KR20190130209A - Method for manufacturing mouthpiece type transparent pressure brace and mouthpiece type transparent pressure brace manufactured by the same - Google Patents

Abstract

The present invention is to provide a method for manufacturing a mouthpiece type transparent pressure brace and a mouthpiece type transparent pressure brace manufactured thereby, which can reduce the number of manufacturing processes by automatically generating pressure projections in a transparent brace device without a separate manual operation. The method for manufacturing a mouthpiece type transparent pressure brace comprises the steps of: acquiring tooth image information on an examinee′s teeth; acquiring a plurality of three-dimensional tooth object data from the tooth image information; acquiring three-dimensional orthodontic device data by generating a pressure groove for at least one piece of the three-dimensional tooth object data; generating an orthodontic model based on the three-dimensional orthodontic device data; and forming a mouthpiece-type transparent pressure brace by using the orthodontic model.

Description

METHOD FOR MANUFACTURING MOUTHPIECE TYPE TRANSPARENT PRESSURE BRACE AND MOUTHPIECE TYPE TRANSPARENT PRESSURE BRACE MANUFACTURED BY THE SAME}

The present invention relates to a method for producing a mouthpiece-type transparent pressure brace, and a mouthpiece-type transparent pressure brace.

The transparent dental orthodontic device is a orthodontic device called "clear aligner" and is formed in the form of a mouthpiece made of thin and transparent plastic material so that teeth can be straightened without using wires and brackets that have an unsightly appearance. One of the most widely used calibration devices

Transparent dental orthodontic device is made of a transparent material does not give aesthetic discomfort, so it is getting a great response to general adult patients and office workers, but the manufacturing process is complicated. In other words, the transparent brace is generally 3D scanning the dental bone of the dental patient, after forming the tooth bone based on the 3D scanning data, manufacturing a transparent dental orthodontic device using the tooth bone, and then transparent through several manual operations The pressure protrusions are formed on the orthodontic device, thereby completing.

As described above, in manufacturing the transparent dental orthodontic apparatus provided with such a pressurizing protrusion, the manufacturing process is complicated, and thus there is a problem that the manufacturing cost increases.

Therefore, the present invention is to produce a pressurized projection in the transparent calibration device automatically without a separate manual work, the method of manufacturing a mouthpiece-type transparent pressure calibrator can be reduced by reducing the number of manufacturing process and the mouthpiece type manufactured thereby It is to provide a transparent pressure calibrator.

In order to solve the above problems, a method for manufacturing a mouthpiece type transparent pressure corrector, which is an embodiment of the present invention, includes: acquiring dental image information on a patient's tooth; Acquiring a plurality of three-dimensional tooth object data from the tooth image information; Acquiring three-dimensional orthodontic device data by generating pressure grooves for at least one of the three-dimensional tooth object data; Generating a orthodontic model based on the three-dimensional orthodontic device data; And forming a mouthpiece-type transparent pressure brace having a pressing protrusion using the tooth orthodontic model.

The acquiring three-dimensional orthodontic device data by generating a pressing groove with respect to at least one of the three-dimensional dental object data may include: obtaining standard dental information; Generating correction information by comparing the standard tooth information with the 3D tooth object data; And determining position information and size information of the pressing groove based on the calibration information, and generating the pressing groove information using the same.

Here, the calibration information may include rotation information and moving distance information.

Here, the step of forming a mouthpiece-type transparent pressure corrector having a pressing protrusion by using the dental orthodontic model, by placing a transparent soft sheet on the dental orthodontic model and pressurized vacuum forming a pressing projection corresponding to the pressing groove And forming a mouthpiece-type transparent pressure brace.

The acquiring three-dimensional orthodontic device data by generating a pressure groove with respect to at least one of the three-dimensional tooth object data may include: storing the tooth attachment information; Generating the pressure groove information using the tooth attachment information; And acquiring the three-dimensional orthodontic device data by adding the pressing groove information to the three-dimensional tooth object data.

The generating of the pressing groove information by using the tooth attachment information may include generating reversed-phase information of the tooth attachment centering on the tooth attachment surface of the 3D tooth object data to generate the pressing groove information. It may comprise the step of generating.

Another embodiment of the present invention, the mouthpiece-type transparent pressure corrector includes: a mouthpiece-type transparent housing having a dental groove; And a pressing protrusion formed inside the dental groove, and may be manufactured by any one of the above-described methods.

Here, the pressing protrusion may be applied to the rotational force on the tooth in place of the tooth attachment.

Here, the pressing protrusion may include a first pressing protrusion formed on the lingual side of the dental groove, and a second pressing protrusion formed on the forward side of the dental groove.

According to an embodiment of the present invention having the above-described configuration, by forming the pressing groove in advance during the generation of the three-dimensional calibration device data, the transparent pressure calibrator will automatically have a pressing projection, thereby reducing the number of manufacturing processes, The manufacturing cost can be lowered.

In addition, according to an embodiment of the present invention, the shape and size of the pressing protrusion may be appropriately formed in advance by using the present tooth state and standard tooth data of the patient, thereby maximizing the efficiency of the work.

1 is a view showing an example of the use of a mouthpiece-type transparent pressure corrector according to an embodiment of the present invention.
2 is an enlarged view of (pressing projection) of a mouthpiece-type transparent pressure corrector according to an embodiment of the present invention.
Figure 3 is a flow chart for explaining an embodiment of a method for manufacturing a mouthpiece type transparent pressure corrector which is an embodiment of the present invention.
Figure 4 is a cross-sectional view for explaining the operation example of the mouthpiece-type transparent pressure braces produced by the method of manufacturing a mouthpiece type transparent pressure braces according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings, which do not limit the present invention, and like reference numerals designate like elements in some of the drawings.

1 is a view showing an example of the use of a mouthpiece type transparent pressure corrector according to an embodiment of the present invention. As shown in FIG. 1, the mouthpiece-type transparent pressure brace (B) is made of a transparent plastic material having a thickness of 0.5 to 1.0 mm, so that the non-occluded tooth (or the dentition of the teeth) is 0.25 mm ~ at a time. It is a device to correct malocclusion teeth by moving by 1.0mm.

As shown in the figure, the transparent pressure straightener (b) has a structure in which a dental groove is fitted to the entire tooth, and the transparent pressure straightener is configured to be fitted in the dental teeth by the tooth groove. However, the pressing projection 11 is formed inside the tooth groove. 2 is an enlarged view of the pressing protrusion 11 of the mouthpiece-type transparent pressure corrector according to one embodiment of the present invention. As shown in Figure 2, the mouthpiece-type transparent pressure braces (b), the pressing projection 11 is formed to apply a moving force (ie, rotational force, horizontal movement force, vertical movement force, etc.) for each tooth. . In the present invention, the pressing protrusion 11 extracts each tooth object from the dental image information of the examinee, and then prepares the orthodontic model in which the pressing groove is formed at an appropriate size and proper position by comparing with the standard tooth information, and then the orthodontic model By using to manufacture a mouthpiece-type transparent pressure corrector (b) having a pressing projection 11, the pressing projection 11 is automatically formed by using the pressing groove.

Hereinafter, a method of manufacturing the mouthpiece-type transparent pressure calibrator will be described in more detail with reference to FIG. 3.

Figure 3 is a flow chart for explaining an embodiment of a method for manufacturing a mouthpiece type transparent pressure corrector which is an embodiment of the present invention. As shown in FIG. 3, first, dental image information of a patient to be orthodontic is obtained (S1). The dental image information may be obtained by obtaining a face image of the examinee through a 3D scanner or the like, or may be obtained through a medical-only image obtaining apparatus such as an X-ray. Next, a plurality of three-dimensional tooth object data is obtained from the tooth image information (S2). On the other hand, for orthodontic treatment requires data that is a reference for where and how much each tooth of the examinee should move. For this purpose, standard tooth information may be stored in advance. The standard tooth information is information stored in the memory, and may be preset standard information or data created by an expert such as a dentist. In addition, the reason for the orthodontic treatment may proceed not only for therapeutic purposes such as malocclusion but also for cosmetic purposes. In this case, the appearance of the face after orthodontics becomes very important. In this case, after acquiring the head side image of the examinee's image information, the landmark information and the measurement line information are obtained therefrom, and the orthodontic information obtained through the correction operation is standard tooth information. It may be a criterion for determining the direction and degree of movement of each tooth.

Then, a pressing groove is formed for each tooth object data. The pressure groove generates the calibration information by comparing the standard tooth information and the three-dimensional tooth object data as described above, and generates the size and position information of the pressure groove based on the correction information, and then using the pressure groove Will generate information. Here, the correction information refers to tooth movement information including rotation tablets and moving distance information. In other words, the position and size of the pressing groove are determined based on the tooth movement information. The pressing groove information is added to the three-dimensional teeth object data to obtain three-dimensional orthodontic device data (S3). Meanwhile, the shape of the pressure groove may be an attachment shape. That is, various types of attachment shape information are stored in the memory, and when the dentist selects one of the attachment shape information, the attachment shape information is the tooth attachment surface among the three-dimensional tooth object data. Based on the generated reversed phase information of the attachment shape information to form a pressing groove in the tooth object data using this.

Next, a dental orthodontic model is manufactured using the 3D orthodontic device data (S4). 3D printers can be used to produce orthodontic models. That is, each tooth model of the orthodontic model is manufactured with a pressing groove formed. In this state, after the flexible transparent sheet is placed on the orthodontic model (S5), the manufacturing of the mouthpiece-type transparent pressure braces is completed through vacuum molding (S6). In other words, the mouthpiece-type transparent pressure braces are manufactured by placing a transparent soft sheet on the dental orthodontic model and forming a pressure protrusion corresponding to the pressure groove by pressure molding.

The transparent pressure calibrator to be manufactured in the above manner is not made by hand, but the pressure projection is formed at an appropriate position, thereby increasing the reliability of the mouthpiece-type transparent pressure calibrator.

The structure of the mouthpiece-type transparent pressure calibrator manufactured in the above manner will be described in more detail with reference to FIG. 4.

4 is a cross-sectional view illustrating an operation example of a mouthpiece type transparent pressure calibrator manufactured by a method of manufacturing a mouthpiece type transparent pressure calibrator according to an embodiment of the present invention. As shown, the transparent pressure braces attached to the teeth may be composed of a housing 10 having an orthodontic groove as a whole, and pressure protrusions 11 and 12 formed inside the housing 10. As described above, the pressing protrusion is not formed by hand, but is formed by forming the pressing groove in the three-dimensional tooth object data and then using the same, so that the pressing protrusion is automatically formed. When the pressing protrusion is manufactured in the manner described in FIG. 4, the pressing protrusion may have a shape equivalent to that of the dental attachment selected by the dentist. On the other hand, the pressing projection may be configured to include a first pressing projection 11 formed on the forward side and the second pressing projection 12 formed on the tongue side. As described above, pressing protrusions are formed on both sides of the tooth, thereby enabling a stronger force to be applied to the tooth.

According to an embodiment of the present invention having the above-described configuration, by forming the pressing groove in advance during the generation of the three-dimensional calibration device data, the transparent pressure calibrator will automatically have a pressing projection, so no additional manual work is required The amount of manual work is reduced.

In addition, according to an embodiment of the present invention, the shape and size of the pressing protrusion may be appropriately formed in advance by using the present tooth state and standard tooth data of the patient, thereby maximizing the efficiency of the work.

The method of manufacturing a mouthpiece-type transparent pressure corrector described above and the mouthpiece-type transparent pressure corrector manufactured thereby are not limited to the configuration and method of the above-described embodiments, but various modifications of the embodiments are possible. All or some of the embodiments may be selectively combined to be implemented.

A: fierce
B: Mouthpiece type transparent pressure calibrator
10: housing
11: pressurized protrusion (or first pressurized protrusion)
12: second pressing projection

Claims (9)

Acquiring tooth image information about the recipient tooth;
Acquiring a plurality of three-dimensional tooth object data from the tooth image information;
Acquiring three-dimensional orthodontic device data by generating pressure grooves for at least one of the three-dimensional tooth object data;
Generating a orthodontic model based on the three-dimensional orthodontic device data; And
And forming a mouthpiece type transparent pressure brace having a pressing protrusion using the dental orthodontic model.
The method of claim 1,
Acquiring three-dimensional orthodontic device data by generating a pressing groove with respect to at least one of the three-dimensional tooth object data,
Obtaining standard tooth information;
Generating correction information by comparing the standard tooth information with the 3D tooth object data; And
And determining position information and size information of the pressure groove based on the calibration information, and generating pressure groove information using the pressure groove.
The method of claim 2,
And the calibration information includes rotation information and moving distance information.
The method of claim 1,
Forming a mouthpiece-type transparent pressure braces having a pressing protrusion using the orthodontic model,
And placing a transparent soft sheet on the orthodontic model and pressurizing and vacuum forming to form a mouthpiece-type transparent pressure brace having a pressure protrusion corresponding to the pressure groove.
The method of claim 1,
Acquiring three-dimensional orthodontic device data by generating a pressing groove for at least one of the three-dimensional dental object data.
Storing the tooth attachment information;
Generating the pressure groove information using the tooth attachment information;
And obtaining the three-dimensional orthodontic device data by adding the pressing groove information to the three-dimensional tooth object data.
The method of claim 5,
Generating the pressure groove information by using the tooth attachment information,
And generating the pressure groove information by generating reverse phase information of the tooth attachment around the tooth attachment surface of the 3D tooth object data.
Mouthpiece-shaped transparent housing having a tooth groove; And
A mouthpiece-type transparent pressure corrector, which is manufactured by the method of claim 1, having a pressing protrusion formed inside the tooth groove.
The method of claim 7, wherein
The pressurizing protrusion is a mouthpiece-type transparent pressure braces to replace the tooth attachment to apply a rotational force to the tooth.
The method of claim 7, wherein
The pressing projection is
A first pressing protrusion formed on the lingual side of the dental groove,
Mouthpiece-type transparent pressure corrector comprising a second pressing protrusion formed on the forward side of the dental groove.

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