KR100916522B1 - The crown and that manufacturing method that made with titanum alloy and resin - Google Patents

Abstract

The present invention relates to a prosthesis made of a titanium alloy and a resin, and a method for manufacturing the same, wherein the prosthesis is manufactured using a titanium alloy having excellent strength and hardly causing elements such as nickel to cause inflammation. It was developed to form a resin layer having excellent adhesiveness on the surface exposed to the outside so that the color appearing outside is the same as natural teeth;

A prosthesis mounted in the oral cavity to replace a damaged or missing tooth;

A mounting portion fixed to an artificial tooth root made of titanium alloy and inserted into a jawbone for a tooth or an implant prepared to cover a damaged portion of the tooth, a body formed with a volume smaller than that of a tooth to be restored to the upper portion of the mounting portion, and the body A cap made of a titanium alloy comprising a fine concave-convex portion formed of a plurality of fine concavo-convex portions on a surface including an upper portion of the cap;

Prosthesis made of a titanium alloy and a resin consisting of a resin coating layer formed by contacting the resin to the fine concave portion of the cap to the gum end line in the shape of the tooth to be restored;

It is attached to the artificial tooth root which is made of titanium alloy and inserted into the jaw bone for the tooth or implant prepared to cover the damaged part of the tooth, and a plurality of fine irregularities are formed on the surface including the upper part and have less volume than the tooth to be restored. A cap forming process of forming a cap made of a titanium alloy;

An adhesive coating process of applying a resin adhesive to the cap;

Applying the opac according to the shade and then hardening the weighting unit for about 20 seconds, and then putting it back into the photopolymerizer for polymerization for 11 minutes;

A surface cleaning process of wiping the surface gloss with a sponge after polymerization;

A resin build-up process for building up a resin;

Applying the glycerin to the resin after layering, and covering the titanium alloy part with a heat shield to polymerize in a photopolymerizer;

The present invention relates to a method of manufacturing a prosthesis made of a titanium alloy and a resin, characterized in that a series of processes in which a polishing process is performed by removing a residue and steaming the steam and then applying a polish to a cotton wheel to shine.

Prosthesis, teeth

Description

The crown and that manufacturing method that made with titanum alloy and resin

The present invention relates to a prosthesis made of a titanium alloy and a resin, and a method for manufacturing the same. More specifically, the prosthesis is made of a titanium alloy which is excellent in strength and hardly causes elements such as nickel to cause inflammation. Produces a resin layer having excellent bonding properties with titanium on the surface exposed to the outside to produce a prosthesis made of a titanium alloy and a synthetic resin developed to be the same color as the natural teeth and a method of manufacturing the same.

Commonly referred to as crown (crown) of the prosthesis is to cover the teeth in one word, or artificial crown (齒 冠) is one of the kinds that has been said to be gold teeth.

In the past, these prostheses tended to be made of gold, platinum, or other alloys. However, gold has been widely used because it is almost non-toxic with high human-friendliness. Although relatively inexpensive, there was a problem that rejection may occur depending on the gloss and the peculiarity of the metal.

Also, recently, ceramics or resins (synthetic resins) are being used to give a color and feel similar to natural teeth. However, they are easily broken due to their weak strength. In the case of ceramics, the incisors and resins are used for molar teeth. It is applied only when puffing the carved parts by caries.

However, titanium alloys are harmless to human body, have excellent strength, do not generate static electricity, and are light in weight. Therefore, titanium alloys can be considered as a suitable material. However, titanium alloys have good adhesion to other metals or other materials. Because of this great disadvantage of falling, there was a problem in that it was used only in the case of the role of the alveolar bone in the implant procedure.

Of course, in other processing areas, the welding of dissimilar metals enables resistance welding between nickel-plated surfaces and titanium alloys. However, in the dental treatment field directly applied to the human body, dangerous components such as nickel should be avoided.

Therefore, it is necessary to develop a material, a structure, and a manufacturing method that can serve as teeth in appearance and properties while having excellent bonding with titanium alloys.

The present invention has been developed to solve the above problems, in addition to the alveolar bone used in the implant is formed titanium alloy in a portion in close contact with the bones or gums and other parts can be used by bonding to other materials and the production thereof To develop a method.

In addition, the present invention is to develop a prosthesis and a method of manufacturing the molding can be made more simple.

In order to achieve the above object, the present invention provides an artificial prosthesis mounted in the oral cavity to replace a damaged or lost tooth;

A mounting portion fixed to an artificial tooth root made of titanium alloy and inserted into a jawbone for a tooth or an implant prepared to cover a damaged portion of the tooth, a body formed with a volume smaller than that of a tooth to be restored to the upper portion of the mounting portion, and the body A cap made of a titanium alloy comprising a fine concave-convex portion formed of a plurality of fine concavo-convex portions on a surface including an upper portion of the cap;

It is characterized by consisting of a resin coating layer formed to reach down to the gum end line in the shape of the tooth to be restored by bonding the resin to the fine concave-convex portion of the cap.

In addition, the body of the cap is provided with a stepped portion that the outer surface is shrunk stepped 1 ~ 2mm from the gum end line;

The resin coating layer is formed from the stepped portion is characterized in that it is formed to be exposed to 1 ~ 2mm from the gum end line.

In addition, the tooth is prepared to cover the damaged part of the tooth or implant is fixed to the artificial root made of titanium alloy inserted into the jawbone for fixing the implant, a number of fine irregularities are formed on the surface including the upper portion less volume than the tooth to be restored Cap molding process of forming a cap of a titanium alloy having a;

An adhesive coating process of applying a resin adhesive to the cap;

Applying the opac according to the shade and then hardening the weighting unit for about 20 seconds, and then putting it back into the photopolymerizer for polymerization for 11 minutes;

A surface cleaning process of wiping the surface gloss with a sponge after polymerization;

A resin build-up process for building up a resin;

Applying the glycerin to the resin after layering, and covering the titanium alloy part with a heat shield to polymerize in a photopolymerizer;

After the residue is removed and countered by steam, a series of finishing processes are performed in which a polish is applied to a cotton wheel to shine.

In addition, the cap molding process is characterized by performing an oxidation corrosion process to corrode using an oxide film to form fine unevenness on the surface.

As described above, the present invention has the effect of providing a beautiful prosthesis without side effects by treating the portion in close contact with the bone or gum with a titanium alloy to minimize side effects on the human body and treating the other portions with a resin as close as possible to its natural color. There is.

In addition, there is an effect that the operation is more simple to be molded into a resin that is easy to mold on the frame treated with titanium alloy.

Accordingly, the configuration of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a perspective view according to an embodiment of the present invention, Figure 2 is a cross-sectional view according to an embodiment of the present invention, in Figure 1 the prosthesis on the left is a prosthesis (3) made of a conventional metal and the right is the present invention Only the resin coating layer 2 on the surface of the prosthesis molded according to the appearance appears in appearance.

A configuration of the present invention is directed to an artificial prosthesis mounted in the oral cavity to replace a damaged or lost tooth;

Mounting portion 11 is fixed to the artificial tooth root made of titanium alloy for insertion of the tooth or implant prepared for covering the damaged part of the tooth and fixed to the jawbone, and formed in a smaller volume than the tooth to be restored to the upper portion of the mounting portion 11 A cap (1) made of a titanium alloy comprising a body 12 and a fine concave-convex portion 13 formed on the surface including an upper portion of the body 12;

It is composed of a resin coating layer (2) formed by contacting the resin to the fine concave-convex portion 13 of the cap 1 down to the gum end line in the shape of the tooth to be restored.

At this time, the resin (synthetic resin) that can be bonded to the titanium alloy is showing easy bondability such as Rink, opaque, Dentin, Incisal, Transpa, Liner.

In this case, the joint formed by joining the resin is light enough to have a weight similar to that of the tooth, and does not give an excessive physical force to the existing abutment, and in particular, there is an advantage of obtaining a prosthesis suitable for an implant superstructure.

In addition, the resin can be formed as close as possible to the color and material of the tooth is a significant advantage in appearance.

In particular, such a resin coating layer (2) is easily applied to molar teeth by covering the upper part of the titanium alloy with a thickness similar to that of the resin, which has been used until now to limit the damage of the incisors and molars. It is complemented in strength enough to be possible.

In addition, in order to form the fine concave-convex portion 13, the forming of the concave-convex portion or the concave-convex portion by various methods such as a rough manufacturing method using a disk or a POINT (a kind of stone) on the surface and a method using an oxide film ( 13) can be formed, wherein the fine concavo-convex portion 13 is formed to improve the bonding.

Figure 3 is a perspective view according to another embodiment of the present invention, Figure 4 is a cross-sectional view according to another embodiment of the present invention, the outer surface of the body 1 of the cap 1 from 1 to 2mm from the gum end line A stepped portion 14 which is stepped down;

The resin coating layer (2) is formed from the stepped portion 14 is shown an embodiment consisting of a titanium alloy and a resin, characterized in that it is formed to be exposed to 1 ~ 2mm from the gum end line.

The embodiment is one shape embodiment that can be applied according to the application site or condition.

Figure 5 is a block diagram according to an embodiment of the present invention, first made of titanium alloy for the tooth or implant prepared to cover the damaged part of the tooth is fixed to the artificial tooth inserted and fixed to the jawbone fixed surface, including the upper surface A plurality of fine concavities and convexities are formed in the cap molding process for forming a cap made of a titanium alloy having a volume smaller than that of the tooth to be restored.

In the above process, a process of performing the above-described method may be added, such as the method of oxidizing corrosion to corrode using an oxide film to form fine irregularities on the surface.

Then an adhesive application process for applying a resin adhesive to the cap;

Applying the opac according to the shade, and hardening the weighting unit for about 20 seconds, and then putting the opac in a light polymerization unit and polymerizing for 11 minutes;

A surface cleaning process of wiping the surface gloss with a sponge after polymerization;

Perform the resin buildup process to build up the resin.

In the resin build-up process, if there is a panic in the model, apply a basin and raise the resin as in the order of buildup of porcelain.

After spreading the appropriate amount on a pallet and flattening, the resin layering process is completed by applying deep depth layering, weighted polymerization for 20 to 30 seconds, weighted polymerization for 30 to 40 seconds, enameling and weighted polymerization for 30 to 40 seconds.

Finally, after the layering, the resin is coated with glycerin, and the titanium alloy portion is covered with a heat shield to polymerize in a photopolymerizer;

Prosthesis made of titanium alloy and resin is manufactured by removing the residue with steam and countering it and then applying a polish to the cotton wheel to shine it.

1 is a perspective view according to an embodiment of the present invention

2 is a cross-sectional view according to an embodiment of the present invention.

3 is a perspective view according to another embodiment of the present invention

4 is a cross-sectional view according to another embodiment of the present invention.

5 is a block diagram according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

1 cap

     11 mounting portion 12 body

     13: fine uneven portion 14: stepped portion

2: resin coating layer

3: conventional prosthesis

Claims (4)

A prosthesis mounted in the oral cavity to replace a damaged or missing tooth; Mounting portion 11 is fixed to the artificial tooth root made of titanium alloy for insertion of the tooth or implant prepared for covering the damaged part of the tooth and fixed to the jawbone, and formed in a smaller volume than the tooth to be restored to the upper portion of the mounting portion 11 A cap 12 made of a titanium alloy comprising a body 12 and a fine uneven portion 13 formed on the surface including the upper portion of the body 12 and a plurality of fine unevennesses; Prosthesis consisting of a titanium alloy and a resin consisting of a resin coating layer (2) is formed to reach the end of the gum in the shape of the teeth to be bonded and restored to the fine concave-convex portion 13 of the cap (1). The body (1) of the cap (1) is provided with a stepped portion (14) whose outer surface is stepped down from 1 to 2 mm from the gum end line; The resin coating layer (2) is formed from the stepped portion (14) is a prosthesis made of titanium alloy and resin, characterized in that is formed to be exposed to 1 ~ 2mm from the gum end line. It is attached to the artificial tooth root which is made of titanium alloy and inserted into the jaw bone for the tooth or implant prepared to cover the damaged part of the tooth, and a plurality of fine irregularities are formed on the surface including the upper part and have less volume than the tooth to be restored. A cap forming process of forming a cap made of a titanium alloy; An adhesive coating process of applying a resin adhesive to the cap; Applying the opac according to the shade and then hardening the weighting unit for about 20 seconds, and then putting it back into the photopolymerizer for polymerization for 11 minutes; A surface cleaning process of wiping the surface gloss with a sponge after polymerization; A resin build-up process for building up a resin; Applying the glycerin to the resin after layering, and covering the titanium alloy part with a heat shield to polymerize in a photopolymerizer; Method of manufacturing a prosthesis made of titanium alloy and resin, characterized in that a series of processes of finishing the polishing by removing the residue with steam and countering it and then polishing the polish with a cotton wheel. The method of claim 3, wherein in the cap molding process, a corrosion process using an oxide film is performed to corrode an oxide film to form fine irregularities on the surface.

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