KR102087953B1 - Fixture - Google Patents

Abstract

The present invention relates to a fixture, and more particularly to a screw-type implant implanted in the alveolar bone.
Fixture of the present invention by forming a female thread on the inner peripheral surface of the groove for insertion of bone tissue by a plurality of cutting edges at the lower end of the shaft portion to guide the placement of the shaft portion to improve the work efficiency, when bone adhesion is part of the bone tissue is drawn into the cutting edge There is an advantage to improve the fixing force to the bone tissue.
In addition, the fixture of the present invention has the advantage that the second screw thread protruding with a length less than the first screw thread of the first screw thread of the shaft portion is formed to increase the fixing force to the bone tissue.

Description

Fixtures {Fixture}

The present invention relates to a fixture, and more particularly to a screw-type implant implanted in the alveolar bone.

In general, dental implants have large fixtures (= substructures) placed in the alveolar bone, abutments that connect to the fixtures, and artificial dental prostheses that are mounted to the abutments. It consists of. More specifically, the fixture is a threaded portion formed on the outer surface, the upper surface is formed in the form of a screw hole for abutment connection of a predetermined depth penetrated therein, the abutment period after the abutment Since the fasteners are fastened, cover screws are fastened to the abutment connection screw holes before the abutment is fastened.

The most important point in the dental implant having such a configuration is that the strong adhesion of the fixture to the alveolar bone must be made in order to withstand the cyclic load generated during chewing of food, and for this purpose, the bone adhesion around the implant fixture This must happen effectively.

Here, the implant procedure is briefly described as follows.

When implanting the fixture into the alveolar bone, the gums are widened and implanted into the alveolar bone with the flap technique exposing the alveolar bone with the flap technique. After the cover screw is fastened to the upper part of the fixture, the first operation is completed by collecting the flaps again.

At this time, while the cover screw is waiting for the fixture to be bone-bonded to the alveolar bone, bacteria and foreign substances remaining in the oral cavity are prevented from penetrating into the fixture, that is, the screw hole for abutment connection. It is concluded. After the fixation and the cover screw, the fixation time is usually 3-6 months.

Next, remove the cover screw by opening the gingival through the second operation, and fasten the abutment (abutment) to the screw hole formed on the upper part of the fixture, and by mounting an artificial crown that acts as a real tooth on the implant procedure, This is done.

However, the general fixture is rotated many times in the bone tissue to form a female thread in the bone tissue, and the implantation is performed. At this time, the bone tissue is solid and the implantation work is not easy, and even after the implantation, the bone is adhered by the impact or vibration applied from the outside. There is a disadvantage in that the reverse rotation in the opposite direction to the placement direction is separated from the bone tissue or the bonding force is lowered.

Republic of Korea Patent Publication No. 10-0817209: Dental implant fixture

An object of the present invention is to provide a fixture provided with a plurality of cutting edges to guide the implantation by forming a female thread on the inner circumferential surface of the groove for bone tissue insertion.

Fixture of the present invention for achieving the above object and the shaft portion is formed with a first screw thread extending spirally on the outer peripheral surface; A plurality of cutting edges are spaced apart from each other along the circumferential direction of the lower end of the shaft to be self-tapped when placed in the alveolar bone, the cutting edges are respectively introduced into a predetermined depth from the outer peripheral surface of the shaft, the longitudinal direction of the shaft Extending along and radially arranged about the center of the shaft portion, wherein the shaft portion is at the end of the radially extending first cut surface and the first cut surface adjacent to the center of the shaft portion; Extends in a direction opposite to the rotational direction to be implanted in the second cutting surface and is orthogonal to the first cutting surface, and the shaft portion is formed between the first screw threads at a lower portion where the cutting edge is formed. And a second screw thread protruding from the outer circumferential surface of the shaft portion with a length less than the first screw thread.

The cutting edge has an auxiliary fixing groove for preventing the shaft portion from being released in the direction opposite to the rotation direction to be inserted into the alveolar bone in the first cutting surface is inserted into the rotational bone.

The cutting edges are divided into a first cutting edge and a second cutting edge spaced apart at equal intervals in the circumferential left and right directions of the shaft portion, and the shaft portion is separated from the first cutting surface of the first cutting edge. It is formed through the first incision surface of the cutting edge is provided with a bone tissue inlet hole in which bone tissue is introduced to guide the fixation to the bone tissue.

The shaft portion is preferably formed of a zirconia material.

Fixture of the present invention by forming a female thread on the inner peripheral surface of the groove for insertion of bone tissue by a plurality of cutting edges in the lower end of the shaft to guide the placement of the shaft to improve the work efficiency, when bone adhesion is part of the bone tissue is drawn into the cutting edge There is an advantage to improve the fixing force to the bone tissue.

In addition, the fixture of the present invention has the advantage that the second screw thread protruding with a length less than the first screw thread of the first screw thread of the shaft portion is formed to increase the fixing force to the bone tissue.

1 is a perspective view of a fixture according to a first embodiment of the present invention,
2 is a side view of the fixture of FIG. 1,
3 is a rear view of the fixture of FIG. 1,
4 is a rear view of a fixture according to a second embodiment of the present invention;
5 is a rear view of a fixture according to a third embodiment of the present invention.

Hereinafter, a fixture according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 illustrate a fixture 100 according to a first embodiment of the present invention.

Referring to the drawings, the fixture 100 is implanted in the bone tissue of the human body, the shaft portion 110 is formed with a first screw thread 111 extending spirally on the outer peripheral surface; A plurality of cutting edges 120 are provided to be spaced apart from each other along the circumferential direction of the lower end of the shaft 110 so as to be self-tapping when placed in the alveolar bone.

At this time, the bone tissue is made of cortical bone and spongy bone. The spongy bone is a relatively soft bone tissue inside the bone, and the cortical bone is harder than the spongy bone and generally forms a relatively thin film surrounding the spongy bone. Therefore, when the fixture is fully implanted in the bone tissue, the length of the portion in contact with the cancellous bone is greater than the length of the portion in contact with the cortical bone.

The shaft portion 110 is formed in a cylindrical shape extending in the vertical direction, the first screw thread 111 and the second screw thread 116 is formed on the outer peripheral surface. A fastening hole is formed on an upper surface of the shaft part 110 so that an abutment for an implant can be fastened.

The first screw thread 111 is preferably formed of a trapezoidal screw having a first ridge.

The first slope of the first screw thread 111 is provided with a first inclined surface 112 tapered at a predetermined inclination angle with respect to an imaginary extension line extending upward of the first peak of the first screw thread at a position adjacent to the lower side. .

The first inclined surface 112 is formed to be inclined so that the upper end portion is farther from the center of the first shaft portion than the lower end portion, and extends along the first screw thread 111 from an uppermost end of the first screw thread. When the first screw thread 11 enters the bone tissue when the shaft portion 110 is placed in the bone tissue, the first inclined surface 112 has the shaft portion 110 fitted into the bone tissue so that the fixing force of the shaft 110 against the bone tissue is increased. Let's do it. The first inclined surface 112 is preferably inclined at 6 ° to 12 ° to increase the fixing force by the interference fit of the shaft portion.

The second screw thread 116 is formed between the first screw thread 111 at a lower portion where the cutting edge 120 is formed, and protrudes from the outer circumferential surface of the shaft portion 110 to have a length smaller than that of the first screw thread 111. 1 It extends downward along the extension direction of the screw thread. As shown, the second screw thread 116 is preferably formed of a trapezoidal screw having a second ridge so as to increase fixation force to the bone tissue.

The second hill floor of the second threaded mountain 116 is provided with a second sloped surface 117 tapered at a predetermined inclination angle with respect to an imaginary extension line extending above the second mountain floor of the second threaded mountain at a position adjacent to the lower side. .

The second inclined surface 117 is formed to be inclined so that the upper end portion is farther from the center of the first shaft portion than the lower end portion, and extends along the second screw thread 116 from the uppermost end of the second screw thread. When the second screw thread 116 enters the bone tissue when the shaft portion 110 is placed in the bone tissue, the second slope 117 is pressed against the bone tissue by the shaft portion 110 to the bone tissue. The fixing force of the shaft portion 110 is increased. The second inclined surface 117 is preferably inclined at 6 ° to 12 ° like the first inclined surface 112 so as to increase the fixing force due to the interference fit of the shaft portion.

The plurality of cutting edges 120 are respectively introduced into the predetermined depth from the outer circumferential surface of the shaft portion 110, extend along the longitudinal direction of the shaft portion 110, and are arranged radially with respect to the center of the shaft portion 120. 120 is a radially extending first incision surface 123 of the shaft portion 110, the shaft portion 110 is placed in the alveolar bone at the end of the first incision surface 123 adjacent to the center of the shaft portion 110. The second cutting surface 124 extends in a direction opposite to the rotation direction and is orthogonal to the first cutting surface 123.

Cutting edge 120 performs a self-tapping (Selp-Tapping) when placing the shaft 110 in the bone tissue. That is, when the shaft portion 110 is inserted into the fixture insertion hole of the bone tissue, the cutting edge 120 forms a female thread on the inner circumferential surface of the insertion hole, and guides the insertion of the shaft portion 110 through the female thread. do.

As shown, two cutting edges 120 are formed on one side and the other side, but three may be formed radially.

Since the cutting edge 120 is self-tapping in multiple stages when the shaft 110 is placed, the cutting edge 120 has an advantage of facilitating the shaft 120. In addition, after the placement of the shaft portion 110 is completed, when the bone adhesion is part of the bone tissue is introduced into the cutting edge 120 has the advantage of improving the fixing force to the bone tissue.

The fixture 100 according to the first embodiment of the present invention is composed of zirconia that is excellent in biocompatibility and robust. Zirconia is a bioinert material that does not cause toxic reactions when inserted into the human body, and has excellent resistance to corrosion and abrasion and has high flexural strength and fracture toughness. In addition, zirconia has a similar color to natural teeth, so it can be usefully used for aesthetic restoration. In addition, the fixture 100 according to the first embodiment of the present invention may be made of a zirconia-alumina composite powder mixed with a strong zirconia powder and alumina powder having good bone adhesion with the alveolar bone.

 Fixture of the present invention by forming a female thread on the inner peripheral surface of the groove for insertion of bone tissue by a plurality of cutting edges in the lower end of the shaft to guide the placement of the shaft to improve the work efficiency, when bone adhesion is part of the bone tissue is drawn into the cutting edge There is an advantage to improve the fixing force to the bone tissue.

In addition, the fixture of the present invention has the advantage that the second screw thread protruding with a length less than the first screw thread of the first screw thread of the shaft portion is formed to increase the fixing force to the bone tissue.

On the other hand, Figure 4 is a fixture according to a second embodiment of the present invention. Components having the same function as in the above-described drawings are denoted by the same reference numerals.

The fixture according to the second embodiment of the present invention further includes an auxiliary fixing groove 126 in the structure of the fixture according to the first embodiment of the present invention.

The cutting edge 120 is inserted into the rotational direction in which the shaft portion 110 is placed in the alveolar bone on the first incision surface 123 to prevent the shaft portion from being released in the opposite direction of the rotational direction in which it is implanted in the alveolar bone. It is provided.

Auxiliary fixing groove 126 is formed in the circumferential direction with respect to the first incision surface is induced bone tissue inflow, can improve the fixing force to the bone tissue of the fixture, the shaft 110 is rotated in the direction of release The shaft 110 is prevented from loosening by increasing the stress in the rotational direction.

Fixture according to the second embodiment of the present invention has an auxiliary fixing groove is formed on the cutting edge, it is prevented loosening, there is an advantage that the fixing force to the bone tissue can be strengthened.

On the other hand, Figure 5 is a fixture according to a third embodiment of the present invention. Components having the same function as in the above-described drawings are denoted by the same reference numerals.

The fixture according to the third embodiment of the present invention further includes a bone tissue inlet hole 128 in the structure of the fixture according to the second embodiment of the present invention.

The cutting edges are divided into a first cutting edge 121 and a second cutting edge 122 spaced apart at equal intervals in the circumferential direction of the shaft.

The shaft 110 is formed through the first incision surface 123 of the first cutting edge 121 to the first incision surface 123 of the second cutting edge 122 so that the bone tissue is partially introduced to strengthen the fixing force to the bone tissue. Inducing bone tissue inlet 128 is provided.

Since the fixture according to the third embodiment of the present invention is prevented from rotating in the direction in which the bone is released because the bone tissue is introduced into and adhered to the bone tissue inlet hole 128, fixing force may be further strengthened in the bone tissue.

Although the fixture according to the present invention has been described with reference to an example shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art. I will understand the point. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: fixture
110: shaft 111: first screw thread
112: first slope 116: second screw thread
117: second slope 120: cutting edge
123: first incision plane 124: second incision plane

Claims (4)

A shaft portion having a first screw thread extending spirally on an outer circumferential surface thereof;
It is provided with a plurality of cutting edges spaced apart from each other along the circumferential direction to the lower end of the shaft portion, so as to be self-tapping when placed in the alveolar bone,
The cutting edges
A first incision surface extending in a predetermined depth from the outer circumferential surface of the shaft portion, extending along the longitudinal direction of the shaft portion and arranged radially with respect to the center of the shaft portion, and extending in the radial direction of the shaft portion; At each end of the first incision surface adjacent to the center of the shaft portion is provided with a second incision surface extending in the opposite direction of the rotational direction to be implanted in the alveolar bone orthogonal to the first incision surface,
The shaft portion
A second screw thread formed between the first screw threads at a lower portion of the cutting edge, the protrusion being formed on the outer circumferential surface of the shaft portion with a length less than that of the first screw thread,
The cutting edge
The auxiliary cutting groove is inserted into the first cutting surface in the rotational direction to be implanted in the alveolar bone to prevent the shaft portion from being released in the opposite direction of the rotational direction to be implanted in the alveolar bone,
A plurality of the cutting edges
The first cutting edge and the second cutting edge spaced apart at equal intervals in the circumferential direction left and right of the shaft portion,
The shaft portion
Fixtures characterized in that it comprises a bone tissue inlet hole formed through the first cutting surface of the first cutting edge to the first cutting surface of the second cutting edge to introduce bone tissue into the bone tissue to induce fixation. delete delete The method of claim 1, wherein the shaft portion
Fixture formed from a zirconia material.

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