WO2019091255A1 - Porous-structure implant design system - Google Patents

Abstract

A porous-structure implant design system, comprising a service layer and a resource layer connected to each other and in interactive communication. The service layer is provided with a porous-structure unit cell selection service, a porous-structure unit cell parameter setting service, and a dental implant selection service. The resource layer is provided with a porous-structure unit cell model database, a dental implant model database, three-dimensional modeling design software, and a service program. The system invokes data of the porous-structure unit cell model database and the dental implant model database by using the service program, a user then initiates an instruction by using the service layer according to actual requirements, the service program invokes an application API program of the three-dimensional modeling design software to perform professional modification on a dental implant model, thereby meeting the requirements of the user. Therefore, a user having no professional operational three-dimensional software can conveniently obtain a porous-structure implant in time, and a commission design process is gotten rid of, the system is thus widely available to dentists.

Description

 Porous structure implant design system

Technical field

The present invention relates to a CAD-based porous structure implant design system.

Background technique

Since most doctors do not operate professional 3D software, in the existing customized designs of porous implants, the design requirements are generally provided for doctors, and professional designers are entrusted to model. Such a modeling method is prone to missing information and transmission errors in the delegation process, which not only increases the difficulty of design, but also increases design time and quality.

Summary of the invention

In view of the above drawbacks, the present invention creates a porous structure implant design system that facilitates the design of a porous structure implant model by a physician who does not operate professional three-dimensional software.

The solution to solve the technical problem of the present invention is: a porous structure implant design system, which is a service integration application platform based on a high-level programming language, comprising: a service layer and a resource layer that are connected and exchanged with each other, The business layer is provided with: a porous structural unit body selection service, a porous structural unit body parameter setting service, a dental implant selection service, the resource layer is provided with a porous structural unit body model database, a dental implant model database, and a three-dimensional modeling design. Software, a service program, the service program is configured to respond to the request of the business layer, call the data of the porous structural unit model database, the dental implant model database, and the application API program of the three-dimensional modeling design software Complete the request.

Further, the porous structural unit body selection service comprises: a selection of a regular body of a regular structure of a regular structure of a regular structure such as a regular hexahedral porous structure, a honeycomb porous structure, a regular dodecahedral porous structure, and a lens porous structure.

Further, the porous structure unit body parameter setting service includes: a unit body length, a width, a high parameter setting, a hole wall thickness setting, and an array number setting in three directions of X, Y, and Z.

Further, the high-level programming language is one of Visual Basic, C, C++.

Further, the three-dimensional modeling design software is one of SolidWorks, UG, Pro/ENGINEER.

The invention has the beneficial effects that the system uses the service program to call the data of the porous structural unit model database and the dental implant model database, and then the user uses the business layer to initiate an instruction according to actual needs, and the service program invokes the application of the three-dimensional modeling design software. The API program modifies the dental implant model to complete the porous dental implant model design to meet the needs of users, so that users who do not have professional operation of three-dimensional software can easily and timely acquire porous structure implants, and remove the commissioning design process. The system is widely available to dentists.

DRAWINGS

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is apparent that the described drawings are only a part of the embodiments of the present invention, and not all of the embodiments, and those skilled in the art can obtain other designs and drawings according to the drawings without any creative work.

Figure 1 is a schematic view showing the structure of the system of the present invention.

Detailed ways

The concept, the specific structure and the technical effects of the present invention will be clearly and completely described in conjunction with the embodiments and the accompanying drawings. It is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments, based on the embodiments of the present invention, other embodiments obtained by those skilled in the art without creative efforts belong to The scope of protection of the present invention. In addition, all the coupling/joining relationships mentioned in the text are not directly connected to the components, but rather may constitute a better coupling structure by adding or reducing the coupling accessories according to the specific implementation. The various technical features in the creation of the invention can be combined and combined without conflicting conflicts.

Embodiment 1, with reference to FIG. 1, a porous structure implant design system, which is a service integration application platform based on a high-level programming language, comprising: a service layer and a resource layer interconnected and interactively communicated, the service layer There are: a porous structural unit body selection service, a porous structural unit body parameter setting service, a dental implant selection service, the resource layer is provided with a porous structural unit body model database, a dental implant model database, a three-dimensional modeling design software, and a service. a program for invoking a request of the business layer, calling data of the porous structural unit model database, a dental implant model database, and an application API program of the three-dimensional modeling design software to complete the Request, the high-level programming language is Visual One of Basic, C, C++, this embodiment uses Visual Basic, the three-dimensional modeling design software is one of SolidWorks, UG, Pro/ENGINEER, and the three-dimensional modeling design software of this embodiment adopts SolidWorks In 2014, the porous structural unit body selection service includes: a regular hexahedral porous structure, a honeycomb porous structure, a regular dodecahedral porous structure, and a unit cell selection of a crystalline porous structure. The porous structure unit body parameter setting service includes: a unit body length, a width, a high parameter setting, a hole wall thickness setting, and an array number setting in three directions of X, Y, and Z. The porous structural unit model database stores: a hexahedral porous structure, a honeycomb porous structure, a regular dodecahedral porous structure, a unitary body model of a crystalline porous structure; the dental implant model database stores: commonly used dental implants Solid model of the body.

This system utilizes Visual Basic design visual interface, the visual interface has an interface button and an interaction window for linking the business layer. When the user needs to design the porous structure implant, firstly, the porous structure unit body selection service is issued by clicking the link button on the visual interface. Command, select the corresponding porous structural unit body (including regular hexahedral porous structure, honeycomb porous structure, regular dodecahedral porous structure, crystalline porous structure), the service program obtains instructions and retrieves SolidWorks 2014 application function CommonDialog1.Filter Access the porous structural unit model database and find the user-selected model, such as the unitary body model of the regular hexahedral porous structure, and use the EModelViewControl control to display in the interactive window, so that the user can intuitively understand the model, and at the same time, visualize The interface of the connection unit body parameter setting service interface is displayed on the interface, and the user can send a service request of the unit body parameter by using the input box, wherein the requested service includes: unit length, width, height parameter setting, hole wall thickness setting, The number of arrays in the X, Y, and Z directions is set, and the service program calls SolidWorks. The application function part.EditRebuild of 2014 responds to the request and reconstructs the unit body model. The reconstructed model is displayed in the interactive window through the EmodelViewControl control. For the convenience of description, we will refer to the reconstructed unit model as a porous structure model. At the same time, the service program uses SolidWorks through the association between the size parameters and dimensions of the porous structure model. 2014 application function swModelDoc.Extension.CreateMassProperty The volume of the porous structure model is obtained, thereby calculating the porosity and elastic modulus that the user pays attention to during design, and these parameters are displayed in the interactive window through the EmodelViewControl control. Through these parameters, the user can intuitively know the modeling of the porous structure model.

After the user is satisfied with the porous structure model, the dental implant selection business instruction can be issued by clicking the interface button of the dental implant selection service, the service program acquires the instruction and accesses the dental implant model database and calls up the dental implant. The model, wherein the dental implant model database includes a solid model of a common dental implant, the user can select the model of the dental implant model and determine which dental implant model is required, after the user confirms the model, the service program passes SolidWorks The 2014 application function part.FeatureManager.InsertMoveCopyBody2 combines the porous structure model with the solid model of the dental implant, and finally through SolidWorks The 2014 application function InsertCombine performs Boolean operations to generate a porous structure implant and displays it in an interactive window using the EModelView function.

The system uses the service program to call the data of the porous structural unit model database and the dental implant model database, and then the user uses the business layer to initiate an instruction according to actual needs, and the service program calls the application API program of the three-dimensional modeling design software to the dental implant. The model is professionally modified to meet the needs of users, so that users who do not have professional operation of 3D software can easily and timely acquire the porous structure implant and remove the entrusted design process. The system can be widely used by dentists.

The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to the embodiments, and various equivalent modifications or substitutions can be made by those skilled in the art without departing from the spirit of the invention. Such equivalent modifications or alternatives are intended to be included within the scope of the claims.

Claims (5)

A porous structure implant design system is characterized in that it is a service integration application platform based on a high-level programming language, comprising: a service layer and a resource layer connected and communicating with each other, the service layer is provided with: a porous structure a unit body selection service, a porous structure unit body parameter setting service, a dental implant selection service, the resource layer is provided with a porous structure unit body model database, a dental implant model database, a three-dimensional modeling design software, a service program, The service program is responsive to the request of the business layer, invoking data of the porous structural unit model database, the dental implant model database, and an application API program of the three-dimensional modeling design software to complete the request. The porous structure implant design system according to claim 1, wherein the porous structure unit body selection service comprises: a regular hexahedral porous structure, a honeycomb porous structure, a regular dodecahedral porous structure, and a lens porous structure. The choice of unit cell. The porous structure implant design system according to claim 2, wherein the porous structure unit body parameter setting service comprises: unit body length, width, height parameter setting, hole wall thickness setting, X, Y , Z number of arrays in three directions. A porous structure implant design system according to any one of claims 1 to 3, wherein the high-level programming language is Visual One of Basic, C, C++. The porous structure implant design system according to claim 4, wherein the three-dimensional modeling design software is one of SolidWorks, UG, and Pro/ENGINEER.