KR20200145265A - Frictional implant - Google Patents

Abstract

A friction-combining type implant according to the present invention includes: a bone insertion unit inserted into an alveolar bone; and a fixture extending from the bone insertion unit to be exposed over the gum so that an abutment or a prosthesis is combined, and provided with an upper connection part with a groove formed inward from the top, wherein the upper connection part is formed with a tapered portion inclined at 1° to 6° on the outer circumferential surface and the inner circumferential surface of the groove in order to frictionally engage with the abutment or the prosthesis, and the groove is further threaded. Accordingly, the abutment or prosthesis is fixed to the fixture without using screws.

Description

Frictional implant {Frictional implant}

The present invention relates to a friction-coupled implant, and more particularly, to a friction-coupled implant capable of fixing an abutment or a prosthesis to a fixture without using screws.

Dental implant refers to an artificial tooth structure formed by implanting an artificial root in the area where the tooth is partially or completely lost and adhering it to the alveolar bone, and fixing a prosthesis or crown to the artificial root, or this dental procedure method. do. In general, implants are composed of a fixture made of titanium, an abutment fixed on the fixture, and a prosthesis, which is an artificial tooth fixed to the abutment.In order to perform an implant, the alveolar bone After the fixture is placed, the abutment is fixedly attached to the fixture using screws, and then the artificial tooth is fixedly covered with cement on the abutment.

When the abutment is fixedly coupled to the fixture using a screw as described above, there is a problem that the screw is loosened by the mastication force. In order to solve the above problems, Korean Patent No. 1029068 discloses a frictionally coupled dental implant that is coupled by using a mutual frictional force between an abutment and a fixture. 5 is a cross-sectional view of a conventional friction-coupled dental implant disclosed in Korean Patent No. 1029068.

Referring to FIG. 5, in the conventional friction-coupled dental implant, an abutment assembly 550 is formed within the gum 2. So, in order to combine the prosthesis, an abutment is required. In addition, when the abutment is coupled, there is a problem that the coupling force is weak because the abutment is frictionally coupled only to the frictional coupling portion 552 on the outer circumferential surface. In addition, in order to couple the abutment to the abutment assembly 550, the abutment must be pressurized, but since it is performed in the patient's oral cavity, it is difficult to couple the abutment to the abutment assembly 550 by applying a certain load. There is a problem that it is difficult.

The present invention is to solve the above problems. An object of the present invention is to provide a frictionally coupled implant capable of frictionally engaging not only outside but also inside.

In addition, it is an object of the present invention to provide a frictionally coupled implant capable of frictionally engaging an abutment or a prosthesis by easily pressing it.

The friction-coupled implant according to the present invention has a bone insertion part inserted into the alveolar bone, and an upper connection part extending from the bone insertion part so as to be exposed above the gum so that the abutment or prosthesis can be combined and formed with a groove from the top to the inside. Includes a fixture, wherein the upper connection portion has a tapered portion inclined at 1° to 6° on an outer circumferential surface and an inner circumferential surface of the groove for frictionally coupling with the abutment or the prosthesis, and the groove is below the tapered portion of the groove In order to frictionally couple the abutment or the prosthesis, a screw thread that can be bolted to be pressed with a bolt is further formed.

In addition, in the friction-engaging implant, a fastening groove into which the upper end of the upper connection portion can be inserted, and a through hole through which the bolt can be inserted through to screw thread with the thread of the groove of the fixture are formed. It is preferable to further include the abutment, and the fastening groove of the abutment is preferably formed to be tapered at 1° to 6° so as to be frictionally coupled with the upper connection part, and the abutment is the bolt Is preferably screwed with the fixture and pressed by the bolt.

In addition, in the friction-coupled implant, it is preferable that the abutment is formed such that the bottom of the fastening groove is formed with a gap at a predetermined distance from the upper end of the upper connection portion.

In addition, in the frictional coupling implant, it is preferable that the upper connection portion further includes a plurality of coupling grooves formed along the circumferential direction in at least one of the outer peripheral surface and the tapered portion of the groove.

According to the present invention, the tapered portion of the fixture is inclined at 1° to 6° and is formed on the outer peripheral surface of the upper connection portion and the inner peripheral surface of the groove. Therefore, it is possible to increase the coupling force because it is frictionally coupled with the abutment or prosthesis not only from the outside but also from the inside.

In addition, according to the present invention, the upper connection portion extends from the bone insertion portion to be exposed over the gum. So, when combining the prosthesis, it is possible to combine the prosthesis without using an abutment.

In addition, according to the present invention, since a thread is formed in the groove of the upper connection part and a through hole is formed in the abutment, the abutment can be pressed with a screw when the abutment is fastened to the upper connection part. So, when the abutment is coupled, the abutment can be easily pressed.

Further, according to the present invention, a groove formed with a tapered portion is formed in the upper connection portion. Accordingly, not only the abutment coupled to the outer circumferential surface of the upper connection portion but also the abutment coupled only to the groove of the upper connection portion can be mounted. So, if necessary, abutment with a small diameter can be combined.

1 is a cross-sectional view of an embodiment of a frictionally coupled implant according to the present invention,
2 is a cross-sectional view of the fixture of the embodiment shown in FIG. 1;
Figure 3 is a cross-sectional view of the abutment of the embodiment shown in Figure 1,
4 is a cross-sectional view of another embodiment of a frictionally coupled implant according to the present invention,
5 is a cross-sectional view of a conventional friction-coupled dental implant.

An embodiment of a friction-coupled implant according to the present invention will be described with reference to FIGS. 1 to 3.

The friction-coupled implant according to the present invention includes a fixture 10 and an abutment 20.

The fixture 10 includes a bone insertion part 11 and an upper connection part 13.

The bone insertion part 11 is inserted into the alveolar bone 1. Here, the bone insertion part 11 is formed with a screw thread in the longitudinal direction on the outer peripheral surface so that it can be inserted while digging into the alveolar bone 1.

The upper connection part 13 extends from the bone insertion part 11 to be exposed above the gum 3 so that the abutment 20 or the prosthesis can be coupled, and a groove 15 is formed from the upper end 14 to the inside. . Here, the upper connecting portion 13 has a tapered portion 17 formed on the outer peripheral surface and the inner peripheral surface where the groove 15 is formed. At this time, in the groove 15 in which the tapered portion 17 is formed, a thread 16 is further formed under the tapered portion 17.

The tapered portion 17 is frictionally coupled with the abutment 20 or the prosthesis, and tapers to widen from the top 14 to the bottom of the upper connection 13. At this time, the inclined angle α of the tapered portion 17 is preferably 1° to 6°. In this embodiment, since the tapered portion 17 is formed outside and inside the upper connection portion 13, it is possible to increase the bonding force with the abutment 20 or the prosthesis.

The screw thread 16 formed in the groove 15 is screwed with the screw so that a screw (not shown) presses the abutment 20 or the prosthesis to frictionally engage the upper connection part 13.

The abutment 20 has a fastening groove 21 and a through hole 23 and is frictionally coupled to the fixture 10.

In the fastening groove 21, the upper end 14 of the upper connection part 13 is inserted. Here, the fastening groove 21 is tapered by 1° to 6° so that it can be frictionally coupled with the upper connection part 13, and the bottom 21a is a gap (d) between the upper end 14 of the upper connection part 13 and a certain distance. ) Is formed to be formed. At this time, the gap (d) is preferably formed of 0.1mm ~ 3mm.

The through hole 23 is penetrated so that the screw can be inserted. After inserting the upper end 14 of the upper connection part 13 into the fastening groove 21, inserting the screw into the through hole 23 and combining it with the thread 16 of the groove 15 causes the abutment 20 to screw Is pressurized and frictionally coupled with the upper connection part 13. When the abutment 20 is coupled, the screw is disassembled and separated. In addition, in the case of the abutment 20, a gap d is formed between the upper end 14 of the upper connection part 13. In this case, the abutment 20 may be sufficiently deformed and frictionally coupled to the upper connection part 13.

In the conventional case, as shown in FIG. 5, the abutment combination 550 is formed within the gum 2 in the friction-coupled dental implant. So, in order to combine the prosthesis, an abutment is required. In addition, when the abutment is coupled, there is a problem that the coupling force is weak because the abutment is frictionally coupled only to the frictional coupling portion 552 on the outer circumferential surface. In addition, in order to couple the abutment to the abutment assembly 550, the abutment must be pressurized, but since the work is performed in the patient's oral cavity, a certain load is applied to couple the abutment to the abutment assembly 550. There was a problem that it was difficult to do.

On the other hand, in the case of this embodiment, the upper connection part 13 of the fixture 10 extends from the bone insertion part 11 so as to be exposed over the gum 2. So, if the patient's teeth are small, the prosthesis can be directly coupled to the fixture 10 without using the abutment 20. That is, according to the patient's tooth condition or the prosthesis to be coupled, the abutment 20 is frictionally coupled to the fixture 10, and then the prosthesis is coupled to the fixture 10, or the prosthesis is frictionally coupled to the fixture 10 without the abutment 20. I can. In addition, in the case of the present embodiment, the upper connection portion 13 of the fixture 10 has a tapered portion 17 inclined at 1° to 6° on the outer circumferential surface and the inner circumferential surface of the groove 15. Therefore, since the upper connection part 13 is frictionally coupled with the abutment 20 not only outside but also inside, the coupling force can be increased.

Meanwhile, in the case of the present embodiment, the abutment 20 is frictionally coupled to both the outer circumferential surface of the upper connection part 13 and the inner circumferential surface where the groove 15 is formed. Thus, the diameter of the abutment 20 is larger than the diameter of the upper connection part 13. Depending on the embodiment, a small diameter prosthesis needs to be mounted. In this case, an abutment inserted only in the groove 15 of the upper connection part 13 may be mounted on the fixture 10. An abutment having a diameter smaller than that of the upper connection part 13 may be coupled to the fixture 10. So, in this case, the abutment or the prosthesis coupled to the fixture 10 is frictionally coupled only to the inside of the upper connection part 13. In addition, since the screw thread 16 is formed in the groove 15 of the fixture 10, the upper connection part 13 may be frictionally engaged outside and the upper connection part 13 may be screwed with a screw. That is, in the case of the present embodiment, the abutment or the prosthesis may be frictionally coupled both externally and internally of the upper connection part 13 of the fixture 10, frictionally coupled only internally, or frictionally coupled only externally and screwed with a screw. have.

In addition, in the case of the present embodiment, the abutment 20 is formed with a through hole 23 and a thread 16 is formed in the groove 15 of the fixture 10. In order to frictionally couple the abutment 20 to the fixture 10, a constant load must be applied. So, after inserting a screw into the through hole 23 so that a constant load can be applied to the abutment 20, the screw is screwed with the thread 16 of the fixture 10. Then, the screw may pressurize the abutment 20 with a constant load to be frictionally coupled to the fixture 10. In addition, in the case of this embodiment, since the tapered portion 17 of the fixture 10 and the fastening groove 21 of the abutment 20 are tapered by 1° to 6°, the upper end 14 of the upper connection portion 13 is When inserted into the fastening groove 21 of the abutment 20 and frictionally coupled, the abutment 20 may be frictionally coupled to the fixture 10 more easily.

4 is another embodiment of a frictionally coupled implant according to the present invention. Another embodiment of the friction-coupled implant according to the present invention will be described with reference to FIG. 4.

In the fixture 10 of the friction-coupled implant according to FIG. 4, a coupling groove 18 is formed in a tapered portion 17a of the outer circumferential surface of the upper connection portion 13 and a tapered portion 17b of the groove 15.

The coupling groove 18 may be formed either or both of the tapered portion 17a of the outer peripheral surface of the upper connection portion 13 or the tapered portion 17b of the groove 15, and is formed along the circumferential direction. When the abutment 20 and the upper connection part 13 contact each other, in theory, the surface contact should be made. However, since it is impossible to perform ideal processing, point contact occurs. In this case, if the coupling groove 18 is formed, the surface of the abutment 20 is deformed in the direction of the coupling groove 18 when the abutment 20 is pressed, so that the abutment 20 and the upper connection part 13 ) To increase the contact area. Accordingly, it is possible to increase the frictional force between the abutment 20 and the upper connection part 13. At this time, it is preferable that a plurality of coupling grooves 18 are formed along the axial direction. The remaining components are the same as those of the embodiments shown in FIGS. 1 and 2, and thus detailed descriptions thereof will be omitted.

1: alveolar bone 2: gum
10: fixture 11: bone insertion
13: upper connection 14: upper
15: groove 16: thread
17 (17a, 17b): tapered portion 18: coupling groove
20: abutment 21: fastening groove
21a: bottom 23: through hole

Claims (4)

It includes a fixture having a bone insertion portion inserted into the alveolar bone, and an upper connection portion extending from the bone insertion portion so as to be exposed above the gum so that the abutment or prosthesis can be coupled and having a groove inwardly from the top,
The upper connection portion has a tapered portion inclined at 1° to 6° on an outer circumferential surface and an inner circumferential surface of the groove in order to frictionally couple with the abutment or the prosthesis, and the groove is under the tapered portion of the groove. Or a friction-coupled implant, characterized in that a screw thread that can be bolted to be pressed with a bolt to frictionally couple the prosthesis is further formed. The method of claim 1,
The abutment further includes a fastening groove into which an upper end of the upper connection portion can be inserted, and a through hole having a through hole through which the bolt can be inserted through the screw thread of the groove of the fixture,
The fastening groove of the abutment is formed to be tapered at 1° to 6° so as to frictionally engage with the upper connection part,
The abutment is a friction-coupled implant, characterized in that the bolt is screwed with the fixture and pressed by the bolt. The method of claim 2,
The abutment is a friction-coupled implant, characterized in that the bottom of the fastening groove is formed such that a gap is formed with an upper end of the upper connection portion at a predetermined interval. The method of claim 3,
The upper connection portion friction-coupled implant, characterized in that a plurality of coupling grooves formed along the circumferential direction are further formed in at least one of the outer peripheral surface and the tapered portion of the groove.

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