KR-20260062356-A - METHOD AND SYSTEM FOR PROVIDING PROSTHESIS DESIGN SERVICES BASED ON AN ALL-IN-ONE DENTAL PROCESSING MACHINE

Abstract

A method for providing a prosthetic design service based on an all-in-one dental processor according to an embodiment of the present invention is a method in which a computing system including memory and a processor provides a prosthetic design service based on an all-in-one dental processor, comprising: a step of displaying at least one oral data stored in a cloud server; a step of determining a first tooth in an oral model displaying the oral data; a step of obtaining prosthetic design information for the determined first tooth; a step of generating a virtual prosthetic design according to the prosthetic design information based on a prosthetic design interface; a step of generating processing data for producing the generated virtual prosthetic design; and a step of controlling the all-in-one dental processor to start a prosthetic manufacturing process based on the processing data.

Inventors

• 이중수
• 사용재
• 조덕은
• 임용현

Assignees

• 주식회사 디디에스

Dates

Publication Date

20260507

Application Date

20241029

Claims (10)

1. A method in which a computing system including memory and a processor provides a prosthetic design service based on an all-in-one dental processing machine, A step of displaying at least one oral data stored on a cloud server; A step of determining a first tooth in an oral model displaying the above oral data; A step of obtaining prosthetic design information for the first tooth determined above; A step of generating a virtual prosthesis design based on the prosthesis design information according to the prosthesis design interface; A step of generating processing data for producing the above-mentioned virtual prosthesis design; and A step of controlling the all-in-one dental processor to start a prosthesis manufacturing process based on the above processing data; A method of providing prosthetic design services based on an all-in-one dental processing machine.
2. In Article 1, The step of displaying at least one oral data above is, The step of obtaining first oral data including oral scan data, oral details, and patient personal information for the first patient uploaded to the cloud server, and A step comprising displaying patient personal information matched to the first oral data on the display of the all-in-one dental processor. A method of providing prosthetic design services based on an all-in-one dental processing machine.
3. In Article 2, The step of determining the first tooth for the above-mentioned first oral data is, A step of extracting first oral scan data included in the first oral data, and The step of capturing the extracted first oral scan data at a first angle and saving it as a first oral image, and The step of displaying the stored first oral image on the display of the all-in-one dental processor, and A step comprising determining the tooth where touch input is detected in the first oral image shown above as the first tooth. A method of providing prosthetic design services based on an all-in-one dental processing machine.
4. In Article 1, The step of obtaining prosthetic design information for the first tooth is, It includes a step of obtaining prosthetic design information from a prosthetic design AI model by linking with an AI server, and The above-mentioned AI model for prosthetic design is, An artificial intelligence model that takes a first tooth and oral data matched to the first tooth as input data and prosthetic design information for the first tooth as output data, and The above prosthetic design information is, Includes at least one parameter among the tooth area to be restored, prosthesis type, margin line, insertion axis, internal parameters of the prosthesis, prosthesis size, tooth alignment direction, side arch line, and tooth number of the prosthesis to be restored. A method of providing prosthetic design services based on an all-in-one dental processing machine.
5. In Article 1, The step of generating a virtual prosthesis design based on the above prosthesis design information is: A step of converting a virtual prosthesis design represented by 3D prosthesis modeling data into a viewpoint image, and The step of displaying the converted view point image on the display of the all-in-one dental processing machine, and A step comprising changing the virtual prosthesis design according to user input detected based on the above prosthesis design interface. A method of providing prosthetic design services based on an all-in-one dental processing machine.
6. In Article 5, The step of converting the above virtual prosthesis design into a viewpoint image is, A step comprising generating a viewpoint image by restricting the visualization range of the above-mentioned prosthesis 3D modeling data, which is capable of 3D viewing from all angles, so that 3D viewing is possible only at at least one pre-set viewpoint. A method of providing prosthetic design services based on an all-in-one dental processing machine.
7. In Article 1, The step of generating the above processed data is, It includes a step of obtaining processing data from a prosthetic processing AI model by linking with an AI server, and The above artificial intelligence model for prosthetic processing is, It is an artificial intelligence model that uses prosthetic design information as input data and processed data as output data, and The above processed data is, A tool comprising at least one parameter among the name, shape, type, orientation, thickness, and dimension of a tool comprising at least one of a bur, a block, and a sprue. A method of providing prosthetic design services based on an all-in-one dental processing machine.
8. In Article 1, The step of generating the above processed data is, The step of visualizing the above processing data and displaying it on the display of the all-in-one dental processing machine, and A step comprising changing the processing data according to user input detected based on a prosthetic processing interface A method of providing prosthetic design services based on an all-in-one dental processing machine.
9. In Article 7, The step of controlling the all-in-one dental processor to start the above-mentioned prosthesis manufacturing process is, A step of recognizing the tool tagged to the all-in-one dental processing machine based on near-field communication, and A step of comparing a first tool matched to the first step of the above-mentioned prosthesis manufacturing process with the recognized tool, and A step comprising controlling the all-in-one dental processing machine to start the first step when the first tool and the recognized tool match. A method of providing prosthetic design services based on an all-in-one dental processing machine.
10. At least one memory; and An all-in-one dental processing machine comprising at least one processor that reads at least one application stored in the memory and provides a prosthetic design service; The instructions of the above processor are, Acquire oral data that is the target of the work, and Display an oral model using the oral data obtained above, and Determine the first tooth in the oral model shown above, and Obtain prosthetic design information for the first tooth determined above, and Based on the prosthetic design interface, a virtual prosthetic design according to the above prosthetic design information is generated, and Generate processing data for manufacturing the above-mentioned virtual prosthesis design, and Controlling the all-in-one dental processor to start the prosthesis manufacturing process based on the above processing data A system that provides prosthetic design services based on an all-in-one dental processing machine.

Description

Method and System for Providing Prosthetic Design Services Based on an All-in-One Dental Processing Machine The present invention relates to a method and system for providing a prosthetic design service that provides a prosthetic design UI (User Interface) as a display of an all-in-one dental processing machine that minimizes data throughput using cloud computing, and enables the virtual prosthetic designed with the provided UI to be actually processed through the processing machine. Impression taking in the dental prosthetic fabrication process is an important clinical step that serves as the foundation for diagnosing the patient, establishing future treatment plans, and fabricating accurate prosthetics by capturing the condition of oral teeth and tissues onto an impression material. In the past, impression taking was performed manually using plaster or the like, but recently, active development is underway for a prosthetic production system that digitally scans the oral cavity using an oral scanner, displays the scanned oral data as a 3D model, designs dental prosthetics on a computer based on the 3D oral model, and produces the designed prosthetics. In particular, attention is focused on prosthetic design technology that displays oral images modeled in prosthetic production systems in a way that is easy for users to recognize, and enables the easy design of precise and aesthetically pleasing prosthetics using these displayed images. However, conventional prosthetic design systems had a procedure in which a prosthetic was designed in detail using a CAD (Computer Aided Design) or CAM (Computer Aided Manufacturing) program on a machine separate from the processing machine, and a file for the designed prosthetic had to be transmitted separately to the processing machine. At this time, the prosthetist had to manually determine the elements for tooth fabrication, such as the bur, block, type, size, and angle of the prosthesis to be used when fabricating the prosthesis, depending on the user's oral condition, so it took a long time to design the prosthesis. In addition, since files based on CAD and/or CAM are rendered down to very detailed areas for all modeled teeth, their size is very high, which causes a long time to be required for the separate transmission procedure to the machine tool and increases the probability of errors occurring during transmission. In order to solve these problems, there is an urgent need for an invention of an all-in-one dental processing machine that utilizes the machine's display to design a prosthesis for a user's oral cavity through AI or manual operation by a prosthesis maker, and immediately processes the designed prosthesis. FIG. 1 illustrates an example of a block diagram of a computing system that provides a prosthetic design service based on an all-in-one dental processor according to an embodiment of the present invention. FIG. 2 illustrates an example of a block diagram of a computing device, which is one of the components of a computing system that provides a prosthetic design service based on an all-in-one dental processor according to an embodiment of the present invention. FIG. 3 illustrates an example of a block diagram in another aspect of a computing device, which is one of the components of a computing system that provides a prosthetic design service based on an all-in-one dental processor according to an embodiment of the present invention. FIG. 4 is a flowchart illustrating a method for providing a prosthetic design service based on an all-in-one dental processing machine according to an embodiment of the present invention. FIG. 5 is an example of an oral image provided through a prosthetic design interface according to an embodiment of the present invention. FIG. 6 is a conceptual diagram illustrating a virtual prosthesis design converted into a viewpoint image according to an embodiment of the present invention. FIGS. 7 and FIGS. 8 are examples of virtual prosthetic designs provided through a prosthetic design interface according to an embodiment of the present invention. FIG. 9 is an example of processing data provided through a prosthetic processing interface according to an embodiment of the present invention. The present invention is capable of various modifications and may have various embodiments; therefore, specific embodiments are illustrated in the drawings and described in detail in the detailed description. The effects and features of the present invention, and the methods for achieving them, will become clear by referring to the embodiments described in detail below together with the drawings. However, the present invention is not limited to the embodiments disclosed below but can be implemented in various forms. In the following embodiments, terms such as "first," "second," etc., are used not in a limiting sense but for the purpose of distinguishing one component from another. Furthermore, singular expressions include plural expressions unless t