KR20150100419A - Manufacturing method of customized abutment using internet system - Google Patents

Abstract

The present invention relates to a method of manufacturing a customized abutment abutment for dentistry using a dental use terminal, a pneumatic use terminal, and a processor terminal for an abdominal cavity manufacturing Internet system connected via the Internet, A data input step; A design data input step of receiving customized three dimensional (3D) design data from a piercing terminal; A viewer file transmission step of generating a three-dimensional viewer file from the received three-dimensional design data and transmitting the three-dimensional viewer file to a user terminal of a dental office; A design confirm step of receiving a design decision or design modification from the use terminal of the dentist and receiving the design decision; And a definite design transmitting step of transmitting the determined three-dimensional design data to the processor terminal when the design confirmation is inputted in the design confirm stage. When the design modification is selected in the design confirm stage, The data input step, the viewer file transfer step, and the design conform step are repeated.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of manufacturing a customized abutment abutment for dental use using the Internet,

More particularly, the present invention relates to a method of manufacturing a customized abutment abutment for dental use which can quickly and accurately manufacture a custom abutment abutment by connecting a dentist, a technician, and an abutment abutment processor using the Internet .

The dental customized zone is made by the technician according to the request of the dentist.

Due to the development of processing technology, the proportion of using custom CADs and CAD (CAM) processing equipment is increasing.

Related prior arts are Korean Patent Laid-Open Publication No. 10-2010-0090564 (published on Aug. 16, 2010) 'abutment for implant and its manufacturing method'.

An object of the present invention is to provide a method of manufacturing a customized abutment for dentistry by connecting a dentist, a technician, and an abutment processor to manufacture a custom abutment according to a prescription of a dentist and a design of a technician.

The present invention relates to a method of manufacturing a customized abutment abutment for dentistry using a dental use terminal, a pneumatic use terminal, and a processor terminal for an abdominal cavity manufacturing Internet system connected via the Internet, A data input step; A design data input step of receiving customized three dimensional (3D) design data from a piercing terminal; A viewer file transmission step of generating a three-dimensional viewer file from the received three-dimensional design data and transmitting the three-dimensional viewer file to a user terminal of a dental office; A design confirm step of receiving a design decision or design modification from the use terminal of the dentist and receiving the design decision; And a definite design transmitting step of transmitting the determined three-dimensional design data to the processor terminal when the design confirmation is inputted in the design confirm stage. When the design modification is selected in the design confirm stage, The data input step, the viewer file transfer step, and the design conform step are repeated.

The pore preparation request data input in the request data input step may include patient information, a tooth position, an abutment material, a final prosthesis material, an adjacent value and a matching value information, and a margin line position information.

Preferably, the pore water production request data is formed so as to be manageable by an electronic chart for each patient,

The pore water production request data may further include a mouth scan three-dimensional image in which a patient's mouth is scanned.

In the design data input step, the impression-taking scan three-dimensional image data obtained by three-dimensionally scanning the impression data with the customized circumferential three-dimensional design data can be received.

It is preferable that the pore data production request data and the design data are stored in a database so that they can be read by the dental use terminal, the pore usage terminal, and the processor terminal.

When the design modification is selected in the design data compilation step, it is desirable that the modification request data can be additionally input.

An abutment manufacture step of manufacturing a customized abutment through cutting or three-dimensional printing from the determined three-dimensional design data after the definite design transfer step.

The present invention enables a dentist to easily and quickly manufacture a customized abutment according to the prescription of a dentist and the design of a technician by connecting a dentist, a technician, and an abutment processor to exchange necessary information with each other .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram illustrating a configuration of an Internet system for preparing an abutment for a dental personalized abutment abutment method according to an embodiment of the present invention;
2 is a flowchart illustrating a method of manufacturing a custom dental abutment according to an embodiment of the present invention.
Figs. 3 to 5 are views showing exemplary forms of a viewer file. Fig.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or preliminary meaning and the inventor shall appropriately define the concept of the term in order to best explain its invention It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention. It should be noted that the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, It should be understood that various equivalents and modifications are possible.

1 is a block diagram illustrating the construction of an Internet system for preparing an abutment for a dental personalized abutment abutment method according to an embodiment of the present invention.

As shown in the figure, in the Internet system for manufacturing an abutment for use in the present invention, the dental use terminal 10, the pore use terminal 20, and the processor terminal 30 are connected through the Internet server 50.

Also, the Internet server 50 is provided with a database capable of storing data input from the dental use terminal 10 and the pore usage terminal 20. [

The customized zone is designed to be manufactured by a dental practitioner according to the request of a dentist. Due to the recent development of processing technology, manufacturing through processing equipment is increasing rather than manufacturing of a technician.

The equipment used in the manufacture of custom abutment cores includes precision cutting equipment and three-dimensional printer equipment, which produce three-dimensional workpieces from three-dimensional design data.

However, since the cost of these equipments is high, it is advantageous from the viewpoint of costs that technicians entrust themselves to the processing company without purchasing the equipment directly.

The present invention is intended to provide a method for manufacturing a customized abutment for dentistry that can be usefully applied to such consignment manufacture.

2 is a flowchart illustrating a method of manufacturing a custom dental abutment according to an embodiment of the present invention.

As shown in the figure, the method of manufacturing a dental personalized abutment according to the present invention includes the step of inputting a request data (S110), a step of inputting a design data (S120), a step of transferring a viewer file (S130) S140), a definite design transmission step S150, and an abutment manufacture step S160.

The request data input step (S110) is performed through the use terminal (10) of the dentist, and is performed through professional judgment of the dentist in the oral condition of the patient.

The request data input through the request data input step (S110) includes patient information, tooth position, abutment material, final prosthesis material, adjacent value and reference value information, and margine line position information.

Here, the patient information may include the name, sex, age, etc. of the patient.

Abdominal material data can be selected by selection from commonly used abutment materials such as titanium (Ti) and titanium-based zirconia (Zirconia).

The final restorative material data can be entered in a selection of commonly used crown materials such as gold crown, metal occ (PFM), full porcelain, zirconia.

The adjacency value and the correspondence information can be inputted in such a manner that duplicate selection is possible among items such as antecedent to be deleted, adjacency value to be deleted, extraction (scheduled to be extracted), comparison prosthesis scheduled, adjacent tooth prosthesis scheduled,

In addition, the pore data creation request data may further include a mouth scan three-dimensional image in which a patient's mouth is scanned.

In the case of a dentist having an intra-oral scanner, the patient's oral condition is scanned in a three-dimensional image through an intraoral scanner at the time of patient treatment. By using such oral environment data, To help.

It is preferable that the pore water production request data is formed so as to be manageable by an electronic chart for each patient so that the dental use terminal can be frequently browsed and supplemented according to the patient's treatment process.

The design data input step (S120) is performed from the plow use terminal, and is a step of inputting the customized three-dimensional design of the customized zone designed by the engineer from the request data.

In the design data input step (S120), the impression-gathering scan three-dimensional image data obtained by three-dimensionally scanning the impression contents (the oral cavity model of the patient) received from the dentist can be further input.

In other words, the three-dimensional image of the customized zone-based image designed by the technician and the three-dimensional image data of the oral environment of the patient are all input, and the synthesized image is input.

After the viewer file is generated from the three-dimensional design image of the oral environment of the patient and the three-dimensional design data of the customized zone image, the viewer file transmission step (S130) is performed to transmit the viewer file to the dental use terminal.

The viewer file is preferably a form that can be confirmed by rotating the three-dimensional image in a desired direction.

The design conform stage S140 is performed in the terminal for dental use. The design conform stage S140 is input in a manner selected from design confirmation and design modification, and modification request data may be further input when design modification is selected.

At this time, the modification request data may be a modification part of the pore production request data, or may be another modification request data.

When the design confirmation is selected in the design confirmation step S140, a definite design transmission step S150 is performed in which the determined three-dimensional design data is transmitted to the processor terminal.

After the definite design transfer step S150, an abutment stock manufacturing step S160 is performed in which a custom abutment is manufactured using a processing facility in accordance with the confirmed design.

In the abutment manufacture step S160, the abutment abutment corresponding to the definite design data may be manufactured by performing the cutting process from the determined design data, or the abutment abutment may be manufactured using the three-dimensional printing technique.

When the design modification is selected in the design confirmation step S140, the modification request data is transmitted to the pseudo-use terminal, and the design data is again input from the pseudo-use terminal. In other words, the design data input step (S120), the viewer file transfer step (S130), and the design confirm step (S140) are repeated until the design confirmation is input.

The above-described pore water production request data and design data are preferably stored in a database so that they can be browsed at a dental use terminal, a pore use terminal, and a processor terminal.

FIGS. 3 to 5 illustrate exemplary viewer file formats.

Fig. 3 shows an image seen from the outside of the mouth, and Fig. 4 shows an image seen from the outside of the mouth. As shown, the three-dimensional image of the patient's oral environment and the confirmed three-dimensional image of the abdomen are displayed together and can be rotated and confirmed in a desired direction.

4, the crown may be displayed together with the abutment, or the crown may be removed and the region of the abutment may be displayed as shown in Fig.

It is to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and the scope of the present invention will be indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as any equivalents thereof, be within the scope of the present invention.

10: Dental use terminal
20:
30: Processor terminal
50: Internet server
S110: Request data input step
S120: Design data input step
S130: viewer file transfer step
S140: Design Confirm Phase
S150: Confirmed design transmission step
S160: Abacus preparation step

Claims (8)

1. A method for manufacturing a dental personalized abutment using a dental use terminal, a dental use terminal, and an internet system for manufacturing a dental implant,
A request data input step of receiving pore water production request data from a dental use terminal;
A design data input step of receiving customized three dimensional (3D) design data from a piercing terminal;
A viewer file transmission step of generating a three-dimensional viewer file from the received three-dimensional design data and transmitting the three-dimensional viewer file to a user terminal of a dental office;
A design confirm step of receiving a design decision or design modification from the use terminal of the dentist and receiving the design decision; And
And a definite design transmitting step of transmitting the determined three-dimensional design data to the processor terminal when the design confirmation is input in the design confirm stage,
Wherein when the design modification is selected in the design confirmation step, the design data input step, the viewer file transfer step, and the design confirmation step are repeated.
The method according to claim 1,
The pore water production request data input in the request data input step
A patient's information, a tooth position, an abutment material, a final prosthesis material, an adjacent value and a correspondence information, and a margin line position information.
3. The method of claim 2,
Wherein the pore water production request data is formed so as to be manageable by an electronic chart for each patient.
3. The method of claim 2,
The pore water production request data includes
The method of claim 1, further comprising a mouth scan three-dimensional image of the patient's mouth.
The method according to claim 1,
The design data input step
Customized Zone with Attention 3D Design Data
Dimensional image data obtained by scanning the impression contents three-dimensionally and inputting the impression-determined scanned three-dimensional image data.
The method according to claim 1,
The pore water production request data and the design data are stored in a database,
Wherein the dental use terminal, the pore use terminal, and the processor terminal can be read by the user.
The method according to claim 1,
In the design data complaint step
Wherein when the design modification is selected, the modification request data is further input.
The method according to claim 1,
After the definite design transmission step,
Further comprising the step of fabricating a custom abutment abutment through cutting or three-dimensional printing from the determined three-dimensional design data.

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