KR20100118466A - Implant fixture with double taper - Google Patents

Abstract

PURPOSE: A fixture for an implant of double taper structure is provided, which can protect gum since the fixture is favorable for the occlusal force dispersion by dispersing stress. CONSTITUTION: A fixture for an implant of double taper structure comprises: a cylindrical body(102) in which a hollow is formed in order to fix an abutment in the axial direction from the upper side; and a screw thread(104) which is formed in the surface of the body. The external diameter of the topmost part of the cylindrical body is larger than the external diameter of the cervical region locating under the topmost part.

Description

[0001] IMPLANT FIXTURE WITH DOUBLE TAPER [0002]

More particularly, the present invention relates to an implant fixture having a double tapered structure. More specifically, the present invention relates to a fixture for a double tapered implant, The present invention relates to a fixture for an implant having a double-tapered structure in which the outer diameter of the body is minimized while the outer diameter of the lowermost end is minimized.

Implants used for the implantation of artificial teeth consist of a fixture immobilized on the alveolar bone and an abutment fixed on the fixture to support the artificial tooth.

The fixture is inserted into the hole formed by the drilling of the alveolar bone at various stages to replace the natural root. In this case, the perforation hole formed in the alveolar bone is formed such that its diameter is slightly smaller than the diameter of the body portion of the fixture. This is to secure the fixation force by inducing the tightening force of the alveolar bone by making the fixture fit to the alveolar bone.

1 is a cross-sectional view showing the structure of a fixture according to the prior art.

As shown in Fig. 1, a typical fixture 2 has a head portion 3 and a body portion 4. As shown in Fig.

The head portion 3 protrudes outward in the case of an external type but is embedded into the inside in the case of an internal type and has a polygonal surface .

The body portion 4 includes a collar 41, a vertical portion 43, a first inclined portion 45, and a second inclined portion 47.

The collar 41 is a portion contacting the alveolar bone after contact with the alveolar bone and is in contact with the gingival bone when bone loss occurs. Therefore, the affinity with the gingival is a very important factor.

The vertical portion 43 includes a vertical outer diameter surface 431 and a vertical inner diameter surface 432. The vertical outer diameter surface 431 is a ridged surface of the thread, and has the same outer diameter throughout the vertical portion. In addition, the vertical inner diameter surface 432 refers to the thread surface of the thread, and has the same inner diameter throughout the vertical portion.

The fixture having such a structure has a wedge effect after being inserted into the alveolar bone, and receives a strong tightening force of the alveolar bone. As a result, the initial fixation force and the fixation force at the final settlement can be improved.

Particularly, in the case of weak bones such as D3 to D4 grade (classified as D1 to D4 according to the strength of the bones, D1 grade indicates strong bone quality and D4 grade indicates weak bone quality), the diameter of the alveolar bone hole and the vertical part If the difference in diameters is uniform, the clamping force of the alveolar bone is deteriorated and the initial fixation force and final fixation fixation force are lowered and the implantation procedure sometimes fails. Therefore, by tapering the diameter of the vertical inner diameter surface 432, It is very important to enhance the clamping force and improve the clamping force.

The first inclined portion 45 is composed of a first inclined outer diameter surface 451 and a first inclined inner diameter surface 452. The first inclined outer diameter surface 451 is a ridged surface of a thread, Face 452 represents the bone surface of the thread. The first inclined outer diameter surface 451 and the first inclined inner surface 452 are reduced in diameter to the same inclination angle? 1 throughout the first inclined portion 45. [

The reason for giving the inclination angle is to maximize the stress dispersion effect of dispersing the stress concentrated on the cortical bone to the cancellous bone as in the case of the vertical portion as described above, and to secure a high initial fixation force at the time of implantation, .

However, in the fixture according to the related art, the uppermost portion of the body, that is, the diameter of the vertical portion 43 is made equal. In this case, stress is applied to the bone tissue surrounding the fixture immersed in the alveolar bone, and there is a problem that tissue necrosis occurs due to stress during the process of the alveolar bone fusion around the fixture after the end of the implant treatment.

In addition, since the uppermost part of the buried groove of the alveolar bone is equal to the maximum diameter of the fixture body, there is a problem in that the procedure is wrong or the alveolar bone is lost due to the inability to adapt to the occlusal force during long-term use after the procedure, and the fixture is removed from the alveolar bone.

In order to solve the above-described problems, the present invention is characterized in that the fixture is made thickest at the uppermost end, thinner at the upper end, thickest at the center and thickest at the lower end to form an S- The present invention also provides a fixture for a dual-tapered implant, which is capable of dispersing stress to protect the periodontal tissue against bite force dispersion.

In order to solve the above problems, the present invention provides a fixture for use in dental implants embedded in an alveolar bone, the fixture having a hollow cylindrical body for fixing an abutment axially from an upper surface thereof, Wherein an outer diameter of the cylindrical body is the first largest at an uppermost portion thereof, an outer diameter of a neck portion located at a lower portion of the uppermost portion is second smallest, an outer diameter of a central portion located below the neck portion is second largest, The outer diameter gradually decreases from the central portion to the bottom, and the outer diameter of the lowermost portion becomes the smallest.

According to another embodiment of the present invention, there is provided a fixture for use in dental implants embedded in an alveolar bone, the fixture having a hollow cylindrical body for fixing an abutment axially from an upper surface thereof, Wherein the height of the pitch of the thread is the first largest at the top and the pitch of the thread at the neck below the top is second small and the height of the pitch of the thread at the center below the neck is And the height of the pitch of the threads gradually decreases from the central portion to the bottom, so that the height of the lowermost portion becomes the smallest.

According to the present invention, the bonding force of the fixture is suitably improved to facilitate the implant procedure, and the fixture is firmly coupled with the alveolar bone and the alveolar bone.

Hereinafter, a fixture (hereinafter referred to as a fixture) for a double-tapered implant according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 2 is a perspective view showing the structure of a fixture according to an embodiment of the present invention, and FIG. 3 is a sectional view showing a cross-sectional structure of the fixture shown in FIG.

The fixture 100 of the present invention has a substantially cylindrical body 102 as in the prior art, and a thread 104 is formed on the surface of the body 102.

A hexagonal abutment coupling portion 106 protrudes from the upper surface of the body 102, and a cylindrical hollow 108 is formed in the center of the coupling portion 106.

The abutment joining portion 106 is used in an implant-type implant procedure, and the abutment is fixed to the fixture 100 while the engaging portion 106 is inserted into the groove formed at the lower portion of the abutment.

The hollow 108 is used in an implant-type implant procedure, and a column protruding from the lower portion of the abutment is inserted and fixed into the hollow 108 to be engaged.

The outer diameter of the column under the abutment and the inner diameter of the hollow 108 are substantially the same so that the column is firmly fitted in the hollow 108.

As shown in FIG. 3, the body 102 of the fixture 100 of the present invention has different outer diameters for each part.

That is, the uppermost portion 110 of the body 102 has the largest outer diameter, and the outer diameter of the neck portion 112 below the lower portion gradually decreases and then increases again. Overall, the outer diameter of the thinnest portion of the neck 112 is the second smallest of the entire body 102.

And the outer diameter of the central portion 114 is the second largest after the uppermost portion 110.

The outer diameter gradually decreases from the center portion 114 downward, and the smallest outer diameter at the lowermost end portion 116 is.

As a result, the fixture 100 of the present invention takes the form of a wide jar, so that the outermost outline of the fixture 100 becomes an S-shape. This form is similar to the root of the natural teeth and can be used to perform a fixture (100) implant suitable for the anatomy of the patient.

Since the height of the thread 104 formed on the body 102 is substantially uniform, the shape of the outer boundary line of the screw thread formed on the fixture 100 as a whole is similar to that of the body 102, It takes the form of a jar.

When the fixture 100 of this type is inserted into the alveolar bone, the lower end under the center portion 114 is tapered and easily inserted into the alveolar bone inside the alveolar bone. The outer diameter of the center portion 114 is the second largest, so that threads are automatically provided to the bone tissue during the fixture 100 insertion. When the operation is completed by the uppermost portion having the largest outer diameter, the initial binding force is increased.

When the fixture 100 is connected to the abutment having a small outer diameter, the space due to the difference in the outer diameter is terminated, and as time passes, more gum tissue is regenerated and the engaging portion 106 of the body 102 is re- Cover. The fixture 100 is then completely embedded in the gum and has the effect of protecting the periodontal tissue from mechanical microbiological stimuli from the outside when functioning in the mouth. In addition, since the outer diameter of the fixture 100 embedded in the alveolar bone becomes larger and smaller as it goes down, it is advantageous to disperse the occlusal force applied to the fixture 100. [

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

In the above-described embodiment, the outer diameter of the body 102 of the fixture 100 varies at the upper and lower portions, but the height of the thread 104 is constant. In the second embodiment 200, the shape of the body 202 may be a tapered shape having a constant outer diameter or inclined at a constant angle, and a pitch of the threads 204 may be different from each other, 200).

4, the height of the pitch of the screw thread 204 of the fixture 200 is made low, the height of the pitch of the center portion is made high again, and the height of the pitch is gradually decreased from the center portion to the bottom, The fixture 200 of the same jar shape can be produced.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

1 is a sectional view showing the structure of a fixture according to the prior art;

2 is a perspective view showing the structure of a fixture according to an embodiment of the present invention;

3 is a cross-sectional view showing a cross-sectional structure of the fixture shown in Fig.

4 is a sectional view showing a cross-sectional structure of a fixture according to another embodiment of the present invention;

[0001] Description of the Prior Art [0002]

100, 200: Fixture 102, 202: Body 104, 204:

106: abutment coupling portion 108: hollow 110: upper end

112: neck portion 114: central portion 116:

Claims (2)

A fixture that is embedded in an alveolar bone and used for a tooth implant, A cylindrical body having a hollow for fixing an abutment in an axial direction from an upper surface thereof, a thread is formed on a surface of the body, The outer diameter of the cylindrical body is the first largest at the top, The outer diameter of the neck portion located below the uppermost end is second smallest, The outer diameter of the central portion located below the neck portion is the second largest, And the outer diameter gradually decreases from the center portion to the bottom portion, so that the outer diameter of the lowermost portion becomes the smallest. A fixture that is embedded in an alveolar bone and used for a tooth implant, A cylindrical body having a hollow for fixing an abutment in an axial direction from an upper surface thereof, a thread is formed on a surface of the body, The height of the pitch of the threads is the first largest at the top, The height of the pitch of the threads of the neck portion located below the uppermost end is second smallest, The height of the pitch of the threads at the center located below the neck portion is the second largest, The height of the pitch of the threads gradually decreases from the central portion to the bottom, and the height of the lowermost portion becomes the smallest.

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