KR200386050Y1 - Dental Implant Fixture - Google Patents

Abstract

The present invention relates to a fixture of a dental implant, in the fixture of the dental implant embedded in the alveolar bone, the first depth, which is axially spaced and disposed in the circumferential direction and measured from an adjacent peak Axially spaced apart by a series of deep bones and shallow bones having a second depth shallower than the first depth as a depth measured from an adjacent peak, and arranged in the circumferential direction and respectively provided between the deep bones. A body portion having a plurality of mountains; And a plurality of interlocking mountains provided by the same screw curve and a plurality of mountains provided between the deep valleys of the trunk portion, and at least one peak and the peak as provided between the plurality of interlocking mountains. And a tubular portion having at least one independent mountain having more than one bone and disposed on top of the body portion, wherein an axial distance between peaks adjacent to the deep bone of the body portion is determined by the plurality of the tubular portions. And an axial distance between the respective peaks of the linkage mountain adjacent to both sides of the at least one independent mountain provided between the linkage mountains. Thus, the procedure is easier than the case where the entire length is formed by only micro-threads without increasing the length and diameter of the fixture, and the adhesion surface with the surrounding bone is increased, and the load is evenly distributed to the surrounding bone tissue. Bone collapse and bone destruction of the surrounding bone can be prevented, and when the upper part of the alveolar bone is buried, only mountains corresponding to the mountains provided in the tubular part are formed without substantially being influenced by the mountains of the trunk passing through the upper part of the alveolar bone. It becomes possible.

Description

Dental Implant Fixtures

The present invention relates to a fixture of a dental implant, and more particularly, to a fixture of a dental implant embedded in the alveolar bone for implantation of artificial teeth.

Implants are originally a substitute that recovers when human tissue is lost, but dental implants refer to implanting artificial teeth. It is a cutting-edge procedure that restores the function of teeth by planting a tooth root made of titanium (Titanium), etc., which has no rejection on the human body to replace the root of the lost tooth, and fixing the artificial tooth. In the case of a general prosthesis or denture, 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.

The fixture of such a dental implant is embedded in the upper and lower alveolar bone (hereinafter, referred to as 'alveolar bone') 107 as shown in FIG. 1, which is briefly described, first, fixture (Fixture) 101. An artificial tooth root is bonded to the bone like a root of a natural tooth, and after the bone adhesion, the abutment screw (not shown) is attached to the fixture 101 of the implant. ) And the artificial dental 105 is mounted on it to complete the implant artificial tooth. At this time, the fixture 101 of the dental implant passes through the dense bone 107a having a high bone density and is embedded in the spongy bone 107b having a low bone density.

On the other hand, the fixture 101 of the dental implant implanted in the alveolar bone 107, unlike natural teeth coupled to the bone tissue through the periodontal ligament, does not have a physiological movement of the bone by being directly adhered to the bone tissue. . Therefore, the load (low pressure) received from the outside is transmitted to the periphery bones 107a and 107b, and thus, a large stress is generated in the periphery bones 107a and 107b receiving the external load. In particular, the bone density is high and the rigid dense bone 107a has a greater stress due to the characteristics of the material, and as such a large stress is continuously applied to the dense bone 107a, it is pointed out that the problem of bone collapse and bone fracture occurs have.

In order to solve this problem, the depth of implantation of the fixture 101 of the implant is increased by lengthening and lengthening the length and diameter of the fixture 101 of the implant in a manner of minimizing the stress of the peripheral bones 107a and 107b. By increasing the adhesion surface between the periphery bone 107a, 107b, it is possible to consider a method of increasing the adhesion efficiency while uniformly dispersing the generated stress. However, such a method cannot increase the length and diameter of the fixture 101 of the implant in a limited space indefinitely, and thus has been pointed out a problem that there is a limit in reality.

Therefore, in consideration of these problems, first, an implant fixture in which the height of peaks measured from the valley to the vertex is 0.2 mm or less (hereinafter referred to as 'micro threads') in its entire length is disclosed internationally. No. WO94 / 07428 is disclosed, but in this case, since the height of the micro thread is low, the drill hole formed by drilling work on the alveolar bone can be properly adhered, and the hole is smaller than the desired diameter. If it is difficult to sell, and if the processing is large, the adhesion rate is significantly reduced, such as a problem that the dentist is difficult to perform the procedure.

Next, pay attention to the fact that greater stress is generated in the dense bone with high bone density and harder, so that microthreads are formed in the portion (called 'body part') for splicing bones for convenience. The part of the implant which is joined to the dense bone (referred to as 'tubular portion' for convenience of description) has a larger implant size (approximately 0.3mm to 0.6mm) and the implant's fixation (hereinafter referred to as 'macro threads'). Chur is disclosed in Korean Patent Laid-Open No. 2001-0071941 and Korean Patent Laid-Open No. 2003-0083157, and the like to reduce the stress generated in the dense bone to prevent bone collapse and bone fracture of the dense bone. However, even in these cases, since the stress generated in the cancellous bone is not properly distributed, it is still difficult to achieve the purpose of preventing bone collapse and bone fracture.

As described above, in the conventional dental implant fixture, when micro-threads are formed along the entire length of the fixture in order to properly disperse the stress so as to prevent bone collapse and bone fracture, the hole in the alveolar bone is precisely processed. There was a problem that the dentist had difficulty in performing the procedure, and if the micro-thread is formed only at the part that is joined to the dense bone, the stress generated in the spongy bone cannot be properly distributed, which is insufficient to prevent bone collapse and bone fracture. there was.

In consideration of these problems, it is possible to consider providing macro threads and micro threads together in the trunk in order to properly disperse the stresses generated in the cancellous bone in the trunk, but if necessary, add macro threads and micro threads to the trunk. When the fixture is buried, the thread formed in the torso passes through the upper part of the alveolar bone, for example, the dense bone to form one type of thread, and the thread of the tubular part passing behind forms a different type of thread in the region of the other dense bone. The dense bone does not form a groove that fits the thread provided in the tubular part, and it is broken as if it is difficult. Therefore, the close contact between the tubular part and the dense bone occurs in the early stages of fastening. Therefore, patients with poor healing ability or quick chewing function Implant failed This is likely to make a significant increase in problems.

Accordingly, an object of the present invention is to solve the problems of the related art, and to increase the adhesion surface to the surrounding bone while increasing the adhesion surface of the fixture without increasing the length and diameter of the fixture and forming the whole micro screw only. By equally distributing the load to the bone tissue, it is possible to prevent bone fracture and bone destruction of the surrounding bone more efficiently than before, and when the upper part of alveolar bone is fed, the upper part of the alveolar bone is substantially unaffected by the mountains of the trunk passing through the upper part of the alveolar bone. It is to provide a fixture of a dental implant that can be formed only corresponding to the mountains provided in the tubular portion.

In addition, another object of the present invention, it is possible to double ensure that only the grooves corresponding to the mountains provided in the tubular portion is formed in the upper portion of the alveolar bone is substantially unaffected by the mountains of the trunk portion passing through the upper portion of the alveolar bone during implantation It is to provide a fixture of a dental implant.

The object is, according to the present invention, in the fixture of the dental implant implanted in the alveolar bone, in the fixture of the dental implant embedded in the alveolar bone, axially spaced apart in the circumferential direction Circumferentially spaced axially by a series of deep valleys having a first depth that is a depth measured from an adjacent peak, and shallow valleys having a second depth shallower than the first depth as a depth measured from an adjacent peak. A body part having a plurality of mountains disposed between the deep bones and disposed between the deep bones; And a plurality of interlocking mountains provided by the same screw curve and a plurality of mountains provided between the deep valleys of the trunk portion, and at least one peak and the peak as provided between the plurality of interlocking mountains. And a tubular portion having at least one independent mountain having more than one bone and disposed on top of the body portion, wherein an axial distance between peaks adjacent to the deep bone of the body portion is determined by the plurality of the tubular portions. It is achieved by a fixture of a dental implant characterized in that it is substantially equal to the axial distance between each peak of the peristaltic acid adjacent to both sides of the at least one independent mountain provided between the peristaltic mountains.

Here, the number of the plurality of mountains respectively provided between the deep valleys of the body portion is two, the independent mountain of the tubular portion may be a line of mountains having one peak and two valleys.

And a plurality of mountains respectively provided between the deep valleys of the body portion, the linkage mountains of the tubular portion, and the independent mountains by a thread profile having mountains arranged in the circumferential direction defined by the thread elements of the thread side view. And a plurality of mountains provided between the deep valleys of the body portion and the linkage mountains of the tubular portion are interlocking threads of two rows of screws provided by substantially the same thread curve, and the independent mountains of the tubular portion are one row of screws. It is preferred that it is an independent thread.

The axial distance between adjacent peaks of the linkage mountains of the tubular portion and the peak of the linkage mountain and the peak of the independent mountain adjacent to the linkage mountain may be different from each other.

In addition, the deep bone of the body portion generally has a depth of 0.1mm to 0.5mm inward from the shallow bone.

On the other hand, the tubular portion is cylindrical, the outer diameter of the tubular portion is configured to be 0.05mm to 0.5mm larger than the outer diameter of the trunk portion when the upper portion of the alveolar bone during implantation substantially without being affected by the mountains of the trunk portion passing through the upper portion of the alveolar bone It is possible to double ensure that only the grooves corresponding to the mountains provided in the tubular portion are formed.

Here, the plurality of interlocking mountains and the at least one independent mountain of the tubular portion may have a height of the mountains measured from the valley to the peak of 0.02 mm to 0.2 mm.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is a front view of a fixture of a dental implant according to a conventional embodiment, FIG. 2 is a perspective view of a fixture of a dental implant according to a first embodiment of the present invention, and FIG. 3 is III- of FIG. 2. Sectional drawing according to III. As shown in these figures, the fixture 1 of the dental implant according to the first embodiment of the present invention is usually made of pure titanium or titanium alloys or other metals or metal alloys or ceramics without human body rejection. It may have a body portion 10 and a tubular portion 20 disposed on the upper portion of the body portion 10. Here, the body portion 10 is a series of deep valleys 12 having a first depth h ₁ , which is spaced in the axial direction and circumferentially and measured from an adjacent peak, and a depth measured from an adjacent peak. As a plurality of axially spaced apart in the axial direction by the shallow valleys 14 having a second depth (h ₂ ) shallower than the first depth (h ₁ ) are provided between each of the deep valleys (12) It has threads 13. And the tubular portion 20, the plurality of threads 13 provided between the deep valleys 12 of the body portion 10 and the plurality of interlocking threads 23 provided by substantially the same screw curve 23 ) And at least one independent thread 21 having at least one peak and one more valley than the peak provided between the plurality of interlocking threads 23. In addition, the axial distance d ₁ between the peaks adjacent to the deep valleys 12 of the trunk portion 10 is at least one independent thread provided between the plurality of interlocking threads 23 of the tubular portion 20. It is substantially equal to the axial distance d ₂ between each peak of the interlocking thread 23 adjacent to both sides of (21). In the present embodiment, the number of the plurality of threads 13 provided between the deep valleys 12 of the trunk portion 10 is two, and the independent threads 21 of the tubular portion 20 have one peak. One row of threads with two valleys. That is, the plurality of mountains of the trunk portion 10 and the plurality of interlocking mountains of the tubular portion 20, and at least one independent mountain of the tubular portion 20 according to the present invention are provided by the threading elements of the threaded side view in this embodiment. It is provided by a thread profile having defined mountains arranged in the circumferential direction, the plurality of threads 13 and the plurality of tubular portions 20 provided between the deep valleys 12 of the body portion 10. The interlocking threads 23 are the plurality of threads 13 and the interlocking threads 23 of the two-threaded screw, each provided by substantially the same thread curve, and the independent threads 21 of the tubular portion 20 are the one-threaded screw. Is the independent thread 21 of.

The lower end of the body portion 10 is formed with an inclined lower end inclined portion 17 so as to decrease in diameter toward the lower end. And the body portion 10, as described above, a series of deep bones 12 are formed in the circumferential direction spaced apart in the axial direction and having a first depth h ₁ , the deep bones 12 A plurality of mountains 13 are arranged in the circumferential direction and spaced apart in the axial direction by shallow valleys 14 having a second depth h ₂ shallower than the first depth h ₁ . Here, the deep bone 12 may have a depth of 0.1 mm to 0.5 mm from the shallow bone 14 and thus the mountains measured from the deep bone 12 to the peak of the first depth h ₁ , that is, the trunk portion 10. The height h _{1 of} may be selected from 0.12 mm to 0.7 mm, and the height h _{2 of the} mountains measured from the shallow depth 14 of the second depth h ₂ , that is, to the peak, to May be selected from 0.02 to 0.2 mm. In the present embodiment, the plurality of threads 13 between the deep bones 12 of the trunk portion 10 are generally provided with two rows of screws, ie, double screws, and the position of the dense bone through which the trunk portion 10 has passed substantially. Since the interlocking threads 23 of the tubular portion 20 must pass through the same position, the interlocking threads 23 of the tubular portion 20 are provided with a plurality of threads provided between the deep valleys 12 of the trunk portion 10. Field 13 is continuous, that is, the plurality of threads 13 and the interlocking threads 23 of the tubular portion 20 provided between the deep valleys 12 of the trunk portion 10 are substantially the same screw. It is formed by a curve, and the independent thread 21 provided between the interlocking threads 23 of the tubular portion 20 is a single screw. As a result, the tubular portion 20 is a deep bone of the trunk portion 10 which is a double screw. Interlocking threads 23 interlocked with a plurality of threads 13 between the teeth 12 and an independent thread 21 that is a single screw therebetween. It is formed of a thin three-threaded screw, that is, a triple screw, and the plurality of threads 13 between the deep bones 12 of the trunk portion 10 are double screws, so the double between the deep valleys 12 of the trunk portion 10 is doubled. It can be said that the screw is formed.

In this way, the body portion 10 has deep bones 12, thereby having the same effect as that of the macro screw thread formed on the body portion 10, and thus, the procedure is easier than when the entire micro thread is formed. As a result, the plurality of threads 13 having a shallow bone 14 between the deep bones 12 of the thighs result in the trunk portion 10 also having micro threads, so that the cancellous bone of the alveolar bone adjacent to the trunk portion 10 is provided. Increasing the adhesion surface with the tissue and evenly distribute the load to the spongy bone tissue of the adjacent alveolar bone, thereby avoiding large stress concentration, thereby preventing bone breakdown and bone fracture more efficiently than the conventional one. The interlocking threads 23 of the 20 are provided in the thread curve substantially the same as each of the plurality of threads 13 provided between the deep valleys 12 of the body portion 10, that is, the deep valleys 12 ) The plurality of threads provided with 13 axial distance between the leads on the tubular portion 20 to form an interlocking screw thread (23), and the peak adjacent to the deep valley of the trunk portion (10) (12) (d ₁ ) is substantially the axial distance d ₂ between each peak of the interlocking thread 23 adjacent to both sides of the independent thread 21 provided between the plurality of interlocking threads 23 of the tubular portion 20. By the same configuration, the interlocking threads 23 of the tubular portion 20 are substantially the same as the positions of the alveolar bone passing through the plurality of threads 13 provided between the deep bones 12 of the trunk portion 10. By passing the alveolar bone and the tubular portion 20 can be in close contact at the beginning of the meal.

On the other hand, the lower end of the body portion 10 has a truncated cone shape that becomes narrower toward the lower portion so that the fixture 1 is easily inserted into the hole of the alveolar bone, and the fixture of the dental implant 1 is the hole of the alveolar bone. It has three self-tapping grooves 18 arranged symmetrically about the central axis for self tapping when inserted in the.

The tubular portion 20 is disposed on the upper portion of the trunk portion 10, the upper end portion of the tubular portion 20 has an inclined top inclined portion 25 so as to decrease in diameter toward the top. Generally, the interlocking threads 23 of the tubular portion 20 have substantially the same shape as the plurality of threads 13 provided between the deep valleys 12 of the body portion 10, but may have some deformation. The independent threads 21 are also substantially the same as the height h _{1 of the} threads measured from the shallow valley 14 to the peak in the plurality of threads 13 provided between the deep valleys of the trunk portion 10. One, that is, the height of the mountains measured from the valley to the peak of the independent thread 21 may be selected from 0.02mm to 0.2mm, but a plurality of threads 13 provided between the deep valleys 12 of the body portion 10 The height h _{1 of the} threads measured from the shallow valley 14 to the peak) may not be the same as the height h ₁ . As described above, the axial distance d ₂ between each peak of the interlocking thread 23 adjacent to both sides of the independent thread 21 provided between the plurality of interlocking threads 23 of the tubular portion 20 is , Axial distance (d ₁ ) between the peaks adjacent the deep valleys 12 of the body portion 10 is substantially the same. This allows the independent threads of the tubular portion 20 to pass through the deep bones 12 when the torso 10 passes through the upper portion of the alveolar bone. In this embodiment, one independent thread 21 passes. Since the interlocking threads 23 of the tubular portion 20 pass in the place where the plurality of threads 13 of the body portion 10 pass, the body 10 is not affected by the passage of the body portion 10.

An inner hole 30 is formed inside the fixture 1 of the implant that does not penetrate along the length but extends from the top to the center region of the body 10. The inner hole 30 accommodates an abutment (not shown) for supporting an artificial dental crown (not shown). The inner hole 30 has an upper conical tubular portion 31, a lower conical tubular portion 35 on which female threads are formed, and an intermediate portion 33 therebetween. Although not shown, the abutment has a truncated conical shape in which a male screw is formed so as to be screwed into a portion in which the female thread of the lower conical tubular portion 35 is detachably fixed to the inner hole 30.

The length of the fixture 1 of the implant may range from 8 mm to 19 mm depending on the clinical situation and may have 3.5 mm or 4.0 mm as the outer diameter of the torso 10.

By such a configuration, the fixture 1 of the dental implant according to the present invention is embedded in the alveolar bone, when the plurality of threads 13 which are double screws between the deep bones 12 of the body portion 10 at the time of implantation. ) And the interlocking threads 23 of the tubular portion 20 pass through a position substantially the same as the position where the tubular portion 20 passes, and the independent threads 21 of the tubular portion 20 pass through the position where the deep valleys 12 pass. Therefore, the independent thread 21 of the tubular portion 20 is the first to form a thread in the alveolar bone without being affected by the passage of the body portion 10, so that the interlocking threads 23 and the tubular portion 20 at the beginning of the meal. The independent thread 21 and close contact between the dense bones can be secured. Thereafter, the fixture 1 is bone-bonded to be completely fixed to the bone like the root of a natural tooth, at least a part of the body portion 10 is in contact with the sponge bone having a low bone density of the alveolar bone and interlocking threads of the tubular portion 20. (23) and the independent thread (21) is implanted and bone-bonded to contact the high density bone of the alveolar bone, and after a bone adhesion, abutment (not shown) is connected to the fixture fixture 1 after the bone adhesion. Attaching an artificial crown (not shown) completes the implant artificial tooth.

4 is a cross-sectional view of a fixture of a dental implant according to a second embodiment of the present invention, in which components corresponding to the above-described first embodiment are denoted with reference numerals 'a', and the above-described first Descriptions of the same parts as in the embodiment will be omitted, and only other parts will be described. As shown in these figures, in the fixture 1a of the dental implant according to the second embodiment of the present invention, a plurality of threads each provided between the deep bones 12a of the body portion 10a ( The number of 13a) is three, and the independent thread 21a of the tubular portion 20a differs from the first embodiment only in that it is a thread of two rows having two peaks and three valleys.

FIG. 5 is a cross-sectional view of a fixture of a dental implant according to a third embodiment of the present invention, in which components corresponding to those of the first embodiment are denoted by reference numerals having a 'b' added thereto. Since the description of the same parts as the embodiment is duplicated, it will be omitted and only the other parts will be described. As shown in these figures, in the fixture 1b of the dental implant according to the third embodiment of the present invention, unlike the first embodiment described above, the tubular portion 20b is cylindrical and the tubular portion 20b The outer diameter D _{2 of} ) is configured to be 0.05 mm to 1 mm larger than the outer diameter D ₁ of the trunk portion 10a, preferably 0.1 mm to 0.3 mm larger. That is the difference between the outer diameter (D ₁₎ of the outer diameter (D ₂₎ and the body portion (10b) of the tubular portion (20b) is configured to be preferably from 0.2mm to 0.3mm. In this configuration, since the outer diameter D ₂ of the tubular portion 20b is thicker, a plurality of threads 13b provided between the deep bones 12b of the trunk portion 10b pass through a position different from that of the alveolar bone through which the tubular portion 20b passes. Even though the threads provided in the tubular portion 20b pass, the threads provided in the tubular portion 20b again form a thread deeper, so that the tubular portion 20b and the dense bone of the tubular portion 20b are not affected by the passage of the trunk portion 10b. You can be sure of close contact.

FIG. 6 is a cross-sectional view of a fixture of a dental implant according to a fourth embodiment of the present invention, in which components corresponding to those of the first embodiment are denoted by reference numerals having 'c' added thereto. Descriptions of the same parts as in the embodiment will be omitted, and only other parts will be described. As shown in these figures, in the fixture 1c of the dental implant according to the fourth embodiment of the present invention, the mountains 13c and the tubular portion 20c provided between the deep bones of the torso 10c are provided. The interlocking mountains and the independent mountains 23c differ from the first embodiment only in that they are provided by forming grooves along the circumferential direction instead of the threaded cross section.

7 is a cross-sectional view of the spiral of the screw of the fixture of the dental implant according to the fifth embodiment of the present invention, the component corresponding to the above-described first embodiment is indicated by the reference numeral 'd' added, Since the descriptions of the same parts as in the first embodiment are duplicated, only descriptions of the other parts will be omitted. As shown in these figures, in the fixture of the dental implant according to the fifth embodiment of the present invention, the peaks of the independent threads 21d of the tubular portion 20d are symmetrically to the interlocking threads 23d on both sides. Only the asymmetrical arrangement point is different from the first embodiment described above. For example, the axis of the peak of the independent thread 21d of the tubular portion 20d and the peak of one interlocking thread 23d is different. The direction distance p ₁ is 0.3 mm, and the axial distance p ₂ between the peak of the independent threaded 21d of the tubular portion 20d and the peak of the other interlocking thread 23d is 0.2mm. do. Here again, the axial distance d ₁ between the peaks adjacent to the deep valleys 12d of the trunk portion 10d is an independent thread 21d provided between the plurality of interlocking threads 23d of the tubular portion 20d. It goes without saying that it is substantially equal to the axial distance d ₂ between the respective peaks of the interlocking thread 23d adjacent to both sides.

In the above-described first to third embodiments and the fifth embodiment, the plurality of threads 13, 13a, 13b, 13d and the tubular portion 20 of the trunk portions 10, 10a, 10b, and 10d are formed. The interlocking threads 23, 23a, 23b, 23d of the 20a, 20b, 20d and the independent threads 21a or the independent threads 21, 21b, 21d of the tubular portion 20, 20a, 20b, 20d are Although the thread is described above, it may be provided by forming grooves along the circumferential direction as in the above-described fourth embodiment, as well as by forming beads of various types.

In addition, in the above-described embodiments, a plurality of mountains (13, 13a, 13b) provided between the deep bones (12, 12a, 12b, 12c, 12d) of the trunk (10, 10a, 10b, 10c, 10d), respectively , 13c, 13d are two or three, and the number of independent acids 21a or 21c, 21d, 21d, 21d of tubular portions 20, 20a, 20b, 20c, 20d is one. As described above with respect to dogs or two dogs, the number of the plurality of mountains may be various, such as four or five, and the number of independent mountains may be variously changed.

As described above, according to the present invention, it is easier to perform the procedure without increasing the length and diameter of the fixture and the whole is formed only with micro threads, while increasing the adhesion surface with the surrounding bone and equally loading the surrounding bone tissue. It can be distributed more effectively to prevent bone fracture and bone fracture of the surrounding bone than before, and when the upper part of alveolar bone is fed, the upper part of alveolar bone is not substantially affected by the mountains of the trunk passing through the upper part of the alveolar bone. A fixture of a dental implant is provided so that only the corresponding mountains can be formed. As a result, even if the healing ability is poor or the chewing function is performed quickly, the probability of success of the implant procedure can be higher than before.

In addition, the tubular portion joined to the dense bone of the alveolar bone has a cylindrical shape, but is thicker than the trunk portion, so that the mountains provided in the tubular portion without substantially being affected by the mountains of the torso through which the upper portion of the alveolar bone passes through the upper portion of the alveolar bone during implantation A fixture of a dental implant is provided which allows to double guarantee that only a groove corresponding to is formed.

1 is a front view of a fixture of a dental implant according to a conventional embodiment,

2 is a perspective view of a fixture of a dental implant according to the first embodiment of the present invention,

3 is a cross-sectional view taken along line III-III of FIG. 2;

4 is a cross-sectional view of a fixture of a dental implant according to a second embodiment of the present invention;

5 is a cross-sectional view of the fixture of the dental implant according to the third embodiment of the present invention,

6 is a cross-sectional view of the fixture of the dental implant according to the fourth embodiment of the present invention,

7 is a cross-sectional view of the spiral of the screw of the fixture of the dental implant according to the fifth embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

     1: Fixture of dental implant 10: Torso

    12: deep bones 13: a plurality of threads of the body

    14: shallow valley 17: lower slope

    18: Self Tapping Groove 20: Tubular part

    21: independent thread 23: interlocking threads

    25: upper slope portion 30: inner hole

    31: upper conical tube part 33: middle part

    35: lower conical tube section

Claims (7)

In the fixture of the dental implant embedded in the alveolar bone, A series of deep valleys axially spaced and having a first depth that is a depth measured from an adjacent peak and shallow valleys having a second depth that is shallower than the first depth as a depth measured from an adjacent peak A body portion having a plurality of mountains spaced apart in the axial direction by the circumferential direction and provided between the deep valleys; And A plurality of interlocking mountains provided by the same screw curve and a plurality of mountains provided between the deep valleys of the body portion, and provided between the plurality of interlocking mountains, and at least one peak and the peak And a tubular portion having at least one independent mountain having one more valleys and disposed above the body portion.  An axial distance between peaks adjacent to the deep valley of the body portion is substantially equal to the axial distance between each peak of the linkage mountain adjacent to both sides of the at least one independent mountain provided between the plurality of linkage mountains of the tubular portion. Dental implant fixtures, characterized in that the same. The method of claim 1, The number of the plurality of mountains respectively provided between the deep bones of the torso is two, and the independent mountains of the tubular portion is a fixation of the dental implant, characterized in that a line with one peak and two bones Chew. The method of claim 2, A plurality of mountains respectively provided between the deep valleys of the body portion, the linkage mountains of the tubular portion, and the independent mountains are provided by a thread profile having mountains arranged in the circumferential direction defined by the thread elements of the thread side view. And a plurality of mountains provided between the deep valleys of the body portion and the linkage mountains of the tubular portion are interlocking threads of two rows of screws provided by substantially the same screw curve, and the independent mountains of the tubular portion are independent threads of one row of screws. Fixture of dental implant, characterized in that. The method of claim 1, Wherein the axial distance between the adjacent peaks of the peristaltic mountains of the tubular portion and the axial distance between the peak of the peristaltic mountain and the peak of the independent mountain adjacent to the peristaltic mountain are different from each other. The method of claim 1, The deep bone of the trunk portion of the dental implant, characterized in that having a depth of 0.1mm to 0.5mm inward from the shallow bone. The method according to any one of claims 1 to 5, The tubular portion is cylindrical, and the outer diameter of the tubular portion of the dental implant, characterized in that 0.05mm to 0.5mm larger than the outer diameter of the body portion. The method of claim 1, The plurality of interlocking mountains and the at least one independent mountain of the tubular portion is a fixture of the dental implant, characterized in that the height of the mountains measured from the bone to the peak is 0.02mm to 0.2mm.