KR20120002606U - Structure of fiber abutment for dental implant - Google Patents

Abstract

The present invention relates to a fiber abutment material of the dental implant and its structure, comprising a plurality of strands of fiber central axis installed in the resin abutment body, the fiber central axis is a glass fiber central axis, carbon fiber central axis, quartz optical fiber center It can be an axis or a glass fiber central axis, wherein the fibers can be formed of single layer fibers, multilayer fibers or multilayer fibers to double their strength. The resin abutment can be easily repaired and used by a dentist, and the resin abutment contains a substantial portion of the fiber, and its strength is stronger than that of titanium or zirconium (ceramic), and it is not easily broken by impact. It has elasticity and does not damage bones because it is similar to natural teeth. It also has elasticity to absorb shocks and reduce damage to the base portion.

Description

Structure of fiber abutment for dental implant

The present invention relates to a technique for implant articles, more specifically in the field repair, is much stronger than titanium or zirconium, and can absorb shock in close proximity to natural teeth, not easily broken A fiber abutment material of a dental implant and its structure.

Dental implant is a combination of medicine and technology. Clinically, implants of titanium alloys are placed in the alveolar bone, healed for a certain period of time, and then the abutments are screwed onto the dental implant and crowns made of plaster models Is bonded to the outer circumferential surface of the abutment.

However, since the abutment is formed of stainless steel or ceramic, there is a problem that the sealing degree is not excellent. In other words, it is difficult for the dentist to immediately repair in the field, and return to the shop to be made or repaired and then returned to perform the procedure, which causes inconvenience to both the dentist and the patient.

In addition, since the strength of the titanium or zirconium (ceramic) is lower than that of the resin preparation prepared by including the fiber, and the titanium or zirconium (ceramic) is difficult to carry out repair in the field, it is necessary to return it to the shop for repair. Should be. Titanium or zirconium (ceramic) does not have good elasticity, so it easily breaks during collision and damages the base part.

The present invention provides a fiber abutment material of a dental implant and its structure for solving the aforementioned problems of the prior art.

The fiber abutment material and structure of the dental implant provided by the present invention include a fiber central axis of a plurality of strands formed in the resin abutment body, wherein the fiber central axis is a glass fiber central axis, a carbon fiber central axis, and a quartz optical fiber central axis. Or it may be a glass fiber central axis, wherein the fiber may be formed of a single layer fiber, a multilayer fiber or a multilayer fiber to double the strength. The resin abutment can be easily repaired and used by the dentist, and contains a significant portion of the fiber, which is stronger than titanium or zirconium (ceramic, Zirconia), and similar to natural teeth, does not damage bones. . It also has elasticity to absorb shocks and reduce damage to the base portion.

Compared with the prior art, the fiber abutment material and the structure of the dental implant provided by the present invention have good elasticity, excellent strength, easy on-site processing, but not easily broken, and its strength is titanium or zirconium. It is stronger than (ceramic, Zirconia) and has elasticity, so it is close to natural teeth but does not damage bones. In addition, it is excellent in elasticity to absorb shocks and to reduce damage to the base portion.

1 is a three-dimensional explanatory diagram of a first embodiment according to the present invention.
2 is a three-dimensional exploded view of an embodiment of the present invention.
3 is an explanatory view of the assembly of the embodiment of the present invention.
4 is a cross-sectional explanatory diagram of a circular shape of a multilayer fiber.
It is explanatory drawing of the hexagon of a multilayer fiber.
It is explanatory drawing of the cross section of the circular shape of a three-layer fiber.

1 to 5 show the fiber abutment material and its structure of the dental implant according to the present invention, refer to this. The fiber abutment material of the dental implant provided by the present invention and its structure include the following configuration.

As the resin abutment body 10, a plurality of strands of fiber central axis 20 are formed in the resin abutment body 10, wherein the fiber central axis 20 is a glass fiber central axis, a carbon fiber central axis, and a quartz optical fiber center. Axis, glass fiber can be the central axis. Wherein the resin abutment body 10 is formed with an outer peripheral surface coupling portion 11, each strand of the fiber central axis 20 is formed in the resin abutment body 10, the bottom coupling end 21 and the top The free end 22 is provided. Each of the bottom coupling ends 21 is positioned on the outer circumferential surface coupling part 11 of the resin abutment body 10, and each of the bottom coupling ends 21 and the outer circumferential surface coupling part 11 is attached to the crown 30. Bonded and fixed. Each of the upper free ends 22 is positioned on an upper surface 12 of the resin abutment body 10, which is adhesively bonded to the crown 30.

Looking at the stage of the dental implant, first, the titanium implant body 40 is embedded in the alveolar bone 41 to produce a crown 30. After a certain period of time, the resin abutment body 10 is fixed on the titanium implant body 40 using a screw 50, and then the outer peripheral surface coupling portion 11 of the resin abutment body 10 is fixed. The crown 30 is joined by an adhesive. In the assembling process, the resin abutment body 10 has good elasticity, excellent strength, easy on-site processing, and not easily broken, so that the resin abutment body 10 can be assembled quickly and conveniently, and effectively bond strength of the crown 30 and The bond strength with the titanium implant body 40 can be improved. In addition, the crown 30 is not easily peeled off or tampered with, thus providing substantial practicality and convenience in use. In addition, the resin abutment 10 can be easily repaired and used by the dentist, the resin abutment 10 includes a substantial portion of the fiber central axis 20, the strength of titanium (titanium) or zirconium ( It is stronger than ceramic, Zirconia or stainless steel, the order of strength being fiber center axis 20 > titanium > zirconium < RTI ID = 0.0 > (zirconia) < / RTI > stainless steel. Furthermore, it is not easily broken due to a collision, and has elasticity, similar to natural teeth, to not damage bones, elasticity to absorb shock, and reduce damage to the base portion of the titanium implant body 40.

The glass fiber central axis (GLASSIX + plus) (Glass Fiber Post), the carbon fiber central axis, the quartz optical fiber central axis, the glass optical fiber central axis may be formed of single layer fiber, multilayer fiber or multilayer fiber to double the strength. That is, if a single layer fiber can withstand several pounds of load, the multilayer fiber can withstand tens of pounds of load, and the multilayer fiber can withstand hundreds of pounds of load.

A plurality of strands of fiber central axis 20 are formed in the resin abutment body 10.

The fiber central axis 20 may be designed as a single layer fiber.

4 and 5, the shape in which the plurality of strands of the fiber central axis 20 are formed in the resin abutment body 10 is illustrated. The optical fiber portion of the quartz optical fiber central axis and the glass optical fiber central axis consists of both layers of the first layer 23 and the second layer 23, the first layer 23 being a fiber core, The second layer 24 is a fiber cladding, which is fixed while surrounding the outside of the fiber core. Each of the layers described above is formed by gathering a plurality of strands of fiber central axes.

The cross section of the fiber center axis 20 described above may have a circular shape.

The cross section of the fiber center axis 20 described above may have a hexagonal shape.

Referring to FIG. 6, a plurality of strands of fiber central axis 20 are formed in the resin abutment body 10. The fiber central axis 20 is designed to be composed of multiple strands of fibers. In one embodiment, the fiber central axis is formed of three layers to include the first layer 23, the second layer 24, and the third layer 25, so that the multilayer fiber has a multiple of the impact absorption power of the single layer fiber. Make it bearable. Each of the layers described above consists of a plurality of strands of fiber central axis.

DESCRIPTION OF SYMBOLS 10: resin abutment 11 outer peripheral surface coupling part 12: upper surface
20: fiber central axis 21: bottom coupling end 22: upper free end
23: first layer 24: second layer 25: third layer
30: crown 40: titanium implant body
41: alveolar bone 50: screw

Claims (3)

A resin abutment body having an outer circumferential surface engaging portion formed therein;
A plurality of strands of fiber central axis formed in the resin abutment body, each of the fiber central axis is formed in the resin abutment body, having a bottom coupling end and an upper free end, each of the bottom coupling ends is an outer peripheral surface of the resin abutment body Located on the coupling portion, each of the upper free ends comprises a plurality of strands of fiber central axis located on the upper surface of the resin abutment body adhesively bonded to the crown,
The resin abutment body includes a fiber, the strength of which is stronger than that of titanium or zirconium (ceramic), does not easily break when colliding, and has elasticity so that it is similar to natural teeth and does not damage bones. And a fiber abutment structure of a dental implant that provides damage and reduces damage to the base portion. The method according to claim 1, wherein the fiber center axis may be a glass fiber center axis, a carbon fiber center axis, a quartz fiber center axis or a glass fiber center axis, each of the fiber center axis is formed of a single layer fiber, a multilayer fiber or a multilayer fiber I can. Each layer of the single layer fiber, the multilayer fiber, or the multi-layer fiber is composed of a plurality of strands of fiber central axis, wherein the multilayer fiber has a fiber core and a fiber cladding, wherein the fiber cladding is the fiber Fiber abutment structure of a dental implant fixed around the outside of the shim. The fiber abutment structure of dental implant according to claim 2, wherein the cross section of the fiber central axis has a circular or hexagonal shape.

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