurality of preset jewelry patterns, and each jewelry pattern corresponds to a pattern identifier one by one; the material element stock is stored with a plurality of preset jewelry materials, and each jewelry material is respectively corresponding to a material identifier one by one; the modeling element bank stores a plurality of preset jewelry models, and each jewelry material corresponds to a modeling identifier one by one; the parameter input module is used for displaying the jewelry patterns and the corresponding pattern identifications in the pattern element library, the jewelry materials and the corresponding material identifications in the material element library, the jewelry shapes and the corresponding shape identifications in the shape element library to a user; receiving jewelry customization parameters corresponding to target customized jewelry input by a user; collecting a portrait of a user; the custom element module is used for generating user-defined jewelry elements according to the jewelry custom parameters corresponding to the target custom jewelry; the 3D model generation module is used for generating a 3D model corresponding to the target customized jewelry according to the user-defined jewelry elements; generating a 3D portrait according to the portrait of the user; the display module is used for customizing the target to the 3D model corresponding to the jewelry; and the simulation try-on module is used for wearing the 3D model corresponding to the target customized jewelry on the 3D portrait for display. Therefore, the method and the device can generate the user-defined jewelry elements according to the jewelry customization parameters corresponding to the target customized jewelry input by the user, and can generate the 3D model corresponding to the target customized jewelry according to the user-defined jewelry elements, so that the user can freely select each part of the jewelry to customize the jewelry, and the jewelry customization efficiency and the user experience are improved.

Further effects of the above-mentioned unconventional preferred modes will be described below in conjunction with specific embodiments.

Drawings

In order to more clearly illustrate the embodiments or prior art solutions of the present application, the drawings needed for describing the embodiments or prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and that other drawings can be obtained by those skilled in the art without inventive exercise.

Fig. 1 is a schematic diagram of a jewelry customization system according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following embodiments and accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Various non-limiting embodiments of the present application are described in detail below with reference to the accompanying drawings.

Referring to fig. 1, the present application provides a jewelry customization system, which comprises a parameter input module, a pattern element library, a material element library, a modeling element library, a custom element module, a 3D model generation module, a display module, and a simulation try-on module. The parameter input module is respectively connected with the pattern element library, the material element library, the modeling element library and the custom element module; the custom element module is respectively connected with the parameter input module, the pattern element library, the material element library, the modeling element library and the 3D model generation module; the 3D model generation module is respectively connected with the custom element module, the pattern element library, the material element library, the modeling element library and the display module; the display module is respectively connected with the 3D model generation module and the simulation fitting module.

The pattern element bank stores a plurality of preset jewelry patterns, and each jewelry pattern corresponds to a pattern identifier respectively. For example, the pattern element library may include a plurality of different patterns, such as a gold ingot pattern, a copper joss pattern, a lucky cloud pattern, etc., and each pattern corresponds to a pattern identification, wherein the pattern identifications corresponding to the different patterns are different.

The material element stock stores a plurality of preset jewelry materials, and each jewelry material corresponds to a material identifier one by one respectively. For example, the pattern element library may include a plurality of different jewelry materials, such as gold, silver, diamond, etc., and each jewelry material corresponds to a material identifier, it should be noted that the material identifiers corresponding to different jewelry materials are different.

The modeling element bank stores a plurality of preset jewelry models, and each jewelry material corresponds to a modeling identifier respectively. For example, the pattern element library may include a plurality of different jewelry materials, such as gold, silver, diamond, etc., and each jewelry material corresponds to a material identifier, it should be noted that the material identifiers corresponding to different jewelry materials are different.

The parameter input module can be used for displaying the jewelry patterns and the corresponding pattern identifications in the pattern element library, the jewelry materials and the corresponding material identifications in the material element library, the jewelry shapes and the corresponding shape identifications in the shape element library to a user, so that the user can select the jewelry patterns, the jewelry materials and the jewelry shapes which are liked by the user from the displayed page.

The parameter input module can be used for receiving jewelry customization parameters corresponding to the target customized jewelry input by the user, and the jewelry customization parameters corresponding to the target customized jewelry input by the user can be understood as parameters selected and input by the user based on the displayed jewelry patterns and corresponding pattern identifications in the pattern element library, jewelry materials and corresponding material identifications in the material element library, jewelry modeling in the modeling element library and corresponding modeling identifications. The jewelry customization parameters can comprise pattern marks corresponding to jewelry patterns, material marks corresponding to jewelry materials, model marks corresponding to jewelry models and/or custom customization requirements.

The custom customization requirements may include at least one of: the jewelry design comprises a custom pattern requirement corresponding to a pattern identifier corresponding to the jewelry pattern, a custom material requirement of a material identifier corresponding to the jewelry material, a custom molding requirement and a custom element requirement of a molding identifier corresponding to the jewelry molding. The user-defined pattern requirement may be understood as a manner in which a user needs to adjust a jewelry pattern corresponding to the pattern identifier, and may include, for example: pattern layout adjustment, pattern size adjustment, pattern and pattern adjustment, and pattern color adjustment. The custom material requirement may be understood as a manner in which a user needs to adjust the jewelry material corresponding to the material identifier, and may include, for example: a material component adjusting mode, a material color adjusting mode, a material brightness adjusting mode and a material fragrance adjusting mode; the custom molding requirement can be understood as a mode that a user needs to adjust the molding of the jewelry corresponding to the molding identifier, and the method can include the following steps: a modeling layout adjusting mode, a modeling size adjusting mode and a modeling style adjusting mode; the custom element may be understood as a way that a user needs to adjust a corresponding jewelry item, such as adding a specific text or texture content, and may include: including Chinese and Chinese combination characters, English, date, number, constellation symbol, plant, animal, trademark symbol and personal life information symbol including fingerprint, footprint and original handwriting.

The parameter input module can be used for collecting the portrait of the user, for example, the photo of the user can be collected through a camera or the photo can be actively uploaded by the user.

And the custom element module is used for generating user-defined jewelry elements according to the jewelry custom parameters corresponding to the target custom jewelry. The custom element module may be specifically configured to: adjusting the jewelry pattern corresponding to the pattern identifier according to the user-defined pattern requirement corresponding to the pattern identifier corresponding to the jewelry pattern to obtain a user-defined pattern element, namely adjusting according to the user-defined pattern requirement corresponding to the pattern identifier corresponding to the jewelry pattern on the basis of the jewelry pattern corresponding to the pattern identifier; according to the custom material requirement of the material identification corresponding to the jewelry material, adjusting the jewelry material corresponding to the material identification to obtain a custom material element, namely adjusting according to the custom material requirement of the material identification corresponding to the jewelry material on the basis of the jewelry material corresponding to the material identification; according to the self-defined modeling requirement of the modeling identifier corresponding to the jewelry modeling, the jewelry modeling corresponding to the modeling identifier is adjusted to obtain a self-defined modeling element, namely, on the basis of the jewelry modeling corresponding to the modeling identifier, the jewelry modeling is adjusted according to the self-defined modeling requirement of the modeling identifier corresponding to the jewelry modeling; and generating a custom element according to the custom element requirement, for example, if the custom element requirement is that the text "love" is engraved on the back of the ring, the custom element text "love" can be generated. It is to be understood that the user-customized jewelry elements include the custom pattern elements, the custom material elements, the custom styling elements, and/or the custom elements.

The 3D model generating module is configured to generate a 3D model corresponding to the target customized jewelry according to the user-defined jewelry element, and in an implementation manner, the 3D model generating module may be specifically configured to: and generating a 3D model corresponding to the target customized jewelry according to the custom pattern elements, the custom material elements, the custom modeling elements and/or the custom elements. The 3D model generation module can also be used for generating a 3D portrait according to the portrait of the user.

The display module may be configured to customize the target to a 3D model corresponding to the jewelry. In one implementation, the display module may be specifically configured to display a 3D model corresponding to the target customized jewelry in a 360-degree rotation. In order to enhance the 3D rendering effect of the target customized jewelry and improve the visual expressive force, the display module is further used for setting the 3D model corresponding to the target customized jewelry to be in diffuse reflection color, highlight color, transparency, smoothness and highlight grade for displaying, using a plurality of light sources in a virtual scene, and using different environmental reflection maps on different materials to support Fresnel reflection. Specifically, a real-time 3D rendering engine written by OpenGL may be adopted, so that a user can observe from any angle, and a zoom-in and zoom-out function is supported. The expression of the material of the 3D jewelry model consists of diffuse reflection color, highlight color, transparency, highlight grade, smoothness, environmental reflection and the like. 5 light sources are used in the virtual scene, so that the expression effect of jewelry twinkling brilliance is enhanced. The environment reflection mapping technology is used for supporting Fresnel reflection, different environment reflection mappings can be applied to different materials according to requirements, and the virtual refraction effect and the glow effect are added to jade materials so as to enhance expressive force. The user can see the 3D rendering effect of the selected part in real time at the terminal, the visual angle can be changed randomly, the 3D rendering effect is very vivid and is close to a real object, and the 3D preview enhancement effect is realized.

And the simulation try-on module is used for wearing the 3D model corresponding to the target customized jewelry on the 3D portrait for display. In an implementation manner, the simulation try-on module may be specifically configured to wear a 3D model corresponding to the target customized jewelry onto the 3D portrait for 360-degree rotation display.

In one implementation, the jewelry customization system further comprises: an adjustment module; the adjusting module is used for adjusting the user-defined jewelry elements according to the face shape, the stature, the skin color and the size of each body part of the user. For example, the user-defined jewelry element and the user's face, stature, skin tone and size of each body part may be entered into the trained neural network model to obtain the adjusted user-defined jewelry element.

In one implementation, the jewelry customization system may further comprise: an order generation module; and the order generation module is used for generating an order manufacturing design drawing according to the user-defined jewelry elements if a confirmation instruction corresponding to the 3D model corresponding to the target customized jewelry is received.

When the embodiment of the invention is used for jewelry online customization, the style of each part can be determined after the user sequentially finishes the selection of the material and the structure type of each part. After the styles of all the parts are determined, the terminal interface displays parameter information of the customized jewelry and the 3D jewelry model. Compared with the existing jewelry online customization, the jewelry online customization method has the advantages that jewelry materials are selected on the whole style, 2D picture display is carried out, a user can freely select each part of the jewelry to customize the jewelry, 3D rendering effect and parameter information are displayed for the user to check, and the jewelry customization efficiency is improved.

It should be noted that, in the present specification, all the embodiments are described in a progressive manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. The above-described apparatus and system embodiments are merely illustrative, in that elements described as separate components may or may not be physically separate. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The above description is only for the preferred embodiment, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A jewelry customization system is characterized by comprising a parameter input module, a pattern element library, a material element library, a modeling element library, a custom element module, a 3D model generation module, a display module and a simulation try-on module;

2. The system of claim 1, wherein the jewelry customization parameters comprise a pattern identifier corresponding to a jewelry pattern, a material identifier corresponding to a jewelry material, a molding identifier corresponding to a molding of the jewelry, and/or custom customization requirements.

3. The system of claim 2, wherein the custom customization needs include at least one of: the jewelry design comprises a custom pattern requirement corresponding to a pattern identifier corresponding to the jewelry pattern, a custom material requirement of a material identifier corresponding to the jewelry material, a custom molding requirement and a custom element requirement of a molding identifier corresponding to the jewelry molding.

4. The system of claim 3, wherein the custom element module is specifically configured to: adjusting the jewelry pattern corresponding to the pattern identifier according to the user-defined pattern requirement corresponding to the pattern identifier corresponding to the jewelry pattern to obtain a user-defined pattern element; according to the self-defined material requirement of the material identification corresponding to the jewelry material, adjusting the jewelry material corresponding to the material identification to obtain a self-defined material element; according to the self-defined modeling requirement of the modeling identifier corresponding to the jewelry modeling, the jewelry modeling corresponding to the modeling identifier is adjusted to obtain a self-defined modeling element; generating a custom element according to the custom element requirement; wherein the user-defined jewelry elements comprise the user-defined pattern elements, the user-defined material elements, the user-defined styling elements, and/or the user-defined elements.

5. The system of claim 3, wherein the custom pattern requirements comprise: pattern layout adjustment mode, pattern size adjustment mode, pattern and pattern adjustment mode, and pattern color adjustment mode; the custom material requirements include: a material component adjusting mode, a material color adjusting mode, a material brightness adjusting mode and a material fragrance adjusting mode; the custom styling requirements include: a modeling layout adjusting mode, a modeling size adjusting mode and a modeling style adjusting mode; the custom elements include: including Chinese and Chinese combination characters, English, date, number, constellation symbol, plant, animal, trademark symbol and personal life information symbol including fingerprint, footprint and original handwriting.

6. The system of claim 4, wherein the 3D model generation module is specifically configured to: and generating a 3D model corresponding to the target customized jewelry according to the custom pattern elements, the custom material elements, the custom modeling elements and/or the custom elements.

7. The system according to any one of claims 1 to 6, wherein the presentation module is specifically configured to present the 3D model corresponding to the customized jewelry object in a 360 degree rotation.

8. The system of any one of claims 1-6, wherein the simulated try-on module is configured to wear a 3D model corresponding to the target customized jewelry onto the 3D portrait for 360 degree rotation display.

9. The system of any one of claims 1-6, wherein the jewelry customization system further comprises: an adjustment module; the adjusting module is used for adjusting the user-defined jewelry elements according to the face shape, the stature, the skin color and the size of each body part of the user.

10. The system of any one of claims 1-6, wherein the jewelry customization system further comprises: an order generation module; and the order generation module is used for generating an order manufacturing design drawing according to the user-defined jewelry elements if a confirmation instruction corresponding to the 3D model corresponding to the target customized jewelry is received.