KR20100120395A - Internal connection-type implant - Google Patents

Abstract

PURPOSE: An internal integrated type implant is provided to improve the accuracy of products by regulating the insertion angle of each abutment with respect to the combination part of a fixture according to a patient. CONSTITUTION: An internal integrated type implant is integrated a teeth-lost position. A fixture(10) with a recessed combination part(11) and an abutment are placed on the upper side of the implant. The abutment is inserted into the combination part of the fixture. A crown is mounted on the upper side of the abutment. An insertion angle regulating rod(20) is installed to the combination part.

Description

Internal connection-type implant

The present invention relates to an internally-coupled implant, and more particularly, to an internally-coupled implant that allows the abutment fixed on the fixture to be precisely manufactured by CAD / CAM by adjusting the installation angle according to patient characteristics. will be.

In general, the implant is a fixture for the artificial root implanted in the site where the tooth is lost, an abutment fixed on the fixture, a fixing screw fixing the abutment to the fixture ) And a crown as an artificial tooth fixed above the abutment.

The above-described implant can be performed only on the lost part without damaging adjacent teeth or surrounding tissue around the lost tooth, and can provide the same chewing power as the natural tooth, and the appearance is almost identical to that of the natural tooth. Can be formed. Therefore, implants have recently been widely used as a dental procedure for repairing damaged or lost teeth.

Such implants may be classified into an external connection type and an internal connection type according to a coupling method between the fixture and the abutment.

On the other hand, the angle in which the implant fixture is placed is a slight difference depending on the case of the oral structure of the patient, that is, the state of the bone, the state of the tooth arrangement.

Therefore, the orientation of the abutment should be adjusted to the upper side of the fixture in consideration of the implantation angle of the fixture. As a conventional control method, a milling operation of a ready-made abutment is performed based on X-ray imaging. The direction has been adjusted by adjusting the desired angle.

In the case of such a task, the task has to be performed by human hands, which is time consuming and cumbersome.

Thus, the necessity of producing a fast and simple abutment by computer (CAD / CAM) is reduced. The abutment production method using a computer (CAD / CAM) is a ceramic, especially zirconia material rather than metal as the current technology.

Problems involved in performing the abutment production method by CAD / CAM are as follows.

In the case of externally coupled implants, the coupling part for coupling with the abutment is installed on the upper side of the fixture so that it can be recognized as a scanner even after the fixture is placed, so that the abutment through the CAD / CAM work is possible. Axial setting and precision fabrication are not difficult.

However, in the case of the internally coupled implant, the coupling portion is formed so as not to be exposed in a concave shape inside, so that it cannot be recognized by the scanner, making it difficult to set and manufacture the abutment through the CAD / CAM work.

The present invention has been created in order to solve the above problems, it is easy to set the axial direction and precision manufacturing of the abutment using a CAD / CAM, the internally coupled implant that can enable the precise operation of the implant according to the patient characteristics The purpose is to provide.

In order to achieve the above object, the internally coupled implant according to an aspect of the present invention is implanted in the tooth loss portion and the upper portion of the fixture formed with a concave coupling portion and the lower portion is interpolated and fixed to the coupling portion of the fixture and the crown on the upper portion. In the internally coupled implant consisting of abutment, the lower end is interpolated and supported by the engaging portion of the fixture further includes an implantation angle adjustment rod that can be inferred to scan the implantation angle of the fixture through the exposed top It is composed.

Here, the implantation angle adjustment rod is characterized in that the outer peripheral surface is composed of a plurality of flat surfaces in the central axis direction to form a polygonal pillar.

In addition, the scan data of the insertion angle adjustment rod is input to the CAD / CAM is characterized in that the production of the axially adjusted abutment in accordance with the angle of insertion of the fixture is made.

As described above, according to the internally coupled implant according to the present invention, each abutment for the coupling portion of the fixture using CAD / CAM according to the implantation angle of the fixture precisely inferred through the scan of the implantation angle adjustment rod. The interpolation angle of can be precisely adjusted according to the oral cavity characteristics of the patient.

Hereinafter, an internally coupled implant according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, 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 not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

1 is a view showing the insertion angle adjustment rod is inserted into the fixture of the internally coupled implant according to an embodiment of the present invention, and FIG. 2 is a complete view of FIG.

As shown in the figure, the internally coupled implant according to an embodiment of the present invention is implanted in the tooth loss part and the fixture 10 is formed in the upper concave coupling portion 11, the lower portion of the fixture (10) An abutment (not shown) that is interpolated and fixed to the coupling part 11 of the upper part and a crown (not shown) is mounted thereon, and an implantation angle adjusting rod provided to infer an implantation angle of the fixture 10 ( 20).

Here, the fixture 10 is implanted in a state in which a screw thread is formed on the outer circumferential surface thereof, and of course, a part of which is chamfered is formed on the lower side thereof. In addition, the coupling portion 11 of the fixture 10 has a polygonal inner circumference thereof to prevent unnecessary rotation in the state in which the lower portion of the abutment is interpolated.

In addition, the crown is the shape of the artificial tooth designed to be the same or similar to the shape and color of the missing tooth, the abutment transfers the load transmitted from the crown to the fixture 10 to the jawbone It serves to convey the bar should be prepared in consideration of the size, shape and contour of the crown.

In addition, the insertion angle adjustment rod 20 is provided so that the upper portion is protruded to a predetermined length to the outside in the state that the lower portion is interpolated and supported by the engaging portion 11 of the fixture (10).

The mounting angle adjusting rod 20 provided as described above is configured to form a polygonal column having an outer circumferential surface consisting of a plurality of flat surfaces in a central axis direction so as to correspond to the shape of the coupling portion 11 of the fixture 10. In addition to the hexagonal shape disclosed in 2, if the lower part of the coupling part 11 of the fixture 10 can be interpolated, it can be modified into various shapes such as a pentagon and an octagon.

According to the internally coupled implant of the present invention configured as described above, when the oral cavity structure of the patient is scanned with the insertion angle adjusting rod 20 inserted into the coupling portion 11 of the fixture 10 It is possible to infer the mounting angle of the fixture 10 through the installation angle of the mounting angle adjustment rod 20.

That is, the scanned data is input to the CAD / CAM and the axial setting of the abutment is made according to the implantation angle of the fixture 10.

As such, even in the case of an internally coupled implant, the insertion angle of each abutment according to the implantation angle of the fixture 10 using CAD / CAM enables the production of a product in which the angle is precisely adjusted according to the characteristics of the patient's oral cavity. Will be.

On the other hand, the implantation angle adjustment rod 20 is removed after the interpolation used when inferring the implantation angle of the fixture (10) during scanning, as well as fixing the abutment produced through CAD / CAM (10) After fixing with a screw (screw) to the coupling portion 11 of the), a crown (crown) as an artificial tooth is installed on the upper side of the abutment, the procedure of the internally coupled implant is completed.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and it should be understood by those of ordinary skill in the art to which the present invention relates, Of course, various modifications and variations can be made within the equivalent range.

1 is a view showing the insertion angle adjustment rod is inserted into the fixture of the internally coupled implant according to an embodiment of the present invention, and

FIG. 2 is a complete view of FIG. 1.

DESCRIPTION OF REFERENCE NUMERALS

10: fixture 11: coupling

20: insertion angle adjustment rod

Claims (3)

An abutment in which a crown is mounted on the upper portion of the fixture 10 and a lower portion interpolated and fixed to the coupling portion 11 of the fixture 10, which is placed on the tooth loss part and has a concave coupling portion 11 formed thereon. In the interlocking implant made An internal coupling further comprising an insertion angle adjusting rod 20 in which an insertion angle of the fixture 10 is inferredly scanned through an exposed upper portion of the coupling portion 11 of the fixture 10. Type implants. According to claim 1, The insertion angle adjustment rod 20, Inner-coupling implant, characterized in that the outer peripheral surface is composed of a plurality of flat surfaces in the direction of the central axis to form a polygonal pillar. The method of claim 1, The scan data of the implantation angle adjustment rod 20 is input to the CAD / CAM is an internally coupled implant, characterized in that the manufacture of the axially adjusted abutment according to the implantation angle of the fixture (10).

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