CN110930231B - Customization system for ceramic tiles - Google Patents

Abstract

The invention relates to a customization system for ceramic tiles, comprising: the 3D customizing subsystem is used for customizing a 3D scene; the data center is connected with the 3D customizing subsystem and stores various data related to 3D scene customization; the customization effect real-time generation engine is connected with the 3D customization subsystem and is used for generating and displaying the real-time generation effect of the proposed customization product; the order management subsystem is connected with the 3D customizing subsystem and is used for generating a customized product order, paying online and inquiring the order by a user; the data center is stored with various data related to 3D scene customization, and the data comprises model component attribute information and a designer information base; the model component attribute information comprises a house type library, a product information database and a paving mode library. The invention realizes the integrated customization service of the user from 3D scene experience → DIY design → order confirmation → order placement.

Description

Customization system for ceramic tiles

Technical Field

The present invention relates to the field of ceramics, in particular to a customization system for ceramic tiles.

Background

With the continuous development of computer network technology, the application range of virtual reality technology is increasingly wide by further combining with mapping technology. And has gained social acceptance with its authenticity and perceptibility. More and more industries are beginning to expand service customization and perform 3D scene display of products. The 3D scene display of the current products also raises a trend in the tile industry. The following lists some common ways of using 3D scene presentations.

1. And (3) rendering the design scheme to achieve a 720-degree scene display effect by a designer through a 3D rendering tool. The user watches the 3D scene display case designed by the designer through code scanning or sharing links.

2. The third-party 3D design platform cooperates with the tile brand to produce 3D scene experience for realizing several house types and several tile replacement functions. In fact, the design between sample plates.

However, the existing 3D scene experience is generally accompanied by several drawbacks.

1. The 3D display design scheme is that pictures made by a rendering tool are used in advance, or a plurality of house types or sample plates for replacing ceramic tiles can be realized, and a customer cannot randomly replace all the desired house types and ceramic tile paving effects. Weak links exist in the aspects of individuation, intellectualization and the like of the service.

2. The 3D scene experience is currently only applied to one service before sale. And the method cannot be well integrated into the overall consumption process of the user. The consumer, designer, and sales person ordering do not form an integrated service.

3. Through a 3D rendering tool, a design scheme is rendered to achieve a 720-degree scene display effect, more time, labor and financial resources are spent, the customer experience before sale is improved, and the existing marketing mode is not broken through.

4. The traditional sales model still focuses on the offline transaction mode.

Disclosure of Invention

In view of the above, the present invention aims to provide a customizing system for ceramic tiles, thereby realizing an integrated customizing service for users from 3D scene experience → DIY design → order confirmation → order placement.

The invention relates to a ceramic tile customization system, comprising: the 3D customizing subsystem is used for customizing a 3D scene; the data center is connected with the 3D customizing subsystem and stores various data related to 3D scene customization; the customization effect real-time generation engine is connected with the 3D customization subsystem 12 and is used for generating and displaying the real-time generation effect of the proposed customization product; the order management subsystem is connected with the 3D customizing subsystem and is used for generating a customized product order, paying online and inquiring the order by a user; the data center is stored with various data related to 3D scene customization, and the data comprises model component attribute information and a designer information base; the model component attribute information comprises a house type library, a product information database and a paving mode library.

According to the invention, the sale integration, convenience, individuation and customization service of the ceramic tile industry can be realized. The method overcomes the defects that the utilization of 3D scene display is limited to pre-sale service at present and users cannot participate in DIY design of a 3D scene customization scheme.

The data also includes a user customized data information base, an order database, a user information base, and a store information base. Therefore, the limitation that the prior art does not connect the design and the ordering link together can be overcome, and meanwhile, the customization system can be bound with corresponding stores, so that the stores are independent from one another and are managed in a flat mode.

The 3D customizing subsystem comprises a 3D model design module, a personalized design menu module and a code scanning and brick changing module. Therefore, personalized display of the 3D scene and replacement of the ceramic tiles can be effectively realized.

And the personalized design menu module generates a ceramic style personalized design menu through the model component attribute information stored in the data center.

The personalized design menu module comprises a house type selection unit and a paving mode selection unit. Therefore, the personalized design of the 3D scene can be realized more effectively by the user.

The customization effect real-time generation engine is used for generating and displaying the real-time effect of the customized product through engine processing based on the data of the user customization data information base of the data center.

Drawings

Fig. 1 shows a schematic block diagram of a customization system for ceramic tiles according to an embodiment of the present invention.

FIG. 2 is a flow chart illustrating an exemplary process for implementing the customization system of the present invention.

Detailed Description

The present invention is further described below in conjunction with the following embodiments and the accompanying drawings, it being understood that the drawings and the following embodiments are illustrative of the invention only and are not limiting thereof.

Fig. 1 shows a schematic block diagram of a customization system for ceramic tiles according to an aspect of the present invention. As shown in fig. 1, the system for customizing a tile according to the present embodiment includes: and the 3D customizing subsystem 12 is used for customizing a 3D scene. The customization system also includes a data center 13 coupled to the 3D customization subsystem 12. In addition, the customization system also includes a customization effect real-time generation engine 14 coupled to the 3D customization subsystem 12 for generating and presenting real-time generated effects of the proposed customized product. In addition, the customization system further comprises an order management subsystem 15 connected with the 3D customization subsystem 12 and used for generating, online paying and inquiring orders of the customized product by users.

The data center 13 stores various data related to the 3D scene customization. In particular, the data center 13 may include a plurality of databases, such as: a house type database 13-3, a product information database 13-1, a paving mode database 13-2, a user customization data information database 13-7, an order database 13-6, a user information database 13-4, a designer information database 13-5, a store information database 13-8 and the like.

Specifically, the house type library 13-3: the nationwide cell house types can be collected by means of offline information collection and online search, and a perfect house type library is formed.

Product information database 13-1: may be used to store product information including, but not limited to: the product name, variety, specification, color number, product detail drawing, design concept, suitable space, product label (new product, explosive money, recommendation and the like), product two-dimensional code, unit price and the like.

Paving mode library 13-2: may be used to store a variety of paving patterns including, but not limited to: rhombus, fishbone, position-supplementing type, I-shaped, herringbone, windmill-shaped, hexagonal, lattice point-shaped, hexagonal, walkway-shaped, stage-shaped, jumping room-shaped and other common paving modes.

User customized data repository 13-7: can be used to store data of products to be customized by users, including but not limited to: house type area, tile product information, number of tiles required for each tile (area/size), etc.

Order database 13-6: may be used to store user order data including, but not limited to: selected tile product information, unit price, quantity, total amount, advance payment, etc.

User information base 13-4: can be used to store user information, for example, user information (name, phone number, address, etc.) will be registered when the user logs into the system.

Designer information base 13-5: can be used for storing designer information, and the designer also needs to register user information (name, mobile phone number, address, etc.) when logging in the system.

Store information base 13-8: may be used to store-related information including, but not limited to: the method comprises the following steps of setting a name of a store, a short name of the store, a contact telephone of the store, an address of the store, a person in charge of the store, a name of a contact person of the store, a two-dimensional code of the store and the like. The method is used for binding corresponding stores by the customization system, and realizes mutual independence and flat management among stores.

The 3D customization subsystem 12 may include a 3D model design module (not shown), a personalized design menu module 12-1, and a scan-and-swap brick module (i.e., scan-and-swap brick 12-2 in FIG. 1). Wherein the 3D model design module is operable to receive a custom model designed by a designer. The custom model may be designed using various existing model design tools. Further, a tile customization system platform 11 is included that interfaces with a 3D customization subsystem 12 via interface 1. "interfacing" in this application is to be understood as connecting/communicating etc. The tile customization system platform 11 functions as an integrated presentation platform for the 3D customization subsystem 12, and in the specific example described below, the 3D customization subsystem 12 is implantable in a sales platform as a WeChat applet. The "WeChat applet" can then serve as the tile customization system platform 11. The designer's customized model may be presented via the tile customization system platform 11 via the 3D customization subsystem 12. In other words, the 3D customizing subsystem 12 is used by being implanted into a platform or system, i.e. the tile customizing system platform 11, such as a platform or system executed in a related terminal device, e.g. a WeChat applet or a computer client.

The personalized design menu module 12-1 described above may also be connected to the data center 13. Specifically, the personalized design menu module 12-1 may generate the ceramic style personalized design menu through model component attribute information (e.g., a house type library, a product information database, a paving manner library) stored in a database of the data center 13. The personalized design menu module 12-1 may interface with the 3D customization subsystem 12 through the interface 4. In addition, the personalized design menu module 12-1 may further include a house type selection unit and a paving mode selection unit, that is, a click event may be bound to a button in the personalized design menu, so that a user can change house types, tiles, and paving modes by definition. Furthermore, a house type library can be added in the data center, a user can position the area by opening the GPS satellite for positioning, and the system automatically pushes the house type information of the nearby cells according to the positioned area. The user can select and replace the house type by himself, and the house type is applied to 3D scene experience.

The code scanning and brick changing module can be used for enabling the code scanning function to be in butt joint with the 3D customizing subsystem 12 through the interface 5, and the code scanning function is achieved. As described in the product information database, each product has a detailed product information introduction, including a product detail drawing, a product two-dimensional code, and the like. Therefore, the user can scan the tile two-dimensional code to acquire the tile information and replace the tile information. Namely, in the present invention, the tile replacement is realized by scanning the tile two-dimensional code. Every ceramic tile all can generate unique two-dimensional code, and the user only needs to click [ sweep the sign indicating number ] in the customized subsystem of 3D, scans the ceramic tile two-dimensional code, can realize the ceramic tile change.

The customization effect real-time generation engine 14 may customize the data of the database based on a user of the data center. The data can be acquired from the data center 13 through the 3D customizing subsystem 12, and the real-time effect generation and display of the customized product are realized through engine processing. There are many existing technologies on the market for generation engines for generation and presentation of effects, such as: an ExaCloud rendering engine, an OGRE3D engine, etc. The effects generated by the custom effects real-time generation engine 14 may be presented into the interface of the 3D customization subsystem 12 through the interface 2.

The order management subsystem 15 may also be coupled to the data center 13. Specifically, after the user completes the 3D custom design, the selected product information may be written to the user custom database. The 3D customizing subsystem 12 displays the final effect of the product through the customizing effect real-time generating engine 14, and then enters the order managing subsystem 15 through the interface 3 to generate the user order and write the user order into the order database. The user may select the online payment to effect the payment of the amount. After the order is confirmed, order inquiry can be carried out, and the order state can be inquired.

Furthermore, the invention has an interactive function, and can distinguish two identities of a designer and a user. On one hand, the designer can upload the designed 3D customized model to the 3D customized subsystem of the marketing platform of the store. The user views the 3D custom model through the 3D custom subsystem. On the other hand, after the user shares the 3D customization effect of the user and gives modification authority to the designer, the designer modifies the 3D scene design scheme of the client according to the requirement of the client and sends the modified scheme back to the user through the interface.

As shown in fig. 2, the following customization methods can be performed using the customization system for ceramic tiles of the present invention: the interface to the 3D customization subsystem may be accessed first, such as the 3D customization subsystem 12 through the tile customization system platform 11; then, the house type can be changed in the house type selection unit of the personalized design menu module 12-1; then, the spreading and pasting mode selection unit of the personalized design menu module 12-1 can be used for scanning codes and changing bricks; then, the order management subsystem 15 generates an order, generates a product list, confirms the order and finally carries out online payment.

The present invention will be described in detail by way of examples. It is also to be understood that the following examples are illustrative of the present invention and are not to be construed as limiting the scope of the invention, and that certain insubstantial modifications and adaptations of the invention by those skilled in the art may be made in light of the above teachings. The specific process parameters and the like of the following examples are also only one example of suitable ranges, i.e., those skilled in the art can select the appropriate ranges through the description herein, and are not limited to the specific values exemplified below.

The detailed implementation steps of the system are exemplified by a WeChat applet sales platform, but the system is not limited to the WeChat applet sales platform, and can also be applied to computer clients.

As an example, the ceramic tile customization system can be implanted into a WeChat applet sales platform, various interactive interfaces of the ceramic tile customization system are integrated in the platform, a seller of the platform serves as a customization service provider of the ceramic tile customization system, a buyer of the platform automatically becomes a customization user of the ceramic tile customization system, and the user can enter the ceramic tile customization system to perform ceramic product personalized online customization through the following steps.

First, the store can become a seller of the sales platform by applying for it. After the application passes, each store generates an independent two-dimensional code. And the designer and the buyer can both scan and register through the two-dimensional code of the store and bind to the same store.

Second, the store designer can upload the designed 3D custom model into the 3D custom subsystem of the store's marketing platform. The user views the 3D custom model through the 3D custom subsystem.

Third, the user performs a 3D scene design experience. The user realizes event triggering through the personalized design menu, and the engine processes to realize generation and display of the real-time effect of the proposed customized product. As shown in fig. 2: 1) the user can position the area by opening the GPS satellite for positioning, and the system automatically pushes the house type information of the nearby cells according to the positioned area. The user can select and replace the house type by himself, and the house type is applied to 3D scene experience. 2) And selecting the ceramic tile to be replaced, clicking to replace the ceramic tile, and replacing. 3) And selecting a tile paving mode to be replaced, clicking a replacing paving effect, and replacing. 3) If the type of the ceramic tile to be replaced does not exist in the menu, the [ code scanning ] is clicked, and the two-dimensional code of the ceramic tile is scanned for replacement.

Fourthly, after the user finishes 3D scene design experience, clicking to determine, and storing the data into a user customized data information base in real time. Because the designer and the user are in the same store's marketing platform, the user can share his/her 3D scene design within the platform. After communicating with the client, the designer modifies the 3D scene design scheme of the client according to the client requirement and shares the modified scheme to the user.

Fifthly, the user completes the 3D custom design through the operations of the above steps. After the user clicks the [ generate order ], the system jumps to a custom order management subsystem interface, forms a list of product models, specifications, color numbers, paving areas, color numbers, unit prices, total money and subscription applied in the 3D custom design scheme of the user, and writes the list into an order database. The user clicks again [ confirm order, and pay ], after payment, the order takes effect. After the order takes effect, the user may query the order execution progress.

The data communication between the systems can use SOAP/XML/JSON for data exchange, but the invention is not limited to the method.

According to the invention, after a customer enters a store and scans a code, all processes are in platform docking on one line. The method comprises the steps of 3D scene design display, online communication, DIY design, final scheme confirmation, order submission and online payment. The invention can be applied to all online marketing platforms. Full O2O mode operation is achieved.

As the present invention may be embodied in several forms without departing from the spirit of essential characteristics thereof, the present embodiments are therefore illustrative and not restrictive, since the scope of the invention is defined by the appended claims rather than by the description herein, and all changes that fall within metes and bounds of the claims, or equivalence of such metes and bounds thereof are therefore intended to be embraced by the appended claims.

Claims (4)

1. A customization system for ceramic tiles, comprising:

the 3D customizing subsystem is used for customizing a 3D scene;

the data center is connected with the 3D customizing subsystem and stores various data related to 3D scene customization;

the customization effect real-time generation engine is connected with the 3D customization subsystem and is used for generating and displaying the real-time generation effect of the proposed customization product; and

the order management subsystem is connected with the 3D customizing subsystem and is used for generating a customized product order, paying online and inquiring the order by a user;

the data center is stored with various data related to 3D scene customization, and the data comprises model component attribute information, a designer information base, a user customization data information base, an order database, a user information base and a store information base;

the model component attribute information comprises a house type library, a product information database and a paving mode library; the house type library is improved by collecting the house types of nationwide cells in an offline information acquisition and online search mode, and a user positions the region by opening a GPS satellite and automatically pushes the house type information of nearby cells according to the positioned region;

the designer information base is used for storing designer information, and when a designer logs in the system, user information needs to be registered; the user information base is used for storing user information, and the user information is registered when the user logs in the system; the store information base is used for storing store related information, and the store related information comprises a store two-dimensional code; a designer and a user register through a code scanning store two-dimensional code, the same store is bound, the designer bound with the store can upload a designed 3D customized model to the 3D customized subsystem of the store, on one hand, the user bound with the uniform store can view the 3D customized model through the 3D customized subsystem, on the other hand, the user can share the 3D customized effect of the user and give a modification authority to the designer, the designer modifies the 3D scene design scheme of the user according to the user requirement, and sends the modified scheme back to the user;

the product information database is used for storing product information, and the product information comprises a product two-dimension code;

the 3D customizing subsystem comprises an individualized design menu module and a code scanning and brick changing module, wherein the individualized design menu module comprises a house type selecting unit and a paving mode selecting unit; the code scanning and brick changing module is used for enabling a user to obtain ceramic tile information through scanning the ceramic tile two-dimensional code and carrying out replacement.

2. The system of claim 1,

the 3D customization subsystem includes a 3D model design module for receiving a customized model designed by a designer.

3. The system of claim 1,

and the personalized design menu module generates a ceramic style personalized design menu through the model component attribute information stored in the data center.

4. The system of claim 1,

the customization effect real-time generation engine is used for generating and displaying the real-time effect of the customized product through engine processing based on the data of the user customization data information base of the data center.

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