KR102038806B1 - Dental implants with a rigid fixation structure - Google Patents

Abstract

Disclosed is a dental implant. The dental implant comprises: a fixture (100) including a mounting hole (142) of an upper side on which a lower part of an abutment (200) is mounted, and a screw fastening hole (144) connected to the mounting hole (142) and fastened to a fixing screw (400); an abutment (200) including an outer shape including a protrusion mounted on the mounting hole (142), and a vertical through-hole extending from an upper end to a lower end, wherein the vertical through-hole includes a lower hole (212) and an upper hole (214) having a diameter larger than that of the lower hole (212) to have a locking protrusion (213) between the upper hole (214) and the lower hole (212); and a fixing screw (400) including a screw thread unit (440) fastened to the screw fastening hole (144) through a head unit (420) and the lower hole (212) locked to the locking protrusion (213), and a non-screw thread unit (430) formed between the head unit (420) and the screw thread unit (440), wherein a groove is formed at an end of a screw thread of the screw thread unit (440), a tip unit (445), which is made of a soft material compared to the screw thread unit (440) and has a thermal expansion coefficient greater than the screw thread unit (440), is formed on the groove at the end of the screw thread in an inserted form, a soft material unit (439), which is made of a soft material compared to the non-screw thread unit (430), is formed on an outer peripheral side of a boundary between the screw thread unit (440) and the non-screw thread unit (430), and the soft material unit (439) is transformed by being pressed by a screw thread start unit (149) formed on the screw fastening hole (144).

Description

Dental implants with a rigid fixation structure

The present invention relates to a dental implant having a rigid fixation structure, and more particularly, to a dental implant comprising a screw loosening suppression structure between a fixture and an abutment.

Dental implants are implants that perform the same function as their own teeth by implanting artificial roots made of special metal into the alveolar bone without damaging the surrounding teeth at the site where the tooth is missing.

In dental implants, loosening of the screw that secures between the abutment and the fixture frequently occurs. Screw loosening can lead to screwing of the screw connections, which can lead to marginal bone absorption or loss of bone adhesion due to deposition of bacterial membranes, screw fractures and overload of adjacent implants.

Vibrations or external forces on the implant cause fine movement between the fixture and the abutment, which results in a smooth contact interface that was not perfectly smooth, resulting in a force that holds the abutment and fixture in place. Weight is reduced, thereby causing screw loosening. When the abutment is screwed between the abutment and the fixture by the fixing screw, the abutment is elongated, and the tension inside the fixing screw resulting therefrom is called a preload. The charge charge acts as a clamping force to fix the abutment and fixture. To prevent screw loosening, the stability of the screw fastening between the abutment and the fixture is required, which is mainly affected by the preload that occurs when the tightening torque is applied. The charge load is affected by the metallurgical properties, geometry, and surface state friction coefficient of the screw. Conventionally, a washer or double screw fastening has been used to prevent screw loosening. However, in the related art, there are many limitations in restricting the screw loosening between the fixture and the abutment.

Republic of Korea Patent Publication No. 10-2018-0128206 (2018.12.03.) Republic of Korea Patent Publication No. 10-2017-0043241 (2017.04.21.)

Accordingly, the problem to be solved by the present invention is to provide a dental implant comprising a new configuration to suppress the loosening of the screw between the fixture and the abutment.

Dental implant according to an aspect of the present invention, a fixture that is embedded in the alveolar bone; Abutments to which artificial teeth are coupled; And a fixing screw fastening the abutment to the fixture, wherein the fixture is connected to an upper seating hole on which the lower portion of the abutment is seated and the seating hole and is fastened to the fixing screw. A fastening hole, wherein the abutment includes an outer shape including a stepped portion seated in the seating hole and a vertical through hole extending from an upper end to a lower end, wherein the vertical through hole is larger than the lower hole and the lower hole. And an upper hole having a diameter to form a locking step between the lower hole, wherein the fixing screw is screwed to be fastened to the screw fastening hole through the head part and the lower hole caught by the locking step; And a threadless thread portion formed between the head portion and the thread portion, and a groove is formed at a threaded end of the threaded portion, and a groove is formed at the threaded end. A tip portion, which is softer than the screw thread portion and has a larger coefficient of thermal expansion than the screw thread portion, is formed in an inserted form, and a soft material portion that is softer than the screwless thread portion is formed on the outer circumferential side of the boundary between the screw portion and the screwless thread portion The material portion is pressurized and deformed by the threaded start portion formed in the screw fastening hole. After deformation of the soft material portion, at least a portion of the threaded start portion is buried in the soft material portion, and the threaded start portion is formed by one or more projections.

According to one embodiment, a polygonal groove is formed on the upper surface of the head portion, a plurality of pin grooves are formed radially on the upper end of the abutment, the insert block is located on the upper portion of the vertical through hole to be placed on the upper portion of the head portion The insert block may include a polygonal insertion portion inserted into the polygonal groove formed under the body portion and the body portion, and pins radially formed on an outer circumference of the upper end of the body portion and seated in each of the pin grooves. A cap fastening screw portion is formed on an upper outer circumferential surface of the abutment, a cap fastened to the cap fastening screw portion covers an upper portion of the insert block, and a first engagement portion formed on a lower surface of the cap and an upper surface of the insert block. The second engagement portions formed in the engagement with each other.

The dental implant according to the present invention has the effect of being able to suppress the loosening of the fixing screw for fixing between the fixture and the abutment by simple constructions by a simple structure.

1 is a cross-sectional view for explaining the overall dental implant according to the first embodiment of the present invention,
FIG. 2 is an enlarged cross-sectional view of circle “A” of FIG. 1;
3 is a view for explaining a tip formed on the threaded portion of the fixing screw,
4 is a cross-sectional view taken along AA of FIG. 3,
5 is a cross-sectional view for explaining the overall dental implant according to the second embodiment of the present invention,
6 is a cross-sectional view taken along BB of FIG. 5.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention. It is to be noted that the accompanying drawings and embodiments are simplified and illustrated with the intention of helping those skilled in the art to understand the present invention.

[First Embodiment]

1 is a cross-sectional view for explaining the overall dental implant according to the first embodiment of the present invention, Figure 2 is an enlarged cross-sectional view of the circle "A" of Figure 1, Figure 3 is a threaded portion of the fixing screw 4 is a cross-sectional view taken along AA of FIG. 3.

As shown in FIG. 1, the dental implant according to the first embodiment of the present invention has an abutment in which a fixture 100 embedded in the alveolar bone 2 and an artificial tooth 500 called a crown are coupled. 200. In addition, the dental implant includes a fixing screw 400 for fastening the abutment 200 to the fixture (100).

During implant treatment, a buried hole is first formed in the alveolar bone 2 by a tool such as a drill (not shown). Next, the screw 120 is screwed into the recess hole by the thread 120 formed on the outer circumferential surface of the fixture 100, whereby the fixture 100 may be firmly fixed to the alveolar bone 2.

The fixture 100 includes a vertical hole extending a predetermined depth from the top to the bottom, the vertical hole is a seating hole 142 and the seating hole of the upper side on which the lower portion of the abutment 200 is seated ( It is connected to 142 and consists of a screw fastening hole 144 fastened to the fixing screw 400.

On the other hand, the abutment 200 has an external shape including a stepped jaw seated on the jaw provided in the seating hole 142, and also has a vertical through hole extending from the upper end to the lower end at the center. The vertical through hole may include a lower hole 212 allowing passage of the screw thread part 220 so that the screw thread part 220 of the fixing screw 200 is fastened to the screw tightening hole 144 of the fixture 100. ) And an upper hole 214 having a larger diameter than the lower hole 212 to form a locking step between the lower hole 212.

The head part 420 of the fixing screw 400 is caught on the locking step 213 at the boundary between the upper hole 214 and the lower hole 212 while being located at the lower side of the upper hole 214. Its height is maintained. In the present embodiment, the upper portion of the upper hole 214 of the abutment 200 remains empty.

The fixing screw 400 passes through the head portion 420 and the lower hole 212 of the abutment 200, which is caught by the locking jaw 213 formed in the vertical through hole of the abutment 200. A screw thread part 440 fastened to the screw fastening hole 144 of the fixture 100 and a threadless thread part 430 formed between the head part 420 and the thread part 440 are integrally included. The upper surface of the head portion 420 is formed with a polygonal groove 422 represented by hidden lines. The polygon groove 422 may be a groove into which a wrench (not shown) for tightening the fixing screw 400 is inserted when the fixing screw 400 is fastened to the screw fastening hole 144.

As illustrated in FIGS. 2 and 3, the threaded portion 440 has a groove formed at a threaded end thereof, the groove being softer than the threaded portion 440 and having a larger coefficient of thermal expansion than the threaded portion 440. Tip portion 445 is formed in the inserted shape. In this embodiment, all parts of the fixing screw except for the tip portion 445 are formed of Ti or Ti alloy material, and the tip portion 445 is formed of Au material. In this embodiment, the fixing screw is formed of Ti or Ti alloy material and the tip portion 445 is formed of Au material, but the material constituting the tip portion 445 has a variety of coefficients of thermal expansion larger than the material constituting the thread portion 440. Note that a kind of material can be selected and used.

The fixing screw is passed through a vertical through hole of the abutment 200 through the threaded portion 440 of the fixing screw 400 stored at a temperature lower than a human body temperature, more preferably, at a refrigerating temperature or a freezing temperature. When the threaded portion 440 of 400 is fastened to the screw fastening hole 144 of the fixture 100, the temperature of the fixing screw 400 rises due to body temperature, and the threaded portion 440 The tip portion 445 is formed in the thermal expansion, thereby, the tip portion 445 narrows the clearance between the threaded portion 440 and the screw fastening hole 144, thereby fixing the fastened to the fixture 100 Screw loosening of the screw 400 can be suppressed.

 As shown in FIGS. 2 and 4, the fixing screw 400 includes a soft material portion 439 formed on the outer peripheral side of the boundary between the screw portion 440 and the threadless thread portion 430. The soft material part 439 is formed of an Au material that is softer than Ti, which is a material constituting the threaded part 440 and the threadless threaded part 430 of the fixing screw 400 similarly to the tip part 445. The soft material part 439 is formed to be deformed by being pressed by the thread start part 149 of the screw fastening hole unlike the thread shape of the thread part 440.

At the time when the fastening of the fastening screw 400 is almost completed, that is, when the thread start portion 149 is in contact with the soft material portion 439, a tightening force on the fastening screw 400 is additionally applied. The thread starting portion 149 is buried in the soft material portion 439 while pressing the soft material portion 439.

The thread start portion 149 may be formed of one or more spiral protrusions defined by grooves formed at a portion where the thread of the screw coupling hole 144 starts. In the state where the thread start portion 149 made of one or more threaded protrusions is buried in the soft material portion 439, the soft material portion 439 may be provided even if external force or vibration is provided to cause the fixing screw 400 to loosen. Due to the deformation due to thermal expansion of the thread starting portion 149, it is difficult to retreat in the direction opposite to the fastening direction. Therefore, the structure consisting of the spiral protrusion of the thread start portion 149 further contributes to suppressing loosening of the fixing screw 400.

Second Embodiment

FIG. 5 is a cross-sectional view for explaining the dental implant according to the second embodiment of the present invention, and FIG. 6 is a cross-sectional view taken along B-B of FIG. 5.

5 and 6, the dental implant according to the second embodiment of the present invention, as in the first embodiment, the fixture 100 embedded in the alveolar bone and the artificial tooth called the crown is coupled Abutment 200 is included. In addition, the dental implant includes a fixing screw 400 for fastening the abutment 200 to the fixture (100).

The fixture 100 includes a vertical hole extending a predetermined depth from the top to the bottom, the vertical hole is a seating hole 142 and the seating hole of the upper side in which the lower portion of the abutment 200 is seated ( It is connected to 142 and consists of a screw fastening hole 144 fastened to the fixing screw 400.

The abutment 200 has an outer shape including a stepped portion seated in the seating hole 142 and further includes a vertical through hole extending from an upper end to a lower end in the center. The vertical through hole may include a lower hole 212 allowing passage of the threaded portion 440 such that the threaded portion 440 of the fixing screw 400 is fastened to the screwed fastening hole 144 of the fixture 100. ) And an upper hole 214 having a larger diameter than the lower hole 212 to form a locking step between the lower hole 212. The head portion 420 of the fixing screw 400 is located on the lower side of the upper hole 214 and is caught by a locking jaw at the boundary between the upper hole 214 and the lower hole 2312. maintain.

The fixing screw 400 passes through the head portion 420 caught by the locking jaw formed in the vertical through hole of the abutment 200 and the vertical through hole of the abutment 200. The screw threaded portion 440 fastened to the screw fastening hole 144 of the head portion 420 and the threaded portion 430 formed between the screw threaded portion 440 is integrally included. Polygonal grooves 422 are formed in the head part 420. The polygon groove 422 may be a groove into which a wrench (not shown) for tightening the fixing screw 400 is inserted when the fixing screw 400 is fastened to the screw fastening hole 144.

In this case, the threaded portion 440 has a groove formed in the end of the thread, the groove is formed in the form that the tip portion 445 is softer than the threaded portion 440 and the thermal expansion coefficient larger than the threaded portion 440 is inserted. do. In this embodiment, all parts of the fixing screw 400 except for the tip portion 445 are formed of Ti or a Ti alloy material, and the tip portion 445 is formed of Au material.

Meanwhile, the fixing screw 400 includes a soft material portion 439 at a boundary between the thread portion 440 and the threadless portion 430. The soft material portion 439 is formed of an Au material that is softer than Ti, which is a material of another portion of the fixing screw 400, similarly to the tip portion 445. The soft material part 439 is formed to be deformed by being pressed by the thread start part 149 of the screw fastening hole 144 unlike the thread shape of the thread part 440.

When the fastening of the fixing screw 400 is almost completed, that is, when the thread start portion 149 is in contact with the soft material portion 439, the tightening force of the fixing screw 400 is further applied The thread starting portion 149 is buried in the soft material portion 439 while pressing the soft material portion 439. The thread start portion 149 may be formed of one or more spiral protrusions defined by grooves formed at a portion where the thread of the screw coupling hole 144 starts.

In addition, according to the second embodiment of the present invention, a plurality of pin grooves 202 are formed radially on the upper end of the abutment 200. The pin grooves 202 are radially formed around the vertical through hole described above.

In addition, the insertion block 600 for preventing loosening is inserted into an upper portion of the vertical through hole of the abutment 200 to be positioned above the head portion 420 of the fixing screw 400. The insert block 600 is formed in the cylindrical body portion 620 and the lower portion of the body portion 620 is a polygon insertion portion inserted into the polygon groove 422 formed in the head portion 420 of the fixing screw 400 640 and pins 660 formed radially on the upper outer circumferential surface of the body 620 and seated in each of the pin grooves 202.

The insert block 600 is fixed to the abutment 200 by inserting the polygon insert 640 into the polygon groove 422 and inserting the pins 660 into the pin grooves 202. The relative movement between the screws 400 can be restrained.

In addition, a cap fastening screw 201 is formed in an upper outer circumferential surface area of the abutment 200, and a cap 700 fastened to the cap fastening screw 201 covers an upper portion of the insert block 600. At this time, the first engagement portion 704 formed in the form of a protrusion on the bottom surface of the cap 700 is engaged with the second engagement portion 604 formed in the groove shape on the upper surface of the insert block 600 is more firm and stable. Loosening prevention can be implemented.

100: fixture 142: seating hole
144: screw fastening hole 200: abutment
212: lower hole 213: locking jaw
214: upper hole 400: fixing screw
420: head portion 430: threadless thread portion
439: soft material portion 440: threaded portion
445: tip portion 149: thread start portion

Claims (2)

Fixture 100 is embedded in the alveolar bone;
Abutment 200 to which artificial teeth are coupled; And
It includes a fixing screw 400 for fastening the abutment 200 to the fixture (100),
The fixture 100 is connected to the upper mounting hole 142 and the seating hole 142 on which the lower portion of the abutment 200 is seated, and a screw fastening hole fastened to the fixing screw 400 ( 144, wherein the abutment 200 includes an outer shape including a stepped portion seated in the seating hole 142 and a vertical through hole extending from an upper end to a lower end, wherein the vertical through hole is a lower hole. 212 and an upper hole 214 having a larger diameter than the lower hole 212 to form a locking jaw 213 between the lower hole 212 and the fixing screw 400. A threaded portion 440 fastened to the screw fastening hole 144 by passing through the head portion 420 and the lower hole 212 caught by the locking jaw 213, and the head portion 420 and the threaded portion ( And a threadless threaded portion 430 formed between 440, a groove is formed at a threaded end of the threaded portion 440, and the threaded portion is formed. A tip portion 445 that is softer than the threaded portion 440 and has a larger coefficient of thermal expansion than the threaded portion 440 is formed in the groove of the end, and is formed between the threaded portion 440 and the threadless portion 430. A soft material portion 439 that is softer than the threadless thread portion 430 is formed on the outer circumferential side of the boundary, and the soft material portion 439 is pressurized by a thread start portion 149 formed in the screw fastening hole 144. And deform, after deformation of the soft material portion 439, at least a portion of the thread starting portion 149 is buried in the soft material portion 439, and the thread starting portion 149 consists of one or more protrusions. The upper surface of the head portion 420, a polygonal groove 422 is formed, a plurality of pin grooves 202 are formed radially on the upper end of the abutment 200, the insert block 600 is Inserted in the upper portion of the vertical through hole to be placed on the top of the head portion 420 The insert block 600 is formed at the lower portion of the body portion 620 and the body portion 620 and is inserted into the polygonal groove 422 and the top of the polygonal insertion portion 640 and the body portion 620. A radially formed on the outer circumference includes pins 660 seated in each of the pin grooves 202, the cap fastening screw 201 is formed on the upper outer peripheral surface of the abutment 200, the cap fastening screw ( A cap 700 coupled to 201 covers an upper portion of the insert block 600, and a first engagement portion 704 formed on a lower surface of the cap 700 and an upper surface of the insert block 600. Dental implant, characterized in that the second engaging portion (604) formed to engage with each other.


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