CN209790046U - Elliptic cylindrical orthodontic implantation anchorage nail - Google Patents
Elliptic cylindrical orthodontic implantation anchorage nail Download PDFInfo
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- CN209790046U CN209790046U CN201822029684.4U CN201822029684U CN209790046U CN 209790046 U CN209790046 U CN 209790046U CN 201822029684 U CN201822029684 U CN 201822029684U CN 209790046 U CN209790046 U CN 209790046U
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Abstract
The utility model discloses an elliptic cylindrical orthodontic planting anchorage nail, which comprises a head part, a connecting part, a neck part and a nail body which are connected in sequence; the head, the connecting part and the neck are encircled to form a groove for connecting the traction device, the nail body is arranged to be a cylinder with an oval cross section, the long axis of the oval is 1.2-2.0mm, and the short axis of the oval is 0.7-0.8 mm. Therefore, the density of the orthodontics implanting anchorage nails implanted along the minor axis direction of the elliptic cylinder is higher than that of the implanted cylindrical nail body, and the method is particularly suitable for the condition that a plurality of anchorage nails need to be implanted in a narrow space; moreover, the size of the long axis of the elliptic cylinder is equivalent to the diameter of the cylindrical nail body, so that the elliptic cylinder orthodontic implantation anchorage nail keeps certain strength; meanwhile, the cross section area of the elliptic cylinder is reduced, so that the damage to human tissues when the elliptic cylinder orthodontic planting anchorage nail is planted in the oral cavity is reduced.
Description
Technical Field
The utility model relates to a tooth just abnormal apparatus technical field, concretely relates to support just abnormal planting anchorage nail of cylindrical.
Background
Orthodontic treatment is mainly to adjust the coordination among nerves and muscles of facial bones, teeth and maxillofacial parts, that is, to adjust abnormal relationships among maxilla and mandible, between upper and lower teeth, between teeth and jawbone, and between nerves and muscles connecting them, by various orthodontic devices, with the ultimate aim of correction being to achieve balance, stability and beauty of the oromandibular system. In the orthodontic correction process, any force applied to a tooth to be treated to move the tooth necessarily generates a force with opposite direction and same magnitude at the same time, and the condition of supporting the reaction force caused by the movement of the tooth body is called as anchorage, wherein the anchorage is a basis for providing the tooth correction force, and the high-quality correction result can be obtained only by correct anchorage design and good anchorage control.
In conventional orthodontic treatment, orthodontists often spend a great deal of time and effort controlling anchorage to move as many teeth as desired and as few teeth as desired. In order to simplify the mechanical mechanism of orthodontic treatment and obtain better treatment effect, the implantation anchorage is generated by itself. In the implant anchorage technology, the orthodontic implant anchorage nail is greatly developed in the implant anchorage technology because of its small size and relatively simple and convenient implantation, use and removal, wherein the miniature titanium nail implant anchorage nail can be conveniently implanted into any required part of jaw bone as a temporary anchorage device, and is widely applied clinically.
In order to ensure sufficient strength of the micro titanium nail, the nail body of the common micro titanium nail has a diameter of 1.2-2.0mm and a length of 4.0-21 mm. However, such micro titanium spikes with a diameter of 1.2-2.0mm limit the planting gap.
SUMMERY OF THE UTILITY MODEL
According to an aspect of the utility model, in order to improve the flexibility in miniature titanium nail planting clearance, provide an oval cylindricality just abnormal planting anchorage nail.
The elliptic cylindrical orthodontic implantation anchorage nail comprises a head part, a connecting part, a neck part and a nail body which are sequentially connected; the head, the connecting part and the neck are encircled to form a groove for connecting the traction device, the nail body is arranged to be a cylinder with an oval cross section, the long axis of the oval is 1.2-2.0mm, and the short axis of the oval is 0.7-0.8 mm. During the implantation treatment, firstly, a target position to be implanted is positioned through an X-ray or CT, then local anesthesia is carried out on the target position, a cutter is used for cutting a surface mucous membrane of the target position, then an implantation channel is expanded through a split drill, finally, force is applied to the elliptic cylindrical orthodontic implantation anchorage nail, the elliptic cylindrical orthodontic implantation anchorage nail can be implanted into the target position, and at the moment, a nail body and bone tissues are mutually occluded. In the embodiment, when the long axis of the elliptic cylinder is equal to the diameter of the cylindrical nail body, the short axis of the elliptic cylinder is smaller than the diameter of the cylindrical nail body, and at the moment, the density of the elliptic cylindrical orthodontic implant anchorage nails implanted along the short axis direction of the elliptic cylinder is higher than that of the implanted cylindrical nail body, so that the method is particularly suitable for the situation that a plurality of anchorage nails need to be implanted in a narrow space; moreover, although the minor axis of the elliptic cylinder is smaller than the diameter of the cylindrical nail body, the dimension of the major axis of the elliptic cylinder is equivalent to the diameter of the cylindrical nail body, so that the elliptic cylinder orthodontic implant anchorage nail keeps certain strength; meanwhile, the cross section area of the elliptic cylinder is smaller than that of the cylindrical nail body, so that the damage to the bone tissue of a human body when the elliptic cylindrical orthodontic implantation anchorage nail is implanted in the oral cavity is reduced.
In some embodiments, the free end of the cylinder is provided with a cutting portion, the end of which is provided with a cutting edge. Due to the arrangement of the cutting edge, the elliptic cylindrical orthodontic implantation anchorage nail can be conveniently inserted into the implantation channel, so that the implantation process is smooth to operate, and the pain of a patient is reduced.
In some embodiments, the thickness of the cutting portion is thinner than the thickness of the cylinder. Therefore, when the orthodontics implantation anchorage nail is inserted, the cutting edge can further break through bone substances to enter bone tissues, and the resistance to the insertion of the nail body can be reduced due to the fact that the thickness of the cutting part is smaller than that of the cylinder, so that the orthodontics implantation anchorage nail cannot be bent due to the fact that the diameter is smaller when the orthodontics implantation anchorage nail is inserted.
In some embodiments, the cutting edge of the cutting edge is oriented parallel to the major axis of the ellipse. From this to when using cutting edge and cutting part as the direction to implant this just abnormal planting anchorage nail of oval cylindricality in the oral cavity, can reduce the resistance of human bone tissue to this just abnormal planting anchorage nail of oval cylindricality, make the planting process operation smooth and easy, reduce patient's misery.
In some embodiments, the length of the cutting portion is 3 ± 0.2 mm. From this, when making this just abnormal planting anchorage nail of oval cylindricality have certain guide section length, guarantee the effective length of oval cylinder to guarantee that oval cylinder and bone tissue are abundant to interlock, avoid oval cylinder to drop from bone tissue.
in some embodiments, the surface of the shank is provided with a plurality of protrusions. Therefore, the contact area of the nail body and the bone tissue can be further increased, and the nail body is prevented from falling off from the bone tissue.
In some embodiments, the projections have a toothed longitudinal section and a height of 0.5 ± 0.1 mm. Therefore, the protrusion can be tightly occluded with the bone tissue, and the bone tissue can be prevented from being damaged greatly due to the overlarge size of the protrusion.
In some embodiments, the end of the neck is rounded. Because this just abnormal planting anchorage nail of elliptic cylindrical shape is planted in the oral cavity after, the nail body and the mutual interlock of bone tissue, neck and gum contact each other, the tip rounding off of neck can avoid because of breeding the bacterium on the neck surface, leads to the emergence of implant surrounding mucositis.
In some embodiments, the head, the connecting portion, the neck, and the shank are made of a titanium alloy. Therefore, the elliptic cylindrical orthodontic implantation anchorage nail can be ensured to have enough strength.
In some embodiments, the length of the shank is 6-8 mm. Therefore, the nail body can be ensured to be fully occluded with the bone tissue, and the nail body is prevented from falling off from the bone tissue.
Drawings
Fig. 1 is a schematic perspective view of an elliptic cylindrical orthodontic implant anchorage nail according to an embodiment of the present invention;
FIG. 2 is a schematic view of another view of the orthodontic implant anchorage pin of FIG. 1;
FIG. 3 is a schematic view of an alternate view of the orthodontic implant anchorage pin of FIG. 1;
FIG. 4 is a schematic top view of the orthodontic implantation anchorage pin of FIG. 2;
FIG. 5 is a schematic view of the cross-sectional A-A configuration of the orthodontic implant anchorage pin of FIG. 2;
fig. 6 is a schematic view of a cross-sectional B-B structure of the orthodontic implantation anchorage pin shown in fig. 2.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Fig. 1 to 6 schematically show an elliptic cylindrical orthodontic implant anchorage nail according to an embodiment of the present invention.
As shown in fig. 1, the elliptic cylindrical orthodontic implant anchorage nail comprises a head 20, a connecting part 30, a neck 40 and a nail body 50 which are connected in sequence; the head part 20, the connecting part 30 and the neck part 40 enclose a groove 31 for connecting the traction device, the nail body 50 is arranged into a column 51 with an oval cross section, the long axis of the oval is 1.2-2.0mm, and the short axis of the oval is 0.7-0.8 mm.
During the implantation treatment, firstly, a target position to be implanted is positioned through an X-ray or CT, then local anesthesia is carried out on the target position, a cutter is used for cutting a surface mucous membrane of the target position, then an implantation channel is expanded through a split drill, finally, force is applied to the elliptic cylindrical orthodontic implantation anchorage nail, the elliptic cylindrical orthodontic implantation anchorage nail can be implanted into the target position, and at the moment, the nail body 50 is mutually occluded with bone tissues. In the embodiment, since the minor axis of the elliptical cylinder 51 is smaller than the diameter of the general cylindrical nail body when the major axis of the elliptical cylinder 51 is equal to the diameter of the general cylindrical nail body in the prior art, the density of the implanted elliptical cylindrical orthodontic implant anchorage nails along the minor axis of the elliptical cylinder 51 is higher than that of the implanted general cylindrical nail body, which is particularly suitable for the case that a plurality of anchorage nails need to be implanted in a narrow space; moreover, although the minor axis of the elliptic cylinder 51 is smaller than the diameter of the general cylindrical nail body, the dimension of the major axis of the elliptic cylinder 51 is equivalent to the diameter of the general cylindrical nail body, so that the elliptic cylindrical orthodontic anchorage nail keeps certain strength; meanwhile, as the cross-sectional area of the elliptic cylinder 51 is smaller than that of a general cylindrical nail body, the damage to the bone tissue of a human body when the elliptic cylindrical orthodontic implantation anchorage nail is implanted in the oral cavity is reduced.
Preferably, the connection portion 30 is a cylinder having a diameter of not less than 1 mm. So that the coupling portion 30 has a certain coupling strength and a strength to support the traction device.
In the present embodiment, the head portion 20 is provided as a solid cylinder having a thickness of 2 ± 0.2mm and a diameter not smaller than that of the connecting portion 30, thereby giving the head portion 20 a certain strength so that the head portion 20 can give sufficient support to the traction apparatus. Preferably, the diameter of the cylindrical head 20 is smaller than the long axis of the elliptic cylindrical body 51, so that the interference of the head 20 in the high-density implantation of the elliptic cylindrical orthodontic anchorage nail can be reduced.
As shown in fig. 1, further, the free end of the cylinder 51 is provided with a cutting portion 52, and the end of the cutting portion 52 is provided with a cutting edge 53. Due to the arrangement of the cutting edge 53, the elliptic cylindrical orthodontic implantation anchorage nail can be conveniently inserted into the implantation channel, so that the implantation process is smooth to operate, and the pain of a patient is reduced.
As shown in fig. 3, the thickness of the cutting part 52 is thinner than that of the cylinder 51. Therefore, when the elliptic cylindrical orthodontic implant anchorage nail is inserted, the cutting edge 53 can further break through bone substances to enter bone tissues, and the resistance to the insertion of the nail body can be reduced because the thickness of the cutting part 52 is smaller than that of the cylinder 51, so that the elliptic cylindrical orthodontic implant anchorage nail cannot be bent due to smaller diameter when being inserted.
Preferably, as shown in fig. 3, the cutting part 52 has two inclined surfaces intersecting the cutting edge 53 at an angle of 60 ° ± 10 °, thereby reducing the resistance of the bone tissue to the cutting part 52.
As shown in fig. 2, the cutting edge 53 has a blade direction parallel to the major axis of the ellipse. Therefore, when the cutting edge 53 and the cutting part 52 are used as a guide to implant the elliptic cylindrical orthodontic implantation anchorage nail into the oral cavity, the resistance of human bone tissues to the elliptic cylindrical orthodontic implantation anchorage nail can be reduced, the operation of the implantation process is smooth, and the pain of a patient is reduced.
Preferably, the length of the cutting part 52 is 3 ± 0.2 mm. From this, when making this just abnormal planting anchorage nail of oval cylindricality have certain guide segment length, guarantee oval cylinder 51's effective length to guarantee that oval cylinder and bone tissue are abundant to interlock, avoid oval cylinder 51 to drop from bone tissue.
In the present embodiment, as shown in fig. 1 to 5, the surface of the nail body 50 is provided with a plurality of protrusions 60. Thereby, the contact area of the nail body 50 and the bone tissue can be further increased, and the nail body 50 can be prevented from falling off from the bone tissue.
As shown in FIG. 5, the projections 60 have a tooth-shaped longitudinal section and a height of 0.5. + -. 0.1 mm. Therefore, the bulge 60 can be tightly occluded with the bone tissue, and the bone tissue can be prevented from being damaged greatly due to the overlarge size of the bulge 60. Specifically, the protrusions 60 are saw-toothed.
Preferably, the included angle of the teeth is 60 ° ± 10 °. Thereby providing the protrusion 60 with a certain strength.
As shown in fig. 1 to 3, the end of the neck 40 is rounded. After the elliptic cylindrical orthodontic planting anchorage nail is planted in the oral cavity, the nail body 50 is meshed with bone tissues, the neck 40 is contacted with the gum, and the smooth transition of the end part of the neck 40 can avoid the occurrence of mucositis around the implant due to the breeding of bacteria on the surface of the neck 40.
Preferably, the neck 40 is configured to have a square shape with smooth transition corners so as to clamp the neck 40 of the orthodontic anchorage nail and apply force to the orthodontic anchorage nail for implantation.
Preferably, the head 20, the connecting portion 30, the neck 40 and the shank 50 are made of titanium alloy. Therefore, the elliptic cylindrical orthodontic implantation anchorage nail can be ensured to have enough strength.
Further, the length of the nail body 50 is 6-8 mm. Therefore, the nail body 50 can be ensured to be fully meshed with the bone tissue, and the nail body 50 is prevented from falling off from the bone tissue.
Preferably, the total length of the elliptic cylindrical orthodontic implant anchorage nail is 10-12mm, so that the influence on the oral cavity movement of a person due to the overlong length of the elliptic cylindrical orthodontic implant anchorage nail can be avoided.
What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.
Claims (10)
1. an elliptic cylindrical orthodontic implantation anchorage nail is characterized by comprising a head (20), a connecting part (30), a neck (40) and a nail body (50) which are sequentially connected; the head (20), the connecting part (30) and the neck (40) enclose a groove (31) for connecting a traction device, the nail body (50) is arranged into a cylinder (51) with an oval cross section, the long axis of the oval is 1.2-2.0mm, and the short axis of the oval is 0.7-0.8 mm.
2. The orthodontic anchorage nail of the elliptic cylindrical shape according to claim 1, characterized in that the free end of the cylinder (51) is provided with a cutting portion (52), and the end of the cutting portion (52) is provided with a cutting edge (53).
3. The orthodontic anchorage nail of the elliptic cylinder type according to claim 2, characterized in that the thickness of the cutting portion (52) is thinner than the thickness of the cylinder (51).
4. The orthodontic anchorage nail of the elliptic cylindrical shape according to claim 3, characterized in that the edge direction of the cutting edge (53) is parallel to the major axis of the ellipse.
5. The orthodontic anchorage nail of the elliptic cylinder shape according to claim 2, characterized in that the length of the cutting portion (52) is 3 ± 0.2 mm.
6. The orthodontic anchorage nail of the elliptic cylinder shape according to claim 2, characterized in that the surface of the nail body (50) is provided with a plurality of protrusions (60).
7. The orthodontic anchorage nail of the elliptic cylinder shape according to claim 6, wherein the projections (60) have a tooth shape in a longitudinal section and a height of 0.5 ± 0.1 mm.
8. The orthodontic anchorage nail of the elliptic cylinder shape according to any one of claims 1 to 7, characterized in that the end of the neck (40) is rounded.
9. the orthodontic anchorage nail of claim 8, wherein the head (20), the connection portion (30), the neck (49) and the shank (50) are made of titanium alloy.
10. The orthodontic anchorage nail of the elliptic cylinder shape according to claim 8, characterized in that the length of the nail body (50) is 6-8 mm.
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CN201822029684.4U CN209790046U (en) | 2018-12-04 | 2018-12-04 | Elliptic cylindrical orthodontic implantation anchorage nail |
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CN201822029684.4U CN209790046U (en) | 2018-12-04 | 2018-12-04 | Elliptic cylindrical orthodontic implantation anchorage nail |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111166511A (en) * | 2020-02-18 | 2020-05-19 | 北京大学口腔医学院 | Orthodontic anchorage micro-screw and using method |
CN112472333A (en) * | 2020-11-25 | 2021-03-12 | 广州市弘健生物医用制品科技有限公司 | Positioner for human bone surface reconstruction |
-
2018
- 2018-12-04 CN CN201822029684.4U patent/CN209790046U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111166511A (en) * | 2020-02-18 | 2020-05-19 | 北京大学口腔医学院 | Orthodontic anchorage micro-screw and using method |
CN112472333A (en) * | 2020-11-25 | 2021-03-12 | 广州市弘健生物医用制品科技有限公司 | Positioner for human bone surface reconstruction |
CN112472333B (en) * | 2020-11-25 | 2021-10-29 | 广州市弘健生物医用制品科技有限公司 | Positioner for human bone surface reconstruction |
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