KR102274308B1 - Bracket indirect attachment jig for orthodontics formed as integral with bite block, its manufacturing method and method of use - Google Patents

Abstract

The present invention relates to an indirect attachment jig for orthodontic bracket formed integrally wiht bite block, which is formed by forming a jig for indirectly attaching an orthodontic bracket integrally with a bite block and producing the same through 3D printing so that not only can the jig be made to precisely fit the patient's individual tooth shape, but also it allows an operator to more easily attach the bracket to multiple teeth at the same time in an accurate position while the patient is biting the opposing tooth by the bite block when the orthodontic bracket is attached. In addition to making an indirect attachment jig for a bite block-integrated orthodontic bracket by 3D printing method, the bracket can be accurately attached to the teeth, and by connecting the orthodontic jig in the transverse direction and forming a bite block as an integral part, the patient can occlude the jig to stabilize the entire jig, allowing the operator to use both hands freely and use other instruments such as a light curing machine more efficiently. In a state in which the patient occludes the bite block and a fixed part, the orthodontic device can be attached at a more accurate position using occlusal force to stabilize the entire device by attaching and operating multiple teeth at once. Thus it has the effect of shortening the treatment time of the patient.

Description

Bracket indirect attachment jig for orthodontics formed as integral with bite block, its manufacturing method and method of use

The present invention relates to a jig for indirect attachment of orthodontic brackets, and more particularly, a jig for indirectly attaching orthodontic brackets to a bite block and By forming it in one piece and manufacturing it with 3D printing, it is possible to make a jig to precisely fit the patient's individual tooth shape, as well as to attach the orthodontic bracket to the patient while the patient is biting the opposing tooth with the bite block. The present invention relates to an indirect attachment jig for orthodontic brackets formed integrally with a bite block that allows brackets to be attached to a plurality of teeth at once at an accurate position more conveniently, and to a manufacturing method and a method of using the same.

The dentition of a normal occlusion requires that each tooth has an appropriate shape, and the positioning of specific requirements is essential, and the height is slightly lowered from the incisors to the molars, and the inclination angles of the incisors, canines, and molars are appropriate. arranged to hold.

Orthodontic appliances are widely used for the purpose of restoring a balanced appearance and function by compensating for crooked teeth, protruding mouth, and maxillary and mandibular skeletal differences rather than the dentition of normal occlusion.

Orthodontic treatment using a bracket attached to the labial or lingual teeth is generally used for orthodontic treatment using an orthodontic appliance. method is used The bracket attachment process, which is one of the orthodontic treatment steps to apply and functionally arrange the teeth, can be successfully performed when the bracket height and angle are properly adjusted by the operator.

The method of attaching the bracket to the tooth is largely a direct attachment method of directly attaching to the tooth, and a silicone material, a metal material, a hardened resin material, etc. to attach the bracket to the tooth after making a tooth model and attaching the bracket to the model. There is an indirect attachment method that is transferred to the patient's teeth using a jig for orthodontic treatment made with .

First, for the direct attachment method using various gauges for positioning, the bracket attachment operation must be performed using gauges. In particular, when attached to a molar, it is difficult to secure a field of view, and there is a problem of poor accessibility. In addition, since the adhesion operation is performed in the oral cavity from which saliva is secreted, the adhesion force may be reduced, and there is a risk that the operation time may be long. There is a problem that the existing position cannot be reproduced when the bracket is dropped during use. This is because, when reattaching, it is not possible to obtain a position reference that can maintain the existing position. Therefore, it may cause inconvenience to the person receiving the correction and lengthen the treatment period.

In addition, there is a direct attachment method using the naked eye. This direct attachment method does not use a gauge, but the disadvantages of using a gauge are as it is. In particular, there is a problem that relatively depends on the skill of the operator. This causes the inability to reproduce various heights and angles, and there is a risk that the consistency and precision of angle and position reproduction may be deteriorated when reattached.

In addition, the direct attachment method has a problem in that the orthodontic effect is deteriorated as a lot of position errors according to the operator's field of view and attachment errors according to the skill level occur in the process of directly attaching the bracket to the teeth. method is preferred.

And in order to overcome the limitations of the direct attachment method, an indirect attachment method using a plaster-like model modeled after a patient's teeth is being developed. The indirect attachment method has the advantage of being able to select a high-precision and consistent location rather than the method using a gauge or the naked eye. In the indirect attachment method, the bracket is attached to the model tooth after determining the optimal bracket slot position according to the treatment purpose on the model tooth on the model. After that, the brackets are transferred from the model teeth to the actual teeth of the patient using various orthodontic jigs and attached to the actual teeth.

Conventionally, there has been a tendency to manually manufacture orthodontic jigs that can attach a bracket to a model such as a plaster model and transfer the bracket to the patient's actual teeth.

And there is an indirect attachment method using a SLOT machine or the like. After the model is installed on the fixture of the instrument, the appropriate height (height), mesiodistal inclination angle (Angulation), labial or lingual inclination angle (Torque), thickness (In & Out), rotation degree (Rotation) of each tooth, etc. Measure and set the slot position of the bracket using another accessory of these instruments. Then, the bracket is transferred to the patient's actual teeth using an orthodontic jig.

However, since the indirect attachment method also requires making a separate tooth model, the preparation process takes a lot of time, the procedure is complicated, and an error occurs in the process of attaching the bracket to the jig and attaching it to the tooth again, and the material cost is high. There is this.

As a prior art to solve the above problems, Korean Patent Application Laid-Open No. 10-2016-0049698 (published on May 10, 2016) relates to a jig for a bracket position guide and a manufacturing method thereof, and more particularly, to the lingual side It relates to a bracket position guide jig for fixing and attaching a bracket used for orthodontic treatment to an accurate mounting position of teeth, and a method for manufacturing the same, and to attach the bracket to the correct position by shaping and manufacturing the jig together with the bracket through 3D modeling Although it is possible to minimize manufacturing errors and increase productivity, there is a problem in that the brackets have to be attached in a one-to-one correspondence with one jig per tooth.

In addition, Korean Patent Laid-Open Publication No. 10-2018-0103761 (published on September 19, 2018) provides a one-to-one correspondence with one jig 10 per tooth as shown in FIG. 1 as an orthodontic jig-integrated bracket and a manufacturing method thereof. Therefore, when the bracket 20 is attached, it takes a lot of time for the patient to receive treatment because it is attached by hand pressing it one by one in the oral cavity, and the operator has to perform the procedure while holding the jig 10 with the handle 30, which is inconvenient in various ways. there was

Republic of Korea Patent Publication No. 10-0899535 (Notice on May 26, 2009), “Transfer jig for bracket or tube, manufacturing method and usage thereof” Republic of Korea Patent Publication No. 10-1675089 (2016. 11. 11. Announcement), “Manufacturing method of integrated jig bracket using 3D printer” Korean Patent Application Laid-Open No. 10-2016-0049698 (published on May 10, 2016), “Bracket position guide jig and manufacturing method thereof” Republic of Korea Patent Publication No. 10-2018-0103761 (published on September 19, 2018), “Integrated bracket for orthodontic jig and manufacturing method thereof”

In order to solve the above problems, an object of the present invention is to manufacture an indirect attachment jig for orthodontic brackets in a 3D printing method so that the brackets can be accurately attached to the teeth, and to connect the orthodontic jig with the adjacent jig in the lateral direction By forming one or more bite blocks designed to be bitten on the opposing teeth while interconnecting with each other, brackets are applied to as many teeth as possible at once while the patient is biting the opposing teeth of the teeth to be corrected with the bite block. An object of the present invention is to provide a method for manufacturing an indirect attachment jig for orthodontic bracket formed integrally with a bite block for simple and short attachment.

Another object of the present invention is to provide an indirect attachment jig for orthodontic bracket formed integrally with the bite block according to the manufacturing method of the present invention.

Another object of the present invention is to provide a method of using an indirect attachment jig for orthodontic bracket formed integrally with the bite block according to the present invention.

In the present invention, one or more bite blocks designed to be bitten on the opposing teeth are integrally formed while interconnecting the orthodontic jig with the adjacent jigs in the transverse direction, so that the patient is biting the opposing teeth of the teeth to be orthodontic with the bite block. The purpose of providing a method for manufacturing an indirect attachment jig for orthodontic brackets formed integrally with a bite block to attach brackets to as many teeth as possible at once in a simple and short time,

A method of manufacturing a jig for orthodontic treatment of a patient by an indirect attachment method of an orthodontic bracket using a model, the method comprising: forming a model of a patient's actual tooth condition using a 3D scanner; Using a three-dimensional measuring method or device from the model to obtain three-dimensional data for the correct position of the bracket, orthodontic jig and bite block; A fixing part having an occlusal surface designed in a tooth shape corresponding to the patient's orthodontic target teeth, a guide connecting the fixing part and one end of one side to hold the position of the orthodontic bracket, the bracket in the guide A space for adding putty or impression material to secure a stable position, and a jig body having a connection part to be connected in a lateral direction between adjacent fixing parts, and a jig body integrally formed in the jig body and correcting the patient Forming one or more bite blocks designed to be bitten by the opposing teeth of the target teeth by 3D printing; achieved by a method of manufacturing an indirect attachment jig for orthodontic brackets integrally formed with a bite block including a.

The manufacturing method of the present invention is also characterized in that the model is an electronic model.

In the manufacturing method of the present invention, the bite block is actually attached to the tooth surface to which the bracket is attached in order to direct the direction of the force of the structure that connects the guide that holds the position of the bracket and the fixing part matched to the occlusal surface of the tooth to be corrected to the tooth surface. It characterized in that it further comprises; manufacturing by biasing the labial or lingual side of the.

On the other hand, in another aspect of the present invention, another object is to provide an indirect attachment jig for orthodontic bracket formed integrally with the bite block according to the manufacturing method of the present invention,

In the jig for correcting actual teeth of a patient by an indirect attachment method using a model, a fixing part having an occlusal surface designed in a tooth shape corresponding to the patient's orthodontic target teeth, the fixing part and one side end are connected to straighten the teeth There is a guide that holds the position of the bracket for use, a space for adding putty or impression material to ensure a stable position of the bracket within the guide, and a connection part that connects horizontally between adjacent fixing parts. Indirect orthodontic bracket formed integrally with a bite block, characterized in that it includes a jig body, and one or more bite blocks formed integrally with the jig body and designed to be bitten by the opposing teeth of the patient's orthodontic target teeth This is achieved by means of an attachment jig.

The orthodontic bracket indirect attachment jig of the present invention is also characterized in that the orthodontic bracket indirect attachment jig is manufactured by 3D printing based on an electronic model.

The indirect attachment jig for orthodontic bracket of the present invention is also characterized in that the fixing part has an occlusal surface that can be used by changing the position of the guide according to labial or lingual correction.

In the indirect attachment jig for orthodontic use of the present invention, the bite block not only stabilizes the overall structure by the occlusal force with the opposing teeth during indirect attachment, but also the position of the bite block is the attachment position of the bracket and the force generated by the occlusal force. It is characterized in that it is positioned on the labial or lingual side to match each other so that the direction of force is guided toward the tooth surface to which the bracket is attached.

In addition, in another aspect of the present invention, another object to provide a method of using an indirect attachment jig for orthodontic brackets,

Orthodontics formed integrally with a bite block, which includes attaching and bonding the orthodontic bracket indirect attachment jig to the orthodontic bracket indirect attachment jig by irradiating light to the indirect attachment jig for orthodontics while the patient is biting the bite block using the orthodontic bracket indirect attachment jig according to the present invention It is achieved by the method of using the indirect attachment jig for the bracket.

The method of use of the present invention also provides that the bite block is positioned so that the orthodontic bracket is biased toward the labial side when the orthodontic bracket is corrected on the labial side or on the lingual side when the lingual side is corrected so that the force generated by the occlusal force is applied to the bracket. It is characterized in that it can be used by changing it to a position that makes the structure more stable when attached.

The method of use of the present invention is also characterized in that the teeth to which the bite block is bitten can be alternated up and down, and are opposite teeth of the orthodontic teeth to which the brackets are attached.

Accordingly, the orthodontic bracket indirect attachment jig according to the present invention provides a more accurate and convenient treatment of brackets on as many teeth as possible by using both hands freely while the patient is biting the opposing teeth of the teeth to be corrected. The patient can attach the bite block to the opposing tooth in a state of occlusion, so it can be attached in a more stable and accurate position depending on the condition of the tooth. ) to show the performance that can shorten the

According to the present invention, in a state where the patient is biting the opposing tooth of the tooth to be corrected by the bite block, the operator can conveniently apply the bracket to as many teeth as possible by using both hands freely at once, and the patient can use the bite block and the fixing part By using the occlusal force generated in the state of occlusion of the teeth, the bracket can be attached to a more accurate position by fixing the entire device in a stable position, and there is an effect of shortening the chair time by treating a number of teeth at once.

In addition, there is an effect that the orthodontic bracket indirect attachment jig can be made for many teeth at once by 3D printing to precisely match the patient's individual tooth shape.

In addition, the present invention makes a bite block with one or more sets instead of making a jig one by one in the prior art and pressing it by hand, and not only can stabilize the indirect attachment jig using occlusal force, but also induce attachment to a more accurate position there is

In addition, the teeth bitten by the bite block can be alternated up and down, and as the opposing teeth of the orthodontic teeth to which the brackets are attached, each tooth is combined in an indirect attachment jig to form an interlocking block, allowing the patient to occlude the bite block and the opposing teeth ( There is an effect that the jig photo-curing attachment bonding can be completed in one-step in the state of being fused together.

In addition, since both hands are free for the operator, the intraoral mirror and the light curing machine can be used more accurately, and the jig with a stable attachment position due to the occlusal force has the effect of inducing the operator to more accurately attach the bracket to the desired position.

1 is a perspective view showing a state in which a conventional orthodontic jig-integrated bracket is combined with a patient's teeth for lingual correction.
2 is an isometric view showing the overall appearance of the orthodontic bracket indirect attachment jig formed integrally with the bite block for indirect attachment of the orthodontic bracket according to an embodiment of the present invention.
3 is a front view of the orthodontic bracket indirect attachment jig of FIG. 2 .
4 is a plan view of the indirect attachment jig for the orthodontic bracket of FIG. 2 .
5 is a schematic view showing a state in which the bracket is fixed by a putty or impression material in the inner space of the guide body of the jig according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail.

Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

The present invention corresponds to an indirect attachment method in which an orthodontic device is attached to an accurate position in a model made by imitating a patient's teeth among the orthodontic methods, then accurately moved into the patient's mouth and reattached.

The indirect attachment method has the advantage of being able to select a location with high precision and consistency compared to the direct attachment method using a gauge or the naked eye. In addition, in the indirect attachment method, a bracket is attached to the model tooth after determining the optimal slot position for the treatment purpose on the model tooth on the model. After that, the brackets are transferred from the model teeth to the actual teeth of the patient using various transfer jigs for brackets, and then the brackets are attached to the actual teeth.

In the present invention, the opposing tooth refers to a tooth opposite to the orthodontic target tooth to which the orthodontic bracket is attached.

Hereinafter, it will be described in detail with reference to FIGS. 2 to 5 .

<Method for indirect attachment of orthodontic bracket formed integrally with bite block>

Hereinafter, a preferred embodiment of a method for manufacturing an indirect attachment jig for orthodontic bracket formed integrally with a bite block according to the present invention will be described. The following examples are merely illustrative of the present invention, and are not intended to limit the scope of the present invention.

The orthodontic bracket indirect attachment jig formed integrally with the bite block of the present invention attaches the orthodontic device to the correct position in a model made by imitating the condition of the patient's actual teeth during the orthodontic method, and then accurately moves it into the patient's mouth and attaches it again. In order to be applied to the indirect attachment method, the present invention forms a model of the patient's actual tooth condition using a 3D scanner.

The meaning of the model of the present invention may be an electronic model formed using a 3D scanner or the like.

The electronic model is a virtual model formed by measuring a plaster-like model made by imitating a patient's real teeth by a measuring method such as 3D scanning.

The electronic model has a plurality of model teeth respectively corresponding to the actual teeth of the patient. In other words, using a three-dimensional measuring method or device including a measurement program by CAD (Computer-aided Design) or CNC (Computerized Numerical Control) equipment, three-dimensional data of the model teeth formed in the electronic model can be obtained from the model object. .

Accordingly, the user can obtain the most effective arrangement state by appropriately arranging the bracket, the fixing part, the guide, and the connecting part according to the patient's various dental states.

The height and angle of each part of the model tooth of the electronic model may be measured in three dimensions. Accordingly, necessary data can be obtained by first arranging virtual brackets attached to real teeth on the model teeth, and arranging orthodontic jigs on the brackets and the model teeth.

The model teeth are formed on the electronic model and are made based on the model corresponding to the actual teeth. Model teeth consist of 21 to 28 formed up and down like real teeth.

Accordingly, by measuring the model teeth corresponding to the actual teeth, data on the three-dimensional structure of the actual teeth can be easily obtained. Accurate information about real teeth can be obtained from data on model teeth.

According to an embodiment of the present invention, the orthodontic bracket indirect attachment jig may be manufactured by 3D printing based on an electronic model.

The orthodontic bracket indirect attachment jig of the present invention does not manually manufacture the orthodontic jig in a one-to-one correspondence with the teeth to be corrected, but rather to attach the bracket to as many teeth as possible at the correct position at once. Block the orthodontic jig by the connecting part 130 so that the fixing part 120 having an occlusal surface designed in a shape corresponding to the patient's actual teeth among the paper jigs is connected to each other in the transverse direction between the adjacent fixing parts 120. do.

In addition, the guide 140 is formed on one side of the fixing part 120 .

The present invention may form one or more bite blocks (bite blocks, 110) integrally formed in the jig body 100 and designed to be bitten by the opposing teeth of the patient's orthodontic target teeth by 3D printing. Preferably, the upper surface of the bite block 110 may have an occlusal surface designed to have a tooth shape corresponding to the patient's opposing teeth.

In addition, using the oral 3D scanning technology, the vertical height of the bite block 110 may be designed by adjusting the height according to the optimal height at which the patient should open the mouth.

The present invention manufactures an orthodontic device by integrally forming the fixing part 120, the connecting part 130, the guide 140, and the bite block 110 to be connected to the patient's individual tooth shape based on the patient's tooth data. Not only can the process be simplified, but it can also be manufactured precisely with 3D printing.

The 3D printer used to manufacture the indirect attachment jig for orthodontic bracket formed integrally with the bite block according to the present invention is a 3D printer using any one of metal, plastic, and ceramic, or a 3D printer that can use two or more materials in combination. You can select and use any one of the printers.

Accordingly, in the present invention, the method for manufacturing an indirect orthodontic bracket attachment jig formed integrally with the bite block includes the steps of: forming a model of the patient's actual teeth using a 3D scanner;

using a three-dimensional measuring method or device from the model to obtain three-dimensional data for the correct position of the bracket and orthodontic jig and bite block;

A fixing part 120 having an occlusal surface designed in the shape of a tooth corresponding to the patient's orthodontic target teeth, a guide 140 connecting the fixing part 120 and one side end to hold the position of the orthodontic bracket; The space 200 for adding the putty or impression material 400 so that the bracket 300 can secure a stable position within the guide 140, and the adjacent fixing parts 120 are connected to each other in the transverse direction. The jig body 100 with the connection part 130 and one or more bite blocks 110 integrally formed in the jig body 100 and designed to be bitten by the opposing teeth of the patient's orthodontic target teeth by 3D printing forming; may include.

Here, the guide 140 may be manufactured by modeling the fixing part 120 and the one end of one side to direct the direction of the force toward the tooth surface in order to hold the position of the orthodontic bracket.

In addition, since there is a space 200 in the guide 140 , a putty or an impression material 400 for fixing the bracket between the guide 140 and the bracket 300 is added to ensure a stable position of the bracket 300 . can make it

The putty or impression material is a material commonly used in the dental field, and the impression material may preferably be a rubber impression material.

In addition, the method for manufacturing an indirect bracket attachment jig for orthodontic bracket formed integrally with the bite block according to the present invention is a structure that connects the fixing part 120 to the occlusal surface of the tooth to be orthodontic and the guide 140 for holding the position of the bracket The method may further include; manufacturing the bite block 110 by deflecting the bite block 110 toward the labial or lingual side of the tooth surface to which the actual bracket 300 is attached so that the direction of the force is directed toward the tooth surface.

<Indirect attachment jig for orthodontic bracket formed integrally with bite block>

Hereinafter, a preferred embodiment of the indirect attachment jig for orthodontic bracket formed integrally with the bite block according to the present invention will be described in detail with reference to the drawings. The following examples are merely illustrative of the present invention, and are not intended to limit the scope of the present invention.

Figure 2 is an isometric view showing the overall appearance of the orthodontic bracket indirect attachment jig formed integrally with the bite block for indirect attachment of the orthodontic bracket according to an embodiment of the present invention, Figure 3 is a front view of Figure 2 and FIG. 4 is a plan view of FIG. 2 .

2, 3 and 4, the guide 140 of the orthodontic bracket indirect attachment jig integrally connected with the bite block 110 is installed on the front of the labial orthodontic model,

Indirect attachment jig for orthodontic bracket according to an embodiment of the present invention is a fixing part 120 having an occlusal surface designed in a tooth shape corresponding to the patient's actual teeth, the fixing part 120 and one side end are connected, The guide 140 for holding the position of the orthodontic bracket, the space 200 for adding the putty or impression material 400 so that the bracket 300 can secure a stable position within the guide 140, and the adjacent high A jig body 100 having a connecting portion 130 to be connected to each other in the lateral direction with the government 120, and one formed integrally with the jig body 100 and designed to be bitten by the opposing teeth of the patient's orthodontic teeth It may include more than one byte block (bite block, 110).

In addition, the upper surface of the bite block 110 integrally connected to the orthodontic bracket indirect attachment jig according to an embodiment of the present invention preferably has an occlusal surface designed in a tooth shape corresponding to the opposing tooth of the orthodontic target tooth. Also, the vertical plane height of the bite block 110 using the oral 3D scanning technology can be designed by adjusting the height according to the optimal height to which the patient should open the mouth.

As shown in Figure 2, the three bite blocks 110 are the labial side of the opposing teeth of the teeth to be corrected for attachment of the labial orthodontic device in a state where the guide 140 is connected to the labial end of the fixing part 120. It is in a state that can be bitten while supporting the jig body 100 is connected to each other in the transverse direction and is integrally formed.

According to an embodiment of the present invention, the orthodontic bracket indirect attachment jig may be manufactured by 3D printing based on an electronic model.

According to an embodiment of the present invention, the indirect attachment jig for orthodontic bracket is an occlusal surface that can be used by changing the position of the guide 140 according to labial or lingual correction. may be to have

In addition, the bite block 110 not only stabilizes the overall structure by the occlusal force with the opposing teeth during indirect attachment, but also the position of the bite block 110 is located on the labial or labial side so that the attachment position of the bracket and the force generated by the occlusal force coincide with each other. By placing it on the lingual side and guiding the direction of force toward the tooth surface to which the bracket is attached, the entire device may be manufactured stably when the orthodontic appliance is attached.

Meanwhile, FIG. 5 is a schematic view showing a state in which the bracket 300 is fixed in the guide 140 of the jig body 100 according to an embodiment of the present invention.

Since there is a space 200 in the guide 140 , a putty or an impression material 400 for fixing the bracket between the guide 14 and the bracket 300 may be added to ensure a stable position of the bracket 300 .

Using the indirect attachment jig for orthodontic bracket formed integrally with the bite block according to the present invention having such a structure, the operator can adjust the shape of the actual teeth formed in the fixing unit 120 in the process of attaching the bracket 300 to the actual teeth. The position of the bracket 300 can be easily selected on the actual teeth based on the corresponding occlusal surface, and high precision can be maintained in the process of selecting the position for attaching the bracket 300 to the actual teeth.

In addition, while the patient is biting one or more bite blocks 110 on the opposing teeth of the teeth to be orthodontic, the operator irradiates light to the indirect attachment jig for the orthodontic bracket with a light curing machine, so that as many as possible by using both hands freely. Brackets can be attached to teeth at once.

<How to use the indirect attachment jig for orthodontic bracket formed integrally with the bite block>

Hereinafter, a preferred embodiment of a method of using an indirect attachment jig for orthodontic bracket formed integrally with a bite block according to the present invention will be described.

In order to provide a method of using the orthodontic bracket indirect attachment jig formed integrally with the bite block in the present invention, the patient uses the orthodontic bracket indirect attachment jig formed integrally with the bite block according to the present invention to counteract the orthodontic teeth In the state that one or more bite blocks 110 are biting on the teeth, the operator irradiates the light with a light curing machine to the orthodontic bracket indirect attachment jig to attach the bracket to as many teeth as possible at once, using both hands freely. Depending on the example, it is preferable to divide the indirect attachment jig into two or three and attach it.

In the present invention, the occlusal surface of the fixing part 120 is designed in a tooth shape corresponding to the tooth to be corrected, and the occlusal surface of the bite block 110 is designed so that the opposing teeth bite the labial or lingual (舌側) Brackets for orthodontics can be attached anywhere.

In addition, in the present invention, the opposite teeth of the orthodontic target teeth bitten by the bite block 110 can be alternated up and down as the orthodontic target teeth are changed to the maxilla and the mandible.

The bite block 110 is positioned so that the orthodontic bracket is biased toward the labial side or the lingual side during labial correction, so that the force generated by the occlusal force is greater than when the bracket is attached. may be used by changing the position to a stable position.

On the other hand, the adhesive is usually used to attach the bracket 300 to the actual tooth, and in one embodiment, when exposed to light with a light curing machine, it exerts adhesive force to attach the bracket 300 to the fixed target tooth. include

After the bracket 300 is attached, the jig body 100 may be separated from the teeth to be orthodontic by using a dental appliance in the shape of a forceps.

The operator can easily select the position of the bracket 300 on the actual teeth based on the occlusal surface corresponding to the shape of the actual teeth in the fixing part 120 in the process of attaching the bracket 300 to the actual teeth. Accordingly, high precision can be maintained in the process of selecting a position for attaching the bracket 300 to the actual teeth, and the ideal dental state can be maintained by this high precision, thereby shortening the treatment period.

Above, a specific part of the present invention has been described in detail, for those of ordinary skill in the art, it is clear that this specific description is only a preferred embodiment, and the scope of the present invention is not limited thereby. something to do. Accordingly, the substantial scope of the present invention will be defined by the appended claims and their equivalents.

100: jig body 110: byte block
120: fixing part 130: connection part
140: guide 200: space
300: bracket 400: putty or impression material

Claims (10)

In the manufacturing method of a jig for orthodontic treatment of a patient's actual teeth by indirect attachment of an orthodontic bracket using a model
forming a model of the patient's actual dental condition using a 3D scanner;
Using a three-dimensional measuring method or device from the model to obtain three-dimensional data for the correct position of the bracket, orthodontic jig and bite block;
A fixing part having an occlusal surface designed in a tooth shape corresponding to the patient's orthodontic target teeth, a guide connecting the fixing part and one end of one side to hold the position of the orthodontic bracket, a bracket in the guide A space for adding putty or impression material to secure a stable position, and a jig body having a connection part to be connected in a lateral direction between adjacent fixing parts, and a jig body integrally formed in the jig body and correcting the patient Forming one or more bite blocks by 3D printing, which are designed by adjusting the vertical height of the bite block using oral 3D scanning technology to bite into the opposing tooth of the target tooth according to the optimal height at which the patient should open the mouth; A structure that connects the guide that holds the position of the bracket and the fixing part to the occlusal surface of the tooth to be corrected. To direct the direction of the force toward the tooth surface to which the bracket is attached, place the bite block on the labial or lingual side of the tooth surface to which the bracket is actually attached A method of manufacturing a jig for indirect attachment of orthodontic brackets formed integrally with a bite block including;
According to claim 1,
The model is an indirect attachment jig for orthodontic bracket manufacturing method, characterized in that the electronic model formed using a 3D scanner.
delete In the jig for correcting actual teeth of a patient by indirect attachment method using a model, a fixing part having an occlusal surface designed in a tooth shape corresponding to the patient's orthodontic target teeth, the fixing part and one side end are connected to straighten the teeth A guide that holds the position of the bracket, a space for adding putty or impression material so that the bracket can secure a stable position within the guide, and a jig body with a connection part to be connected horizontally between adjacent fixing parts; , One or more bite blocks that are integrally formed in the jig body and designed by adjusting the vertical height of the bite block according to the optimal height at which the patient should open the mouth using oral 3D scanning technology to bite into the opposing teeth of the patient's orthodontic target teeth (bite) block) is produced by 3D printing, and the bite block not only stabilizes the overall structure by the occlusal force with the opposing teeth during indirect attachment, but also the position of the bite block matches the attachment position of the bracket and the force generated by the occlusal force. An indirect attachment jig for orthodontic bracket formed integrally with a bite block, characterized in that it is positioned on the labial or lingual side to guide the direction of the force toward the tooth surface to which the bracket is attached.
5. The method of claim 4,
The orthodontic bracket indirect attachment jig is an orthodontic bracket indirect attachment jig, characterized in that produced by 3D printing based on an electronic model.
5. The method of claim 4,
The fixing part is an indirect attachment jig for orthodontic bracket, characterized in that it has an occlusal surface that can be used by changing the position of the guide according to labial (脣側) or lingual (舌側) correction.
delete Using the indirect attachment jig for the orthodontic bracket according to any one of claims 4 to 6, in a state where the patient is biting one or more bite blocks on the opposing teeth of the teeth to be orthodontic, the orthodontic bracket indirect attachment jig with a light curing machine It includes attaching and bonding brackets to as many teeth as possible by simply using both hands freely by exposing them to light, and the bite block is an orthodontic bracket for orthodontic treatment on the labial or lingual side (舌側). ) Indirect attachment jig for orthodontic bracket formed integrally with a bite block, characterized in that it is biased on the lingual side during orthodontics, so that the force generated by the occlusal force can be changed to a position that stabilizes the structure more when the bracket is attached. How to use.
delete 9. The method of claim 8,
The teeth to which the bite block is bitten can be alternated up and down, and a method of using an indirect attachment jig for orthodontic brackets, characterized in that they are opposing teeth of the orthodontic target teeth to which the brackets are attached.

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