KR200456292Y1 - Implant fixture - Google Patents

Abstract

The present invention relates to an implant fixture, and a technical problem to be solved is to provide an implant fixture that is firmly fixed to the alveolar bone because the contact area with the alveolar bone is less after the implantation and the stress area is wide after the implantation.

To this end, the implant fixture according to the present invention has a straight cylindrical shape at the top and a tapered cylindrical shape at the lower part of the center and the lower part, but has a fastening hole 6 which is screwed with the connection screw 7 at the center. The small screw portion 2, which is provided on the body 3 and the upper outer circumferential surface of the body 3 and has a smaller pitch than a screw of the large screw portion 4 to be described later and has a smaller thread height, and the small screw portion ( Located in the lower part of 2) and provided on the middle and lower outer peripheral surfaces of the body 3, the pitch is larger than the fine screw of the small screw portion 2 and the depth (D) of the screw bone deeper toward the lower portion of the body (3) It characterized in that it comprises a large screw portion (4) is formed with a screw to increase the height (H) of the thread and the cutting surface (5) formed by being partially cut in the lower portion of the body (3).

Implant, Fixture, Large Thread, Small Thread, Cutting Surface

Description

Implant Fixtures {IMPLANT FIXTURE}

The present invention relates to an implant fixture, and relates to an implant fixture placed in the alveolar bone.

The most important part of the artificial tooth is the dispersion of stresses generated between the bone adhesion area formed between the artificial tooth and the jaw bone and the other tooth. Therefore, the tapered form, which has good initial fixation force, helps bone adhesion for stress concentration and effective stress distribution of artificial teeth. In addition, studies are underway to smoothly insert tapered implants.

In addition, the artificial teeth should be formed with double threads rather than a single thread, and the experimental results show that the contact area between the jawbone and the artificial teeth is more than 30%, and these test results have been published in domestic and foreign literature.

For reference, the root implant is an artificial tooth root made of screw-shaped titanium, that is, a fixture, which is implanted in the alveolar bone, and when the bone is fused and hardened around the implanted fixture, the abutment is combined thereon. Prosthesis, which is a tooth, is made and injected.

Conventional universal dental restoration methods are only performed on the damaged part without damaging the adjacent or adjacent soft or bone tissues compared to the bridge. The force is applied to the bone tissue because it is maintained and supported by the bone tissue. As a result, chewing power of food is restored to the same level as natural teeth.

Of course, aesthetics can be restored like natural teeth, so implants have become a global trend in dental restoration in recent years.

As shown in FIGS. 11 and 12, the artificial tooth consists of three parts: the artificial tooth 103, the abutment 105, and the processed tooth 107.

The artificial tooth 103 is a fixture which is planted in the alveolar bone 109 of the missing tooth part, such as the tooth of a natural tooth, to support the processed tooth 107. The abutment 105 is also called abutment, and is implanted in the gum 111 to connect the artificial tooth 103 and the processed tooth 107. Further, the processed tooth 107 is fixed in the oral cavity by the abutment 105 so as to reproduce the same shape and function as the natural tooth.

Referring to the implantation process when trying to recover the lost tooth using the artificial tooth 101 as follows.

The transplantation process is largely divided into surgical procedures, that is, surgical methods and prosthetic restorations.

Before surgery, the suitability is checked, basic tests such as blood tests are performed, and the site to be transplanted is selected. In order to evaluate the quality and quantity of bone tissue at the transplantation site, oral examination and radiographic examination should be performed.

Once this series of tests is completed, surgical procedures are performed.

First, a primary surgery for implanting the artificial root 103 corresponding to the root into the alveolar bone 109 is performed under local anesthesia. At this time, the gum 111 is cut and exposed to the alveolar bone 109 tissue, and then the artificial tooth 103 is inserted and the gum 111 is sutured once.

Then, the second operation is performed after 3 to 6 months, depending on the bone quality.

At this time, the gum 111 was closed again, and the abutment 105 is placed on the upper surface of the artificial tooth 103 implanted in the alveolar bone 109. Then, the connecting screw 115 is inserted through the insertion hole 113 formed in the center of the abutment 105.

The abutment 105 in the gum 111 by screwing the connecting screw 115 with the fastening hole 117 formed concentrically with the insertion hole 113 at the center of the artificial tooth 103. Fix it to the top. As such, the second surgery is completed by protruding the abutment 105 into the oral cavity through the gum 111.

After that, prosthetic treatment is performed.

First, the gold cylinder 121 is coaxially mounted on the upper surface of the abutment 105. At this time, the upper protrusion 119 of the connection screw 115 is inserted into the conical lower through hole 123 of the gold cylinder 121. Then, the processed tooth 107 is manufactured on the top of the gold cylinder 121 according to a conventional method. The gold screw 129 is inserted through the tooth hole 127 formed through the center line of the processed tooth 107. The implantation of the artificial tooth 101 is completed by screwing the gold screw 129 into the fastening hole 125 penetrating the upper surface of the protrusion 119 of the connection screw 115.

As described above, the implant fixture that is being used to implant an artificial tooth in the dentist is composed of a fine screw portion formed with a small pitch thread on the upper side and a thick thread formed with a large pitch thread on the lower portion to easily implant in the alveolar bone. It can be structured.

The implant fixture is the most important member, which is also called an implant by itself, and is made of titanium to improve the compatibility with the alveolar bone. The fixture is formed from the upper end to the lower end of the screw is formed in the alveolar bone is characterized in that the material can be fixed firmly by fusion with the bone in contact. In this case, however, if the patient's alveolar bone is hard, there is no defect, but if the alveolar bone is not firm, it should be put very carefully.

In addition, the fixture having a double thread has a problem in that the alveolar bone is broken when an excessive force is applied because torque is generated in the process of being placed. In addition, the fixture has a problem of shaking after the implantation if the contact area to the thread is small.

In addition, when a patient implanted with artificial teeth using artificial teeth for a long time or the fixture shakes, there is a problem that the re-treatment is required to weaken the alveolar bone and bone adhesion.

In order to solve the problems as described above, in the implant fixture that has been proposed previously, a plurality of grooves are arranged at regular intervals on the surface of the thread along the circumferential direction, and the grooves are formed long along the longitudinal direction. Fixtures are known, but there is a concern that implant fixtures embedded in the pubic bone may be separated from the pubic bone without maintaining a complete bone adhesion state.

In the implant, there was a problem that the stress of the alveolar bone was changed due to the pitch change of the thread when the thick thread of the alveolar bone, which was already established during the implant fixture acting as the root of the alveolar bone, was reestablished as a fine thread.

Therefore, the initial fixation failure during implantation of the implant fixture (the implant fixture failed to fuse the bone in the alveolar bone and the bone was absorbed and pulled out) resulted in a difficulty in the procedure failure.

The present invention has been made to solve the problems as described above, the purpose of providing an implant fixture that is firmly fixed to the alveolar bone because the contact area with the alveolar bone after the implantation is less stressed and the alveolar bone is wide after implantation It is done.

Implant fixture according to the present invention to achieve the object as described above is made of a straight cylindrical shape in the upper portion and the center and the lower portion is made of a tapered cylindrical shape toward the lower but the screw connection with the connection screw in the center (6 A small screw portion 2 having a body 3 having a) and a fine screw having a smaller pitch and a smaller thread height than a screw of the large screw portion 4 to be described later, which is provided on the upper outer circumferential surface of the body 3; Located in the lower part of the small screw portion 2 and provided on the middle and lower outer peripheral surfaces of the body 3, the pitch is greater than the fine screw of the small screw portion 2 and the depth of the screw bone toward the lower portion of the body (3) (D) It is characterized in that it comprises a large screw portion (4) formed with a screw is deepened to increase the height (H) of the screw thread and the cutting surface (5) formed by being partially cut in the lower portion of the body (3).

In addition, the cross section of the small screw portion 2 may be formed in a triangular or circular shape.

In addition, the fine screw formed in the small screw portion 2 may be made of a single line screw.

In addition, the fine screw may have a pitch interval of 0.2 mm to 0.5 mm.

In addition, the fine screw formed in the small screw portion 2 may be composed of two rows of screws.

In addition, the fine screw may have a pitch interval of 0.5 mm to 1 mm.

In addition, the large screw portion 4 may be narrowed toward the bottom of the body 3, the bottom of the thread (W) of the thread can be changed from a trapezoidal shape to a triangular shape.

In addition, the screw formed in the large screw portion 4 may be made of a single line screw.

In addition, the screw may have a pitch interval of 0.5 mm to 1.5 mm.

In addition, the screw formed in the large screw portion 4 may be composed of two rows of screws.

In addition, the screw may have a pitch interval of 1.5 mm to 2.5 mm.

In addition, the screw formed in the large screw portion 4 may be composed of three rows of screws.

In addition, the screw may have a pitch interval of 2.5 mm to 3.5 mm.

In addition, the fastening hole is formed in a tapered shape of the upper portion, the lower portion may be made in a straight shape.

In addition, the fastening hole may be made of various shapes, such as triangular, square, hexagonal, octagonal, twelve.

In addition, the body 3 may be a titanium-based metal.

In addition, the cutting surface 5 may be a partial cutting surface of the body 3 and the large screw portion 4 and the lower end may have a sharp shape.

In addition, the implant fixture may be surface treated with blasting, etching, anodizing or AlBM (Resorbable blasting media).

As described above, according to the implant fixture according to the present invention, the depth of the screw bone becomes deeper toward the lower portion of the implant, and the height of the thread becomes larger, and the thread floor becomes narrower and sharper, thus stressing the alveolar bone at the initial stage of implanting the implant fixture into the alveolar bone. It gives less, the friction force with the alveolar bone at the initial placement of the implant fixture has the effect that the operator can easily determine the implantation angle to be implanted.

In addition, according to the implant fixture according to the present invention, when the alveolar bone is adhered to the implant fixture after the implant fixture is provided with a trapezoidal thread, the contact area between the screw thread and the alveolar bone is securely fixed.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention; First, it should be noted that the same components or parts in the drawings represent the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

1A is a perspective view of an implant fixture according to an embodiment of the present invention, and FIG. 1B is a transparent perspective view. 2 is a front view of an implant fixture according to an embodiment of the present invention, FIG. 3 is a plan view, and FIG. 4 is a bottom view. In addition, Figure 5a is a cross-sectional view of the implant fixture according to an embodiment of the present invention, Figure 5b is a transmission cross-sectional view of the implant fixture according to an embodiment of the present invention combined with a coupling screw, Figure 6a of Figure 5a It is an enlarged view.

Implant fixture according to an embodiment of the present invention is shown in Figures 1a to 5b, the body 3, the small screw portion 2 provided on the upper outer peripheral surface of the body 3, and the body 3 Large screw portion (4) provided on the central and lower outer peripheral surface of the) and the cutting surface (5) formed by being partially cut in the lower portion of the body (3).

The implant fixture 1 may be surface treated with blasting, etching, anodizing or RBM (Resorbable blasting media).

The sand blasting method of the blasting is a surface treatment method of roughly modifying the surface of the screw by spraying sand, such as silica sand, at a high pressure in order to roughen the surface of the implant fixture (1).

In addition, the grit blasting method of the blasting is a surface treatment method to increase the effect of blasting on the surface of the implant fixture (1) by using a small grain (Grit) having a sharp blade made by crushing the spheres of cast iron instead of sand to be.

In addition, the etching is a surface treatment method of roughening the surface of the screw by causing a difference in height by corroding the surface of the screw with a chemical.

As described above, the material of the roughening method may be selected and the surface of the screw may be surface treated to have an average surface roughness of about 1 μm to 2 μm, in particular, about 1 μm to 2 μm.

On the other hand, the anodizing is a method of anodizing the surface of the aluminum alloy, magnesium alloy and titanium alloy.

For example, the metal to be treated with the positive electrode is hung in the electrolyte, and an inert metal is used as the negative electrode. An electric current is made to flow through these electrodes, and an oxide type film is formed in the aluminum, magnesium, and titanium surface. As a result, oxidation does not proceed further into the metal, thereby increasing corrosion resistance.

The body (3) is a part of the body of the implant fixture (1) may be made of a titanium-based metal material, the upper portion is made of a straight cylindrical shape, the central and lower tapered narrowed from the middle to the lower portion It may be made in a cylindrical shape.

In addition, the body 3 may be provided with a fastening hole 6 screwed with the connection screw 7 in the center.

As shown in FIGS. 1B, 3, and 5B, the fastening hole 6 has a tapered shape at an upper portion thereof, a lower portion thereof may have a straight shape, and a head of a connection screw 7 having various shapes. The upper portion of the fastening hole 6 may be formed in various shapes, such as triangular, square, hexagonal, octagonal, and twelve angles, for coupling.

The small screw portion 2 is provided on the upper portion of the implant fixture 1, specifically, on the straight cylindrical outer circumferential surface of the body 3.

The fine screw densely formed in the small screw portion 2 has a smaller pitch and a smaller thread height than the screw formed in the large screw portion 4, and is inclined upwardly at an angle over the cylindrical outer circumferential surface of the body 3. It may be formed in a straight line.

7 and 8 is an embodiment showing a screw starting point according to the present invention.

The fine screw formed in the small screw portion 2 may be made of one line screw, wherein the pitch interval of the fine screw may be made of 0.2 mm to 0.5 mm.

In addition, the fine screw formed in the small screw portion 2, as shown in Figure 7, the first screw start point (a) and the second screw start point (b) may be composed of two rows of screws 180 degrees apart, The pitch interval of the fine screw may be made of 0.5 mm to 1 mm.

Meanwhile, the small screw portion 2 may have a triangular or circular shape in cross section, and may be made of a titanium-based metal material.

The small screw portion 2 can enhance the binding force with the dense bone at the top of the alveolar bone and can disperse the stress generated during the use of the implant fixture 1.

The large screw portion 4 is provided on the central and lower portions of the implant fixture 1, which is the lower portion of the small screw portion 2, specifically on the tapered cylindrical outer circumferential surface of the body 3, and is made of a titanium-based metal material. It is preferred, but not necessarily limited to.

The screw formed in the large screw portion 4 has a larger pitch than the fine screw formed in the small screw portion 2, and as shown in FIG. 6, the depth D of the screw bone deepens toward the lower portion of the body 3. The height H of the lower thread is increased, and the floor W of the thread is narrowed, so that its cross section is changed from a trapezoid to a triangular shape and can be sharpened.

At this time, the screw formed in the large screw portion 4 may be formed in a straight line inclined at an angle upwards over the cylindrical outer peripheral surface of the body (3).

On the other hand, the screw formed in the large screw portion 4 may be made of a single line screw, in this case, the pitch interval of the screw may be made of 0.5 mm to 1.5 mm.

In addition, the screw formed in the large screw portion (4), as shown in Figure 7, the first screw starting point (a) and the second screw starting point (b) may be made of two rows of screws 180 degrees apart, wherein, The pitch spacing of the screws may be between 1.5 mm and 2.5 mm.

9A is a front view of an implant fixture in which a two-screw screw is formed in a large screw unit according to the present invention, FIG. 9B is a rear view, and FIG. 10 is a small screw portion and a two-row screw in which a circular microscrew is formed according to the present invention. Fig. 11 shows an implant fixture including the formed large screw portion.

As shown in FIGS. 9A to 10, the implant fixture 1 may be formed with two rows of screws in the large screw portion 4, and as shown in FIG. 10, the fine microcircular portion of the small screw portion 2 may be formed. Screws can be formed.

In addition, as shown in Figure 8, the screw formed on the large screw portion 4, the first screw start point (a), the second screw start point (b) and the third screw start point (c) are each spaced 120 ° 3 It may be made of a row screw, wherein the pitch interval of the screw may be made of 2.5 mm to 3.5 mm.

The large screw portion (4) is a function of fixing the implant fixture (1) to the alveolar bone in contact with the loose sponge bone tissue in the lower portion of the alveolar bone of the alveolar bone, and in the initial placement of the alveolar bone less stress and after implantation The contact area is large and can be fixed firmly.

The cutting surface 5 is a portion provided under the implant fixture 1 to serve as a cutting surface when the implant fixture 1 is placed in the alveolar bone.

The cutting surface 5 is provided by cutting a part of the circumferential surface of the lower portion of the implant fixture (1) is preferably provided with a sharp lower end. In this case, the cutting surface 5 is provided with the lower end of the implant fixture 1 being cut, and may be a partial cutting surface of the large screw portion 4 and the body 1.

The cutting surface 5 is able to further compress the periphery of the large screw portion 4 in accordance with the insertion of the implant fixture (1) can greatly increase the bone density around the large screw portion 4, and at the same time, It is possible to significantly shorten the time the bone tissue is adhered to the implant fixture (1), and when implanting the implant fixture (1) in the alveolar bone, it can be easily implanted by reducing the load by the cutting surface (5).

A method of using an implant fixture according to an embodiment of the present invention is as follows.

When the implant fixture 1 according to the embodiment of the present invention is placed in the alveolar bone, the large screw part 4 is inserted into the alveolar bone while the alveolar bone is cut by the cutting surface 5.

At this time, the large screw portion (4) is formed on the outer peripheral surface of the tapered cylindrical body (3), the depth (D) of the screw bone becomes deeper toward the lower portion of the body (3), the height of the thread (H) is increased, the floor of the thread (W) is formed narrow, so less stress on the alveolar bone, less friction during the initial insertion, the operator can easily determine the implantation angle to be implanted.

After the insertion of the large screw portion 4, the small screw portion 2 is inserted into the alveolar bone, wherein the large screw portion 4 is in contact with the sponge bone of the alveolar bone, the small screw portion 2 is in contact with the dense bone of the alveolar bone The implant fixture 1 is fixed to the alveolar bone.

Although described with reference to the drawings illustrating the implant fixture according to the present invention as described above, the present invention is not limited by the embodiments and drawings disclosed herein, it will be various by those skilled in the art within the technical scope of the present invention Of course, modifications can be made.

1A is a perspective view of an implant fixture according to one embodiment of the present invention.

1B is a perspective view of an implant fixture according to an embodiment of the present invention.

2 is a front view of an implant fixture according to an embodiment of the present invention.

3 is a plan view of an implant fixture according to an embodiment of the present invention.

4 is a bottom view of an implant fixture according to an embodiment of the present invention.

5A is a cross-sectional view of an implant fixture according to one embodiment of the present invention.

Figure 5b is a cross-sectional view of the implant fixture according to an embodiment of the present invention coupled to the connecting screw.

6 is an enlarged view of A of FIG. 5A.

7 is an embodiment showing a screw starting point according to the present invention.

8 is another embodiment showing a screw starting point according to the present invention.

9a is a front view of an implant fixture in which two rows of screws are formed in a large screw unit according to the present invention;

9b is a rear view of an implant fixture in which two rows of screws are formed in a large screw unit according to the present invention;

10 is a view showing an implant fixture including a small screw portion formed with a circular microscrew and a large screw portion formed with two rows of screws according to the present invention.

Figure 11 is a perspective view showing the structure and implantation state of a conventional general artificial tooth.

12 is an exploded perspective view of FIG. 11;

<Description of Symbols for Main Parts of Drawings>

1: implant fixture 2: screw thread

3: body 4: large screw part

5: cutting surface 6: fastener

7: Connection thread a: 1st thread starting point

b: 2nd thread starting point c: 3rd thread starting point

D: Depth of Thread H: Height of Thread

W: Floor of Mount of Screws

Claims (8)

The upper portion is made of a straight cylindrical shape, the center and the lower portion is made of a tapered cylindrical shape toward the lower, the body (3) is provided with a fastening hole (6) screwed to the connection screw (7) in the center; A small screw portion (2) provided on the upper outer circumferential surface of the body (3) and having a fine screw having a smaller pitch and a smaller thread height than the screw of the large screw portion (4) to be described later; Located in the lower part of the small screw portion 2 and provided on the middle and lower outer peripheral surfaces of the body 3, the pitch is greater than the fine screw of the small screw portion 2 and the depth of the screw bone toward the lower portion of the body (3) (D) A large screw part 4 having a deeper thread and a larger thread height H; And It includes a cutting surface (5) formed by being partially cut in the lower portion of the body (3), The small screw portion 2 has a triangular or circular cross section, and the large screw portion 4 has a narrower floor W of the thread toward the lower portion of the body 3 so that the cross section is triangular in a trapezoidal shape. Implant fixtures characterized in that the shape is changed. delete delete The method of claim 1, The fastening hole is formed in the upper tapered shape, the lower portion of the implant fixture, characterized in that made in a straight line. The method of claim 1, The fastening hole is an implant fixture, characterized in that formed in a variety of shapes, such as triangular, square, hexagonal, octagonal, twelve. The method of claim 1, The body (3) implant fixture, characterized in that the metal of the titanium series. The method of claim 1, The cutting surface (5) is a partial cutting surface of the body (3) and the large screw portion (4) and the lower end of the implant fixture, characterized in that the sharp shape. The method of claim 1, The implant fixture is an implant fixture, characterized in that the surface treatment with blasting, etching, anodizing or AlBM (RBM).

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