Drilling driver for placing dental implant
10779841 ยท 2020-09-22
Assignee
Inventors
Cpc classification
International classification
Abstract
The present disclosure provides a drilling driver for placing a dental implant. The drilling driver includes: a tip part having a first outer diameter and having a cutting edge; a small-diameter part extended from the tip part, and having a second outer diameter smaller than the first outer diameter; and a large-diameter part positioned farther from the tip part than the small-diameter part, and having a third outer diameter larger than the first outer diameter.
Claims
1. A drilling driver for placing a dental implant, the drilling driver comprising: a tip portion having a first outer diameter and having a cutting edge; a small-diameter portion extending from the tip portion and having a second outer diameter smaller than the first outer diameter; a large-diameter portion located farther than the small-diameter portion with respect to the tip portion and having a third outer diameter larger than the first outer diameter, a diameter expanding portion disposed between the small-diameter portion and the large-diameter portion and having an outer diameter gradually increased from the second outer diameter to the third diameter; and an induction portion provided in the small-diameter portion and configured to induce the small-diameter portion to be broken when excessive force is applied to the drilling driver, wherein the first outer diameter, the second outer diameter, and the third outer diameter satisfy the following relation: 1.8 <(D.sub.3D.sub.1)/(D.sub.1D.sub.2)<2.3, where D.sub.1 is the first outer diameter, D.sub.2 is the second outer diameter, and D.sub.3 is the third outer diameter, all in units of mm, and wherein the induction portion includes an induction groove formed in a position of the small-diameter portion or an induction groove extending in a circumferential direction of the small-diameter portion.
2. The drilling driver of claim 1, wherein a difference between the first outer diameter and the second outer diameter is smaller than a difference between the third outer diameter and the first outer diameter.
3. The drilling driver of claim 2, wherein the difference between the first outer diameter and the second outer diameter is half of the difference between the third outer diameter and the first outer diameter.
4. The drilling driver of claim 1, wherein the diameter expanding portion and the large-diameter portion account for 65% to 75% of an overall length of the driver.
5. The drilling driver of claim 1, wherein the induction groove is formed in an oblique direction with respect to an extending direction of the small-diameter portion.
6. The drilling driver of claim 1, wherein the induction portion is positioned to be biased toward the large-diameter portion than the tip portion.
Description
DESCRIPTION OF DRAWINGS
(1)
(2)
(3)
BEST MODES
(4) Hereinafter, a drilling driver for placing a dental implant according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In this disclosure, the same/similar reference numerals are given to the same/similar components although embodiments are different, and a description thereof will be replaced with a first description.
(5)
(6) Referring to
(7) The tip portion 110 is a portion including one end of the drilling driver 100. A cutting edge 111 is formed in the tip portion 110. The cutting edge 111 forms a recess in the alveolar bone when the drilling driver 100 rotates. The tip portion 110 has a first outer diameter D.sub.1.
(8) The small-diameter portion 130 is a portion extending from the tip portion 110. An outer diameter of the small-diameter portion 130 is a second outer diameter D.sub.2, which is smaller than the first outer diameter D.sub.1.
(9) A large-diameter portion 150 is disposed next to the small-diameter portion 130 with respect to the tip portion 110. An outer diameter of the large-diameter portion 150 is a third outer diameter D.sub.3, which is larger than the outer diameter D.sub.1 of the tip portion 110. An insertion portion 151 and an engagement portion 153 may be formed on a free end side of the large-diameter portion 150. The insertion portion 151 is a portion to be inserted into a handpiece as an object in which the drilling driver 100 is installed and the engagement portion 153 is a portion to be caught by the handpiece.
(10) The diameter expanding portion 170 is disposed between the small-diameter portion 130 and the large-diameter portion 150 to connect them. To this end, the diameter expanding portion 170 may have an outer diameter that gradually increases from the outer diameter D.sub.1 of the small-diameter portion 130 to the outer diameter D.sub.3 of the large-diameter portion 150.
(11) Here, a difference between the first outer diameter D.sub.1 and the second outer diameter D.sub.2 may be smaller than a difference between the third outer diameter D.sub.3 and the first outer diameter D.sub.1.
(12) Specifically, the first outer diameter D.sub.1, the second outer diameter D.sub.2, and the third outer diameter D.sub.3 may satisfy Equation 1 below.
1.8<(D.sub.3D.sub.1)/(D.sub.1D.sub.2)<2.3[Equation 1]
(13) {D.sub.1 is the first outer diameter, D.sub.2 is the second outer diameter, and D.sub.3 is the third outer diameter, all in units of mm}
(14) Here, if (D.sub.3D.sub.1)/(D.sub.1D.sub.2) is 1.8 or less, the small-diameter portion 130 may be thicker than a set reference, making it difficult for a practitioner to visually check the recess formed by the cutting edge 111. Also, if (D.sub.3D.sub.1)/(D.sub.1D.sub.2) is 2.3 or greater, strength of the small-diameter portion 130 may be excessively low, relative to the large-diameter portion 150. Therefore, the inventor of the present application confirmed that it is appropriate for the first outer diameter D.sub.1 to the third outer diameter D.sub.3 to satisfy the foregoing [Equation 1].
(15) Specifically, the inventor set the first outer diameter D.sub.1 to 2.2 mm, the second outer diameter D.sub.2 to 1.8 mm, and the third outer diameter D.sub.3 to 3.0 mm. Accordingly, (D.sub.3D.sub.1)/(D.sub.1D.sub.2)=3.02.2/2.21.8=0.8/0.4=2.
(16) The diameter expanding portion 170 and the large-diameter portion 150 may account for 65% to 75% of the entire length of the drilling driver 100. If the lengths of the diameter expanding portion 170 and the large-diameter portion 150 are less than 65% of the entire length of the drilling driver 100, a length of the small-diameter portion 130 may be increased to weaken overall strength of the drilling driver 100. If the lengths of the diameter expanding portion 170 and the large-diameter portion 150 are more than 75%, a vision of the practitioner may be covered by the diameter expanding portion 170 and the large-diameter portion 150, causing a problem.
(17) According to such a configuration, the practitioner may relatively easily check the process of forming a recess through a space around the small-diameter portion 130, while the cutting edge 111 forms the recess in the alveolar bone. This is more reliably achieved by the relationship of (D.sub.3D.sub.1)/(D.sub.1D.sub.2) according to the above-described [Equation 1], the ratio of the large-diameter portion 150 and the diameter expanding portion 170 in the overall length, and the like.
(18) Hereinafter, a configuration for inducing fracture at the small-diameter portion 130 which is thinner than other portions will be described with reference to
(19)
(20) Referring to
(21) As the induction portion 190, an induction groove 191 is exemplified in the present embodiment. The induction groove 191 may be a hole punched toward the center from an outer circumferential surface of the small-diameter portion 130. In addition, the induction groove 191 may be formed to penetrate through the small-diameter portion 130. Here, the induction groove 191 may be formed to be biased toward the diameter expanding portion 170, rather than to the tip portion 110.
(22) Due to the configuration of the induction groove 191, the portion where the induction groove 191 is located may be broken when the relatively weak small-diameter portion 130 is broken. As a result, since the portion where the cutting edge 111 and the small-diameter portion 130 meet is broken, a problem in which a small piece of debris (almost of the tip portion 110 only) is stuck in the alveolar bone and is difficult to remove may be prevented.
(23) Another configuration of the induction portion 190 will be described with reference to
(24)
(25) Referring to
(26) The induction groove 193 may be formed in an oblique direction with respect to the extending direction of the small-diameter portion 130.
(27) According to such a configuration, a portion where the induction groove 193 is formed may be broken by the induction groove 193 when the drilling driver receives an excessive force. Further, since the induction groove 193 is formed in the oblique direction, induction of fracture may be effectively made with respect to a twisting moment of the drilling driver.
(28) The drilling driver for placing a dental implant as described above is not limited to the configuration and operation of the embodiments described above. The above embodiments may be configured so that all or some of the embodiments may be selectively combined to make various modifications.
INDUSTRIAL APPLICABILITY
(29) The present invention is industrially applicable to the field of manufacturing a drilling driver for placing a dental implant.