KR20100117908A - Error correction component for sealing abutment and core for implant operation - Google Patents

Abstract

PURPOSE: An error correction component for sealing abutment and core for implant operation is provided, which is formed in a shape corresponding to the external surface of an abutment and the inner surface of an implant. CONSTITUTION: An error correction component for sealing abutment and core for implant operation comprises: an implant occurring in sintering or casting process; and a sealing unit which has the shape corresponding to the external surface of an abutment and the inner surface of the implant in order to seal a small gap between the abutment and implant caused by the error phenomenon of the shrinkage and expansion ratio of the implant. The sealing unit comprises: a body(11) of a tapered shape; a penetration hole(12) passing through the upper and lower part of the body; and a flange(13) filling the boundary of the implant and abutment.

Description

Error correction component for sealing abutment and core for implant operation

The present invention relates to an error correction member of an implant abutment and prosthetic coupling portion, and more specifically, to easily adjust the contact surface mismatch problem of the abutment and prosthesis due to the error of deformation occurring during the sintering or casting of the prosthesis. The present invention relates to an error correction member of an abutment for an implant and a prosthesis joint.

In general, dental implant means the replacement of the missing natural tooth itself, or a screw-shaped implant fixture is fixed to the alveolar bone so that it fuses with the bone for a certain period of time and then an abutment thereon. By fixing the prosthesis and artificial teeth is a dental procedure that restores the original function of the teeth.

The conventional implant is composed of the implant fixture and the abutment and prosthesis, the implant fixture is inserted into the alveolar bone and the abutment is coupled to the upper part of the implant fixture is installed on the abutment Finally, the prosthesis is combined.

However, in the conventional wrap processing process working in the pore chamber, after the application process of the prosthesis is completed, the process of sequentially sintering at a high temperature to obtain a stable phase is sequentially performed. In the sintering process, the prosthesis is subjected to shrinkage or expansion. .

That is, the prosthesis made of ceramic material causes shrinkage, and the prosthesis made of metal material causes expansion.

In this case, the manufacturing process is performed in consideration of the shrinkage rate and the expansion rate, but some errors cannot be avoided.

When an error occurs as described above, the conventional lap machining process is performed using a drill, and if it is impossible to adjust due to the correction work, it is solved through a rework process.

That is, in order to solve the problem of minute contact surface mismatch of the abutment and the prosthesis, it is inconvenient to perform a cumbersome correction work using a drill.

In addition, there is a problem in that the side effects of foreign matter invading through the gap occurs when not solve the error generated in this way.

Therefore, the present invention has been invented to solve the above problems, it is made of a shape consistent with the outer surface of the abutment and the inner surface of the prosthesis to seal the gap generated between the abutment and the prosthesis, various dimensions To provide an error correction member of the implant abutment and prosthetic coupling portion provided to have (thickness).

In order to achieve the above object, the present invention is to seal the minute gap generated between the abutment 200 and the prosthesis 300 due to the error phenomenon of the shrinkage or expansion rate of the prosthesis 300 generated during the sintering or casting process. The outer surface of the abutment 200 and the prosthesis 300 is characterized in that it consists of a sealing portion 10 having a shape matching the inner surface.

The present invention is a preferred embodiment, the sealing portion 10 has a taper-shaped body (11) having the same inner and outer surface as the outer surface shape of the abutment (200); A through hole 12 penetrating the upper and lower parts of the body 11; And a flange 13 extending to the lower end of the body 11 and seated on an upper seating surface of the implant fixing body 100 to fill a boundary between the abutment 200 and the implant fixing body 100. It is characterized by.

The body 11 is formed to have various dimensions with different thicknesses.

As seen above, according to the error correction member of the implant abutment and prosthetic coupling portion according to the present invention, by easily adjusting the fine contact surface mismatch between the abutment and the prosthesis, it is possible to prevent foreign matter intrusion through the gap. It has an effect.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the error correction member of the implant abutment and prosthetic coupling portion according to the present invention, Figure 2 is an exploded perspective view showing the implant placement and prosthetic process according to the present invention, Figure 3 is in the present invention It is a figure which shows the state after the implant procedure.

The present invention has an important point to easily adjust the problem of contact surface mismatch between the abutment 200 and the prosthesis 300 due to the error of deformation occurring during the sintering or casting process of the prosthesis.

As shown in Figure 2, the implant fixture (fixture) (100) is the most important member, which is also called the implant itself, is composed of titanium for improving the compatibility with the alveolar bone, the thread from the upper end to the lower end of the body When it is formed and inserted into the alveolar bone is inserted while forming a screw thread, after being inserted can be firmly fixed by fusion with the bone in contact with the material properties.

In addition, a self-tapping groove is formed on the outer circumferential surface of the lower part of the body of the implant fixing body 100 to perform self-tapping when the implant fixing body 100 is placed in the alveolar bone.

In addition, the implant fixing body 100 is divided into an internal type and an external type according to the coupling position with the abutment 200 for supporting the prosthesis 300, in the case of the internal type, the implant fixing body 100 The groove is formed to be tapered from the upper center of the body to the inner bottom, and the screw groove is continuously formed at the lower end of the groove so that the abutment 200 is assembled inside the groove, and in the case of the external type, the prosthesis 300 In order to prevent the rotation of the inner shape is formed to be angular, the structure formed with a screw groove in the center is integrally formed or assembled on the top of the body of the implant fixture 100 is abutment 200 thereon Are assembled.

The abutment (200) is a tooth support portion (not shown) is formed so that the insertion hole and the polygonal groove portion penetrate each other in the upper and lower portions of the inner side, the stepped portion is formed in a portion where the insertion hole and the polygonal groove portion meet, It consists of a fixing screw (not shown) for fastening the tooth abutment to the implant fixture (100).

The prosthesis 300, which is an artificial tooth, is finally combined on the assembly of the implant fixture 100 and the abutment 200 configured as described above.

However, the prosthesis 300 is made of a ceramic material made of zirconia, alumina, or the like, or a metal material made of gold or an alloy made of nickel, chromium, molybdenum, and the like. After the completion of the coating process, when the sintering process of obtaining a stable phase by sintering at a high temperature is performed, the ceramic material is contracted, and the metal material is expanded.

Thus, the abutment 200 is used to adjust the problem of inconsistency between the abutment 200 and the prosthesis 300 due to an error of the shrinkage rate or expansion rate of the prosthesis 300 generated in the sintering or casting process. ) And the outer surface of the abutment 200 and the inner surface of the prosthesis 300 so as to seal a gap generated between the prosthesis 300 and the prosthesis 300, and having an implant having various dimensions (thickness). The contact area correction sealing part 10 is provided.

As shown in FIG. 1, the sealing part 10 has a taper-shaped body 11 having an inner and an outer surface that is the same as an outer surface of the abutment 200, and the body 11. The through hole 12 penetrating the upper and lower portions of the upper and lower ends of the body 11 and seated on the upper seating surface of the implant fixing body 100, the abutment 200 and the implant fixing body 100 And a flange (13) for interfacing the boundary of the flange (13).

At this time, the sealing part 10 is to be provided to have a variety of dimensions by varying the thickness of the body 11, so that the error range of the various prostheses 300, bar sealing parts (fitting the dimensions in the clinic procedure step ( 10 is selected and inserted between the abutment 200 and the prosthetic material 300. [

That is, in the clinic operation step, the operator has a sealing part 10 having a body 11 of various thicknesses, and the contact surface thickness between the abutment 200 and the prosthesis 300 for each case by case. Will be adjusted.

As such, by accurately filling the gap generated between the abutment 200 and the prosthesis 300 through the sealing part 10 during the implant procedure, the function of preventing invasion of foreign substances through the gap is fundamentally prevented.

In this case, the thickness of the body 11 of the sealing part 10 is made of 0.05 ~ 0.5mm, is produced by the press molding method, the material is titanium (Titanium), zirconia (Zirconia), gold (Gold), cobalt Various materials formed of metals made of a (Co) -chromium (Cr) alloy or the like and nonmetals such as polyethylene (PE) are possible.

Hereinafter, a description will be given of a procedure of the contact area correction sealing portion 10 of the implant according to the present invention.

First, the operator installs the implant fixing body 100 on the alveolar bone of the subject to be treated, and after coupling the mount to the upper portion of the implant fixing body 100, the implant fixing body 100 to the alveolar bone using a tool such as a screwdriver. Place it.

Thus, after tightening the mount using a tool such as a screwdriver to implant the implant fixture 100 in the alveolar bone, using a tool such as a driver again to release and detach the mount installed in the implant fixture (100).

Then, after 3 to 6 months have elapsed according to the bone quality, the sutured gums are dissected, and then, the abutment 200 for fixing the prosthesis 300 to the implant fixture 100 placed in the alveolar bone is installed.

Then, the abutment 200 and the prosthesis 300 coupled to the implant fixture 100 are coupled, but the contact surfaces of the abutment 200 and the prosthesis 300 do not coincide with a gap of a constant thickness. When is generated, after coupling the sealing portion 10 of the thickness corresponding to the gap to the abutment 200, and then precisely coupled to the prosthesis 300 to generate the gap that can be infiltrated by It is prevented at the source.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the scope of the appended claims. It will be understood by those skilled in the art that various modifications may be made and equivalents may be resorted to without departing from the scope of the appended claims.

1 is a perspective view showing an error correction member of the implant abutment and prosthetic coupling portion according to the present invention,

FIG. 2 is an exploded perspective view showing the implant placement and prosthesis process according to the present invention,

3 is a view showing a state after the implant procedure according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: sealing portion 11: body

12 through hole 13 flange

Claims (3)

The outer portion of the abutment 200 to seal a minute gap generated between the abutment 200 and the prosthesis 300 due to the error of the shrinkage or expansion rate of the prosthesis 300 generated during the sintering or casting process Implant abutment and prosthetic coupling error correction member, characterized in that consisting of the sealing portion 10 having a shape matching the inner surface and the prosthesis 300. The method of claim 1, The sealing portion 10 has a tapered body having an inner and outer surface that is the same as the outer surface shape of the abutment 200; A through hole 12 penetrating the upper and lower parts of the body 11; And A flange 13 extending to the lower end of the body 11 and seated on an upper seating surface of the implant fixing body 100 to fill a boundary between the abutment 200 and the implant fixing body 100; Wherein the error correction member of the abutment for the implant and the prosthetic joint is characterized. The method of claim 2, The body 11 is an error correction member of the implant abutment and prosthetic coupling portion, characterized in that it is provided to have a variety of dimensions by varying its thickness.

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