KR20200053090A - dental implant unit having stable clamping force - Google Patents

Abstract

The present invention relates to a dental implant unit capable of intraosseous transplantation with relatively stable clamping force. The implant unit comprises a crown; an abutment having one side coupled to the crown; and a fixture coupled to the other side of the abutment. The fixture comprises a plurality of recesses and biodegradable elastic members respectively provided in the recesses. The biodegradable elastic members have one sides fixed to inner side walls of the recesses, thereby stably improving clamping force of the fixture.

Description

Dental implant unit having stable clamping force

The present invention relates to an implant unit, and more particularly to a dental implant unit that can be implanted into the bone with a more stable fixing force.

In general, an artificial tooth is a tooth artificially created to be almost the same in appearance and function as a natural tooth when a natural tooth is missing due to various factors.

As an artificial tooth, a method of placing a prosthesis or denture as well as an alveolar bone is required, but the prosthesis or denture has many problems due to lifespan or inconvenience in use.

On the other hand, the method of placing the artificial teeth in the alveolar bone has the advantage of excellent appearance and function to the extent that it is difficult to distinguish it from the natural teeth after the implantation is completed without damaging other surrounding teeth. As it is semi-permanent, the utilization rate has been increasing rapidly in recent years.

An implant unit is used in the method of placing an artificial tooth into the alveolar bone.

1 is an exploded perspective view showing an example of a typical implant unit.

The implant unit is largely composed of a crown (1), an abutment (2) and a fixture (3).

The crown (1) is a dental prosthesis responsible for the basic function of teeth, and the implant (3) corresponds to the root that is fixedly supported by being inserted into the alveolar bone, and the abutment (2) is the crown (1) and implant (3). As a configuration that acts as an alternating liver, one side is combined with the crown 1 and the other side is combined with the buried body 3.

The abutment (2) and the implant (3) constituting the implant unit are made of a metal material that is human-friendly and has excellent rigidity. Therefore, it is harmless to the human body and has excellent properties.

However, such an implant structure, when a large amount of time has elapsed after being installed in the alveolar bone, there is a case where the implant 3 is loosened in the alveolar bone and shakes or falls out. In addition, the removal of the implant (3) during the artificial tooth placement procedure also occurred. Therefore, there is a need for an implant structure capable of solving the problem of lowering the fastening force.

An object of the present invention is to provide a dental implant unit that stably improves the fastening force of a buried body without significantly deforming a fastening structure compared to a conventional structure.

Another object of the present invention is to provide a dental implant unit having a stable fixing force that can prevent the removal of the implant body during the artificial tooth placement process.

Another object of the present invention is a dental having a stable holding force even after a long time by allowing a part of the alveolar bone to be embedded in the recess as the bioabsorbable elastic member is absorbed into the human body during the stabilization of the implant after the artificial tooth placement procedure. Providing an implant unit.

Features of the dental implant unit having a stable fixing force according to the present invention for achieving the above object, crown (crown); Abutment on one side of which is coupled to the crown; And includes a fixture (fixture) coupled to the other side of the abutment, the implant has a plurality of recesses and a bioabsorbable elastic member provided in each of the recesses, the bioabsorbable elastic member is one side of the lid It is fixed to the inner sidewall of the seth.

Preferably, the bioabsorbable elastic member is formed by bonding a first bioabsorbable metal sheet and a second bioabsorbable metal sheet, the first bioabsorbable metal sheet is provided on the outside, and the second bioabsorbable metal sheet is on the inside. It may be provided.

More preferably, the first bio-absorbable metal sheet and the second bio-absorbable metal sheet may have different shrinking forces depending on temperature.

More preferably, the first bio-absorbable metal sheet has a greater contractile force than the second bio-absorbable metal sheet, but the first bio-absorbable metal sheet and the agent by temperature in the process of implanting the implant in the alveolar bone 2 As the bioabsorbable metal sheet contracts at different ratios, the other side of the bioabsorbable elastic member may extend outwardly of the buried body.

According to the present invention, the fastening force of the implant is stably improved, so that the operator can safely and conveniently perform the procedure. In particular, since the bioabsorbable elastic member provided in the implant extends outward during the placement of the artificial teeth, it is possible to prevent the detachment phenomenon of the implant from falling out during the procedure.

In addition, after the artificial tooth procedure, as the bioabsorbable elastic member is absorbed by the human body, a part of the alveolar bone is embedded in the recess and fixedly supports the implant, so that the implant is loose in the alveolar bone and does not cause shaking or falling out. That is, even after a large amount of time has passed after the placement of the artificial teeth, the bone adhesion in the recess provides a stable fixation force.

1 is an exploded perspective view showing an example of a typical implant unit,
Figure 2 is a diagram showing a dental implant unit having a stable fixing force according to an embodiment of the present invention and a modification example in the implantation process thereof,
3 is a diagram showing a dental implant unit having a stable fixing force according to another embodiment of the present invention,
4 is a diagram showing an example fixed to the alveolar bone after the procedure of the dental implant unit having a stable fixing force according to the present invention.

Other objects, features and advantages of the present invention will become apparent through the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, the configuration and operation of the embodiment of the present invention will be described with reference to the accompanying drawings, and the configuration and operation of the present invention shown in the drawings and described by the present invention will be described as at least one embodiment. By the above, the technical idea of the present invention and its core configuration and operation are not limited.

Hereinafter, preferred embodiments of the dental implant unit having a stable fixing force according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a diagram showing a dental implant unit having a stable fixing force according to an embodiment of the present invention and a modification example in the implantation process, Figure 3 is a dental implant unit having a stable fixing force according to another embodiment of the present invention 4 is a diagram showing an example fixed to the alveolar bone after the procedure of the dental implant unit having a stable fixing force according to the present invention.

2 to 4, the dental implant unit according to the present invention can be largely composed of a crown (crown) 10, abutment (abutment) 20 and a fixture (fixture) (30).

The crown 10 is a dental prosthesis responsible for the basic function of teeth, and the implant 30 corresponds to a root supported by being fixedly inserted into the alveolar bone, and the abutment 20 is a crown 10 and a implant 30 As a structure that serves as a structural interface of the liver, one side is coupled to the crown 10 and the other side is coupled to the implant 30.

Abutment (20) and buried body (30) is a structure that is implanted from the gingiva to the alveolar bone while being combined with the crown (10), and as shown in the present invention, the abutment (20) and the buried body (30) are configured in a separated form Alternatively, the abutment 20 and the implant 30 may be composed of an implant structure configured in an integral form.

In the present invention, the abutment 20 and the implant 30 are described based on a structure composed of separate forms, but the present invention is not limited thereto, and one side is combined with the crown 10 and the other side is implanted from the gingiva to the alveolar bone. Dental implant units that include structures (integrated abutments and implants) should also be considered.

Particularly, as shown in FIGS. 2 to 4, the implant body 30 is provided in the recess 31 and the recess 31 in the form in which the implant structure is divided into the abutment 20 and the implant 30. It is provided with a bioabsorbable elastic member (32).

2 shows an example in which the buried body 30 is provided with one recess 31 and one bioabsorbable elastic member 32.

Meanwhile, the buried body 30 may include a plurality of recesses 31 and bioabsorbable elastic members 32 respectively provided in the recesses, an example of which is illustrated in FIG. 3.

One side of the bioabsorbable elastic member 32 is fixed to the inner sidewall of the recess 31, and the other side is not fixed.

Based on the direction in which the buried body 30 is placed, the recess 31 is formed to open the side, and the bioabsorbable elastic member 32 is formed to be extended to the top while being fixed to the lower sidewall.

The bioabsorbable elastic member 32 is absorbed by the human body and has a property of bending outward. To this end, the bioabsorbable elastic member 32 may be formed by bonding a plurality of bioabsorbable metal sheets, and a plurality of bioabsorbable metal sheets Can have different contractile forces.

For example, the bioabsorbable elastic member 32 may be formed by bonding a first bioabsorbable metal sheet and a second bioabsorbable metal sheet. The first bio-absorbable metal sheet is provided on the outside, the second bio-absorbable metal sheet is provided on the inside, and the first bio-absorbable metal sheet and the second bio-absorbable metal sheet can have different shrinking forces depending on the temperature.

In particular, the first bio-absorbable metal sheet provided on the outside may have a greater shrinking force than the second bio-absorbable metal sheet on the inside. Accordingly, the first bio-absorbable metal sheet and the second bio-absorbable metal sheet are contracted at different ratios by temperature in the process of placing the implant 30 in the alveolar bone.

Since the first bio-absorbable metal sheet provided on the outside has a greater contractile force than the second bio-absorbable metal sheet on the inside, the first bio-absorbable metal sheet by temperature during the process of implanting the implant 30 in the alveolar bone Shrinks larger than the second bioabsorbable metal sheet. Therefore, the other side of the non-fixed bioabsorbable elastic member 32 is extended to bend to the outside of the buried body.

As illustrated in FIG. 2, in the process of implanting the implant 30 into the alveolar bone, since the bioabsorbable elastic member 32 is straightened, implantation is easy, and while the implant 30 is implanted into the alveolar bone The absorbent elastic member 32 is gradually bent outward, and after the implant 30 is completely placed in the alveolar bone, the bioabsorbable elastic member 32 is completely curved outward, so that the implant is not removed from the alveolar bone. .

The bioabsorbable elastic member 32 of the present invention has a multi-layer structure, and the bioabsorbable metal sheet forming the multi-layer is poly-lactic acid (PLA), poly-glycolic acid (PGA), poly-lactide-co-glycolide (PLGA). , poly-L-lactide acid (PLLA), poly-carprolactone (PCL), ceramics (ceramic) or biocomposites. In addition, various biodegradable polymer resins are applicable.

It is preferable that the bioabsorbable metal sheet does not contract in the range of normal temperature (15 to 25 ° C) but contracts at body temperature.

As another example, the first bio-absorbable metal sheet provided on the outside has the same contractile force as the second bio-absorbable metal sheet on the inside, and the first bio-absorbable metal sheet provided on the outside is more than the second bio-absorbable metal sheet on the inside. It can have a thin thickness. Accordingly, the degree of shrinkage may be different due to the difference in thickness despite the same shrinkage force. Therefore, the other side of the non-fixed bioabsorbable elastic member 32 may be extended to bend to the outside of the buried body.

The recess 31 is a means for further improving the fixing force of the implant 30 after the bioabsorbable elastic member 32 is absorbed by the human body, and when a certain time passes after the artificial tooth procedure, the bioabsorbable elastic member 32 As it is absorbed by the human body, a part of the alveolar bone is buried in the recess 31 so that the buried body 30 is fixedly supported so as not to loosen or fall out.

As shown in FIG. 4, when the time elapses after the artificial tooth placement procedure, the bioabsorbable elastic member 32 is absorbed into the human body and bone adhesion occurs in the recess 31 to provide a stable fixing force.

The above description of the present invention describes an example in which the bioabsorbable metal sheet is composed of two layers, but the bioabsorbable metal sheet may be formed of at least three layers.

The preferred embodiments of the present invention have been described so far, but those skilled in the art to which the present invention pertains may be implemented in a modified form without departing from the essential characteristics of the present invention.

Therefore, the embodiments of the present invention described herein should be considered from a descriptive point of view rather than a restrictive point of view, and the scope of the present invention is shown in the claims rather than the above-described description, and all differences within the equivalent ranges of the present invention It should be interpreted as being included in.

10: Crown
20: Abutment
30: Fixture
31: Recess
32: bioabsorbable elastic member

Claims (4)

Crown;
Abutment with one side coupled to the crown; And
It includes a fixture (fixture) coupled to the other side of the abutment,
The buried body is provided with a plurality of recesses and bioabsorbable elastic members respectively provided in the recesses,
The bioabsorbable elastic member is a dental implant unit having a stable fixing force, characterized in that one side is fixed to the inner side wall of the recess According to claim 1,
The bioabsorbable elastic member,
The first bio-absorbable metal sheet and the second bio-absorbable metal sheet are formed by bonding, the first bio-absorbable metal sheet is provided on the outside and the second bio-absorbable metal sheet is provided with a stable fixing force, characterized in that provided on the inside Eggplant dental implant unit. According to claim 2,
The first bio-absorbable metal sheet and the second bio-absorbable metal sheet is a dental implant unit having a stable fixing force, characterized in that having a different contraction force according to the temperature. The method of claim 3,
The first bio-absorbable metal sheet has a greater contractile force than the second bio-absorbable metal sheet, but the first bio-absorbable metal sheet and the second bio-absorbable metal by temperature during the process in which the implant is placed in the alveolar bone The dental implant unit having a stable fixing force, characterized in that the other side of the bioabsorbable elastic member extends to the outside of the implant as the sheet is contracted at different ratios.

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