KR20120102986A - Dental implant fixture - Google Patents

Abstract

PURPOSE: A dental implant fixture is provided to prevent necrosis of alveolar bone by reducing frictional heat generated in the alveolar bone when implanting a fixture even in case of low bone mineral density. CONSTITUTION: A dental implant fixture comprises a body part(11), a first thread part(12), and a second thread part(13). The first thread part is formed in triangular thread shape on the peripheral surface of the body part to implant the body part in alveolar bone. The second thread part is formed in a trapezoidal thread shape on the peripheral surface of the body part, alternately with the first thread part. The outer thread diameter of the second thread part is greater than that of the first thread part.

Description

Dental Implant Fixtures {Dental implant fixture}

The present invention relates to a dental implant fixture, and more particularly, to a fixture of a dental implant that can secure a more stable initial fixation than conventional, even if the bone density of the patient's alveolar bone is higher or lower than the average. .

Implant (implant) refers to a substitute that is originally restored when human tissue is lost, but in the dentist refers to the implantation of artificial teeth. In order to replace the lost tooth roots, artificial roots made of titanium (Titanium), which are not rejected by the human body, are placed in the alveolar bone where the teeth fall out, and then the artificial teeth are fixed to restore the function of the teeth.

In the case of general prosthetics or dentures, the surrounding teeth and bones are damaged over time, but the implants do not damage the surrounding dental tissues, and they have the advantage that they can be used semi-permanently because they have the same function or shape as natural teeth and do not cause tooth decay.

Implants also enhance the function of dentures and improve the esthetic aspects of dental prosthetic restorations, as well as in single missing restorations. Furthermore, it can disperse excessive stress on the surrounding supportive bone tissue, which can help stabilize the teeth.

Such implants generally include a fixture that is placed as an artificial root, an abutment that is coupled to the fixture, an abutment screw that secures the abutment to the fixture, and an artificial tooth that is coupled to the abutment. . Here, a healing abutment (not shown) is coupled to the fixture to maintain the engaged state before the abutment is coupled to the fixture, that is, during the period until the fixture is fusion-bonded to the alveolar bone.

The fixture plays a role of artificial tooth root as a part to be implanted in the implantation hole formed after the formation of the implantation hole using a drill or the like at the position where the implant is to be implanted.

The initial fixation of the fixture will greatly affect the success of the surgery after placement. Surgical drills of various sizes are used to ensure a stable initial fixation. The problem is when the upper and lower jaw are implanted in bone tissue with a higher or lower density than the average bone density.

In patients with high density, a large amount of bone must be cut to smoothly fix the fixture. That is, the size of the buried hole is relatively large to induce easy placement of the fixture. However, cutting large amounts of bone can adversely affect the healing and healing of adjacent teeth.

On the other hand, patients with low bone density of the alveolar bone should be removed to have a high fixation force by removing a small amount of bone. In other words, the lower the bone density of the alveolar bone, the smaller the hole size is, so as to increase the contact area with the fixture. However, if the surface contact between the fixture and the alveolar bone is too wide, the bone may be necrotic with high frictional heat during placement.

Therefore, when the bone density of the patient's alveolar bone is high, a relatively small amount of bone can be cut and placed, and even when the bone density of the patient's alveolar bone is low, the frictional heat generated by being placed in a small sized hole is reduced. It is necessary to develop a fixture that can prevent necrosis.

Therefore, the technical problem to be achieved by the present invention, when the bone density of the patient's alveolar bone is high, can reduce the amount of alveolar bone to be cut for implantation to secure the bone mass, and also when the bone density of the patient's alveolar bone is low It is possible to prevent the necrosis of the alveolar bone by reducing the frictional heat generated in the alveolar bone during the chew placement, to provide a fixture of the dental implant that can secure a stable initial fixing force than the prior art.

According to an aspect of the invention, the body portion; A first screw portion formed on an outer circumferential surface of the body portion to allow the body portion to be implanted in the alveolar bone; And a second thread part which is formed on an outer circumferential surface of the body part in alternating manner with the first thread part and has a larger thread outer diameter in the thread outer diameter of the first thread part.

The screw outer diameter of the second screw portion may be provided to be larger than 0.1mm ~ 0.6mm than the screw outer diameter of the first screw portion.

The first threaded portion may be a triangular screw, and the second threaded portion may be provided as a trapezoidal screw.

The pitch of one of the two pitches made by the threads of the first threaded portion and the threads of the second threaded portion vertically adjacent to the first threaded portion may be provided with a different size from the other pitch.

The size difference between two pitches made by the threads of the first threaded portion and the threads of the second threaded portion vertically adjacent to the first threaded portion may be provided within a range of 0.1 mm to 0.5 mm.

The lead distance of the first screw portion and the lead distance of the second screw portion may be provided to be the same.

The first screw portion and the second screw portion may be provided with one row screw, respectively.

The pitch of the first screw portion and the pitch of the second screw portion may be provided the same.

The height of the screw thread of the first screw portion may be provided larger than the height of the screw thread of the second screw portion.

The body portion may extend from an upper end of the body portion and include a bevel portion that decreases in diameter upward.

An inclined taper may be formed in the lower end region of the body so that the outer diameter of the body becomes smaller toward the lower end.

A cutting edge portion for cutting the alveolar bone may be formed in the lower region of the body portion.

Embodiments of the present invention, when the bone density of the patient's alveolar bone is high can reduce the amount of alveolar bone to be cut for implantation, to secure bone mass, and also when the bone density of the patient's alveolar bone is low By reducing the frictional heat generated in the alveolar bone can be prevented necrosis of the alveolar bone, it is possible to secure a stable initial fixing force than conventional.

1 is a perspective view schematically showing a process of implantation of the fixture of the dental implant according to an embodiment of the present invention.
2 is a front view of a fixture of a dental implant according to an embodiment of the present invention.
3 is a cross-sectional view of a fixture of a dental implant according to one embodiment of the present invention.
4 is a plan view of a fixture of a dental implant according to an embodiment of the present invention.
5 is a partially enlarged view of a fixture of a dental implant according to one embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 is a perspective view schematically showing a process of implantation of the fixture of the dental implant according to an embodiment of the present invention.

As shown in FIG. 1, a large number of teeth 2 are arranged in the gum 1. Teeth (2) is the primary means of digesting food and crushing it to the stomach may vary from person to person, but usually has about 28.

If any one of these teeth (2) is lost (when the molar is missing), the lost tooth (2) is not only aesthetically deteriorate but also inevitably considerably uncomfortable to chew food.

Thus, the fixture 10 is fixed as a means to replace the root 2a of the tooth 2 on the gum 1 of the lost tooth 2. Although not shown in detail in FIG. 1, the fixture 10 is implanted in the alveolar bone in the gum 1, which is preceded by a drilling operation for the implantation of the fixture 10 before implantation. That is, the buried hole (H) is processed at a predetermined position of the alveolar bone.

2 is a front view of the fixture of the dental implant according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the fixture of the dental implant of Figure 2, Figure 4 is a view of the fixture of the dental implant of FIG. 5 is a plan view, and FIG. 5 is a partially enlarged view of the screw part of FIG. 3.

Dental implant to which the fixture 10 according to an embodiment of the present invention is applied, including a fixture 10 placed as an artificial root, abutment (not shown) coupled to the fixture 10. And an abutment screw (not shown) for fixing the abutment to the fixture 10, and an artificial crown (not shown) coupled to the abutment.

That is, after implanting the fixture 10 in the hole (H) formed by the implant drill (not shown) in the alveolar bone, the abutment is coupled, and the dental implant by combining the artificial crown made in advance on the outer surface of the abutment The procedure may proceed. However, the configuration of such an implant is according to the present embodiment, and the configuration of the implant may be changed in various ways according to the implant procedure.

Referring to these drawings, the fixture 10 of the dental implant according to an embodiment of the present invention, the body portion 11, the body portion 11 of the body portion 11 to be implanted in the alveolar bone The first threaded portion 12 is formed on the outer peripheral surface, and has a screw outer diameter which is formed on the outer peripheral surface of the body portion 11 alternately with the first threaded portion 12 is provided larger than the screw outer diameter of the first threaded portion 12 And a second threaded portion 13.

Body portion 11 is inserted into the bone tissue to form an artificial tooth, as a whole form a cylindrical shape of the body portion 11 gradually decreases toward the lower portion, the first screw portion 12 and the first on the outer peripheral surface 2 screw portions 13 are provided.

When the body portion 11 is inserted into the embedding hole H provided in the bone tissue by a drill in advance, and then rotates along the central axis, the body 11 is formed on the inner circumferential surface of the embedding hole H by the first screw portion 12 and the second screw portion 13. The fixture 10 is placed while forming the female thread groove. In this case, the material used as the fixture 10 is generally used for the fixture of the dental implant, preferably made of titanium, but in addition, if there is no rejection to the human body, other types of metal materials are also used. It is possible.

The upper portion of the body portion 11 is formed with a predetermined depth recessed from the upper surface of the abutment coupling groove 14 is in contact with the lower end of the abutment, the lower portion of the abutment coupling groove 14 to prevent the rotation of the abutment when tightening the abutment screw Abutment fastening portion 15 is formed to be fitted to the hexagon nut shape formed in the lower portion of the abutment. In addition, the lower portion adjacent to the abutment fastening portion 15 is formed with a screw groove 16 for screwing the abutment screw.

An inclined bevel portion 17 is formed in the corner region of the upper end of the body portion 11 so that the outer diameter D3 of the body portion 11 becomes smaller toward the upper end. Bevel portion 17 is a portion for preventing alveolar bone over-growth to interfere with the abutment, the bevel portion 17 is the fixture 10 is raised upward when bone fusion is completed It also serves to prevent the damage and double the stability of the fixing.

In more detail, when the fixture 10 is implanted, the alveolar bone grows and waits for a period of time to become bone fusion, and then combines the abutment and artificial teeth. In this process of bone fusion, the alveolar bone sometimes overgrows. By blocking the opening of the abutment coupling groove 14 of the fixture 10, a case of interfering with the abutment occurs. However, when the bevel portion 17 is provided as in the present embodiment, since a certain space is secured from the upper thread to the opening of the abutment coupling groove 14, even if the alveolar bone grows excessively, it is less likely to interfere with the abutment. do. When the bone fusion is completed, the alveolar bone grows on the inclined surface of the bevel unit 17, thereby preventing the implanted fixture 10 from moving upward, thereby improving fixation stability in the alveolar bone of the fixture 10.

On the other hand, the maximum outer diameter (D3) of the bevel portion 17 is provided smaller than the screw outer diameter (D1, D2) of the first screw portion 12 and the second screw portion 13 to be described later in detail, thereby fixing the fixture 10 The bone tissue of the upper alveolar bone can be maintained as much as possible when the placement of.

An inclined taper portion 11a is formed in the lower end region of the body portion 11 so that the outer diameter of the body portion 11 becomes smaller toward the lower end. The taper portion 11a facilitates initial entry of the fixture 10 into the hole H formed in the alveolar bone with a tool such as a drill.

In addition, the cutting edge portion 18 is formed along the circumferential direction of the body portion 11 in the lower end region of the body portion 11. Since the cutting edges 18 are formed at equal intervals with each other, the cutting edges are sharply formed, so that the fixture 10 rotates and forms the hole H when drawn into the inner portion of the hole H of the alveolar bone. If there is a portion to be cut in the inner portion of the alveolar bone to be able to perform a cutting operation, thereby allowing the self-tapping of the thread formed on the outer circumferential surface of the alveolar bone and fixture 10 can be made smoothly. In the present exemplary embodiment, two cutting edge portions 18 are formed, but the number of cutting edge portions 18 may be appropriately changed.

On the other hand, on the outer circumferential surface of the body portion 11, the first screw portion 12 and the second screw portion 13 having different screw outer diameters are alternately provided. In this embodiment, the screw outer diameter D1 of the first threaded portion 12 is provided to be about 0.1 mm to 0.6 mm smaller than the screw outer diameter D2 of the second threaded portion. The height H1 of the thread of the first threaded portion 12 is the height H2 of the thread of the second threaded portion 13 so that the threaded outer diameter D1 is smaller than the threaded outer diameter D2 of the second threaded portion 13. It is provided smaller. As described above, the screws having two diameters D1 and D2 are alternately provided on the outer circumferential surface of the body part 11, thereby reducing the amount of cutting of the patient's alveolar bone and preventing bone necrosis due to frictional heat when the fixture 10 is placed.

In more detail, in the case of a patient with a high bone density of the alveolar bone in the related art, the diameter of the buried hole (H) formed in the alveolar bone can only be increased so that the fixture can be easily inserted. If the bone density of the alveolar bone is high, if the diameter of the buried hole (H) is reduced, the amount of cutting of the alveolar bone must be increased by the screw of the fixture when the fixture is placed. This is because the fixture is not placed smoothly.

However, the fixture 10 in the present embodiment has a smaller amount of cutting alveolar bone during placement by the first screw portion 12 having a smaller outer diameter, so that the load decreases during implantation, so even when the patient has a high bone density of the alveolar bone. It is not necessary to increase the diameter of (H). In addition, the initial fixing force after implantation of the fixture 10 is achieved by the second screw portion 13 having a large diameter.

On the other hand, patients with small bone density of the alveolar bone have been implanted by forming a small hole (H) in order to maintain the fixture firmly after implantation in the past. In this case, however, if the contact area with the screw is too large during implantation, the alveolar bone may be necrotic due to frictional heat.

However, according to the fixture 10 according to the present embodiment, since the first threaded portion 12 is provided with a relatively small outer diameter, wide contact with the alveolar bone during implantation is mainly made by the second threaded portion 13 and the first threaded portion ( 12) has a relatively small contact area. That is, the entire contact area of the screw contacting the alveolar bone during placement of the fixture 10 is reduced compared to the conventional fixture having one threaded outer diameter.

Therefore, as compared to the conventional fixture consisting of a single screw, the friction heat during placement can be reduced significantly the necrosis of the alveolar bone. Even in this case, the initial fixation force after the implantation is mainly maintained stably by the second screw portion 13.

On the other hand, in the present embodiment, the first threaded portion 12 is formed of a triangular screw and the second threaded portion 13 is formed of a trapezoidal screw. The triangular screw of the first threaded portion 12 reduces the cutting amount of the alveolar bone when the fixture 10 is placed, so that the implantation can be performed smoothly, and the trapezoidal screw of the second threaded portion 13 withstands the load during the insertion and has high It can be used to obtain a compressive force. As described above, the fixture 10 of the present embodiment may be provided with a trapezoidal screw for the second threaded portion 13 that withstands the load at the time of implantation and is responsible for the initial fixing force after the implantation. By providing the first threaded portion 12 with a triangular screw to be able to take advantage of both screws.

On the other hand, the lead C1 of the first threaded portion 12 and the lead C2 of the second threaded portion 13 are provided in the same manner, and the pitch of the first threaded portion 12 and the pitch of the second threaded portion 13 are also the same. However, two pitches E1 and E2 made by the threads of the first threaded part 12 and the threads of the second threaded part 13 vertically adjacent to the first threaded part 12 may be provided in different sizes. have.

Here, E1 is a first pitch formed by any one thread of the first thread portion 12 and a thread of the second thread portion 13 adjacent to the lower portion, and E2 is a thread of the first thread portion 12 and the upper thread. It is the 2nd pitch which the thread of the adjacent 2nd screw part 13 makes.

When the first pitch E1 and the second pitch E2 are equal to each other, there is a difficulty in processing, so that the first pitch E1 and the second pitch E2 are different from each other within the range of 0.1 mm to 0.5 mm. As a result, the machining of the first screw portion 12 and the second screw portion 13 can be made easier.

In addition, in the present embodiment, the first threaded portion 12 and the second threaded portion 13 are each provided with one line screw, and the fixture 10 according to the present embodiment is provided as a whole. By two-screw screws, the placement can be faster. If the first threaded portion 12 and the second threaded portion 13 are each provided with one line screw, the first threaded portion 12 is one line screw and the second threaded portion 13 is two line screws, or the first threaded portion 12 is two line screws. And the pitch is relatively larger than the case where the second screw portion 13 is a single line screw, there is an advantage that the insertion load takes less during the implantation.

According to the embodiment of the present invention as described above, even when the bone density of the patient's alveolar bone is high, the fixture 10 is implanted without increasing the diameter of the hole H, and the amount of bone to be cut even during the implantation process is reduced. Can secure the bone mass of the alveolar bone.

In addition, when the bone density of the patient's alveolar bone is low, it is possible to prevent the necrosis of the bone by reducing the frictional heat generated by being placed in the small hole (H).

In addition, the present invention is not limited to the described embodiments, and various modifications and variations can be made without departing from the spirit and scope of the present invention. It will be apparent to those skilled in the art. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

10: fixture 11: body
12: 1st thread part 13: 2nd thread part
14: abutment coupling groove 15: abutment connection portion
16: thread groove 17: bevel portion
18: cutting edge portion

Claims (12)

A body portion;
A first screw portion formed on an outer circumferential surface of the body portion to allow the body portion to be implanted in the alveolar bone; And
Fixture of the dental implant, characterized in that it comprises a second threaded portion which is formed on the outer peripheral surface of the body portion alternately with the first threaded portion, the second threaded portion having a larger threaded outer diameter than the threaded outer diameter of the first threaded portion. The method of claim 1,
The screw outer diameter of the second screw portion is a fixture of the dental implant, characterized in that provided 0.1 mm ~ 0.6 mm larger than the screw outer diameter of the first screw portion. The method of claim 1,
The first screw portion is a triangular screw, the second screw portion is a fixture of a dental implant, characterized in that the trapezoidal screw. The method of claim 1,
Dentistry, characterized in that the pitch of any one of the two pitches made by the thread of the first threaded portion and the thread of the second threaded portion adjacent up and down the first threaded portion is provided with a different size than the other pitch. Implant fixtures. The method of claim 4, wherein
Fixation of the dental implant, characterized in that the size difference of the two pitches made by the thread of the first threaded portion and the threads of the second threaded portion adjacent to the first threaded portion up and down are provided within the range of 0.1 mm to 0.5 mm. Chew. The method of claim 1,
The lead distance of the first screw portion and the lead distance of the second screw portion is the same as the fixture of the dental implant, characterized in that provided. The method of claim 1,
Fixing the dental implant, characterized in that the first screw portion and the second screw portion is a single thread. The method of claim 5,
The pitch of the first screw portion and the pitch of the second screw portion is a fixture of the dental implant, characterized in that provided in the same. The method of claim 1,
The height of the thread of the first thread portion is a fixture of the dental implant, characterized in that greater than the height of the thread of the second thread portion. 10. The method according to any one of claims 1 to 9,
The body portion
A fixture of a dental implant, which extends from an upper end of the body portion and includes a bevel portion that decreases in diameter upward. 10. The method according to any one of claims 1 to 9,
Fixture of the dental implant, characterized in that the tapered portion is formed in the lower end region of the body portion so that the outer diameter of the body portion becomes smaller toward the lower end. 10. The method according to any one of claims 1 to 9,
Fixture of the dental implant, characterized in that the cutting edge portion for cutting the alveolar bone is formed in the lower region of the body portion.

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