FR2989266A1 - Dental and drill implants range for providing drillings, has set of implants and drills associated with each other such that difference between diameters of top of third section of implants and drills is small - Google Patents

Abstract

The range (2) has a truncated threaded section that is turned towards a top of drills (F 1-F 10). Another truncated threaded section is intended to be turned toward a bottom of the drills. A third cylindrical threaded section connects the former truncated threaded section and the latter truncated threaded section. A set of implants (I 1-I 10) and the drills are associated with each other such that difference between a diameter of top of the third section of the implants and a diameter of the third section of the drills is small when the diameter of the third section of the implant is large.

Description

The present invention relates to a range of dental implants and drills for performing drilling intended to receive these dental implants. From the state of the art is known a range in which each dental implant comprises: a first threaded frustoconical section, intended to be turned towards the top of the borehole, a second threaded frustoconical section, intended to be turned towards the bottom drilling, and 10 - a third threaded cylindrical section connecting the first and second frustoconical sections. Each drill of the range is associated with a respective implant and comprises: a first section designed to make a first cylindrical drilling portion extending through the bone ridge; a second section designed to make a second frustoconical drilling portion; extending through the cancellous bone, and - a third portion connecting the first and second sections, adapted to provide a third cylindrical bore portion extending through the cortical bone, and connecting the first and second portions of drilling. A disadvantage of such a type of range is that the association between implants and drills is often poorly adapted. For some implants, the drillings made by their respective drills are too wide. Also, during the assembly of these implants the tightening torque is insufficient to ensure good retention to the bone. For other implants, the drilling made by their respective forests are, on the contrary, too narrow. Then, during the assembly of these implants the tightening torque is consequent, which can lead to a fracture of the cortical bone. The invention aims to overcome this disadvantage. The invention relates to a range of dental implants and drills for performing boreholes intended to receive these dental implants, in which each implant comprises: a first frustoconical threaded section intended to be turned towards the top of the borehole; a second threaded frustoconical section, intended to be turned towards the bottom of the borehole, and a third threaded cylindrical section connecting the first and second frustoconical sections, in which each drill is associated with a respective implant, each drill comprising: a first section; designed to make a first cylindrical drilling portion, - a second section designed to make a second frustoconical drilling portion 10, and - a third section connecting the first and second sections, designed to make a third cylindrical drilling portion connecting the first and second portions of drilling, characterized in that the implants and drills are associated with each other, so that the difference between the thread-top diameter of the third cylindrical portion of an implant and the diameter of the third section of the respective drill bit is smaller as the diameter at the top of the Thread of the third cylindrical section of this implant is large. The association between implants and drills is performed so that when mounting each implant in the borehole made by its respective drill bit, the tightening torque is equal to the same determined value. This value guarantees the retention of the implant while limiting the risk of fracture of the cortical bone. The range according to the invention may comprise one or more of the following characteristics. In a preferred embodiment, the implants and drills are associated with each other, such that the difference between the average diameter at the crest of the second implant section and the average diameter of the second section of the drill bit. The smaller the average diameter at the thread tip of the second section of this implant is the smaller. Preferably, the implants and the drills are associated with each other, so that the difference between the average thread diameter of the first section of an implant and the average diameter of the first section 35 of the respective drill is substantially zero. .

According to one characteristic, the second and third sections of all the implants have a continuous thread, likewise not, and of substantially identical thickness. According to another characteristic, the first section of all the implants has threading of the same pitch. Preferably, the pitch of the thread of the first section is smaller than the pitch of the threading of the second and third sections. Advantageously, the free end of the second portion of each drill is pointed, and the free end of the second portion of each implant is substantially flat. Thus, when an implant is received in the borehole made by its respective drill, a space is formed under the second frustoconical portion of this implant. Such a space makes it possible to accommodate the bone volume displaced by the threads of the implant during assembly. In its preferred embodiment, the range comprises: - a plurality of implants comprising first sections of the same maximum diameter at the top of the thread, and different lengths, and - a plurality of respective drills of lengths adapted to the lengths of the thread; these implants. Advantageously, the range comprises: - a plurality of implants at lx, where x is an integer, - a plurality of drills F1 to Fx, respectively associated with the implants at lx, and the average diameter of the second section of at least a drill Fi is less than or equal to the diameter of the third section of a drill Fk, where i and k are integers between 1 and x. Under these conditions, during the assembly of an implant, a practitioner first of all carries out a drilling using the drill Fk, then widens this hole by means of the drill Fi associated with the implant. To this end, the practitioner engages the second 30 section of the drill Fi in the third drill section made by the drill Fk. The guidance of the drill Fi is thus facilitated, and the geometry of the bore for receiving the implant is mastered. The invention will be better understood with the aid of the description which follows with reference to the appended diagrammatic drawing showing, for example, a range of dental implants and drills for carrying out drillings intended to receive these dental implants. according to the invention. Figure 1 is a side view of this range; Figure 2 is a side view of a dental implant of the range of Figure 1; Figure 3 is a partial side view of a drill of the range of Figure 1; Figure 4 is a sectional view of a bore made by the drill of Figure 3; Figure 5 is a schematic representation of a dental implant received in the borehole made by its respective drill; and Figure 6 is a schematic representation of three dental implants received in boreholes made by their respective drills. FIG. 1 represents a range 2. This range 2 comprises a plurality of dental implants 11 to 110, and a plurality of drills F1 to F10 associated, respectively, with the implants 11 to 110 for the drilling of f1 to fco. The implants 11 to 110 (shown in FIG. 2) each comprise: a threaded frustoconical section 4 intended to be turned towards the top of the borehole f1 to fco; a threaded frustoconical section 6 intended to be turned towards the bottom drilling f1 to f10 having a substantially flat free end. a threaded cylindrical section 8 connecting the sections 4 and 6. The sections 4 of the implants 11 to 110 have a thread of the same thread thickness, and likewise not. The sections 6 and 8 of the implants 11 to 110 have a continuous thread, of substantially identical thread thickness, and likewise not. The pitch of the threads of the sections 6 and 8 is greater than the pitch of the thread of the section 4. The sections 4 of the implants 11, 12 and 13 have a maximum diameter D at the top of the thread equal to 3.4 mm. The sections 4 of the implants 14, 15, 16 and 17 have a maximum diameter D at the thread tip equal to 4 mm. The sections 4 of the implants 18, 19 and 110 have a maximum diameter D at the thread's vertex equal to 4.8 mm. The implants 14, and 18 have a length I equal to 8 mm. The implants 11, 15 and 19 have a length 1 equal to 10 mm.

The implants 12, 16 and 110 have a length I equal to 12 mm. The implants 13, and 17 have a length I equal to 14 mm. The implants 11 to 110 each comprise an internal thread (not shown) to allow the screwing of a false stump. This tapping 5 extends through the sections 4 and 8. The drills F1 to F10 (partially shown in Figure 3) are designed to drill, respectively, f1 to f10 (shown in Figure 4), the latter being intended to receive the implants, respectively, 11 to 110. The drills F1 to F10 each comprise: a section designed to produce a cylindrical drilling portion; a section designed to produce a frustoconical drilling portion having a free end shaped tip, and 15 - a section 18 connecting the sections 10 and 14, designed to achieve a cylindrical drilling portion 20 connecting the drill portions 12 and 16. Drill bits F1 to F10 have substantially equal lengths L to the lengths I of their implants 11 to 110 respectively. The drills F4, and Fg, have a length L equal to 8mm. The drills F1, F5 and F9 have a length L equal to 10 mm. Drills F2, F6 and F10 have a length L equal to 12mm. Drills F3, and F7 have a length L equal to 14mm. When mounting each implant 11 to 110 in the borehole f1 to f10, the tightening torque is equal to the same value induced by the quality of the bone. For this purpose, the implants 11 to 110 and drills F1 to F10 are shaped such that: the difference a (represented in FIG. 5) between the thread-top diameter of the section 8 of an implant and the diameter of section 18 of its respective drill bit is even smaller than the diameter at the thread tip of section 8 of the implant is large; the difference L3 (shown in FIG. 5) between the mean diameter at the thread crest of the section 6 of an implant and the average diameter of the section 14 of its respective drill bit is smaller the greater the average diameter at the top section 6 thread of the implant is large; and the difference y (shown in FIG. 5) between the mean diameter at the thread crest of the section 4 of an implant and the average diameter of the section 10 of its respective drill bit is substantially zero. A method of mounting the implant 19 is now described.

It is previously recalled that the drills F1, F5 and F9 have the same length L but distinct profiles, the profile of the drill F1 is narrower than that of the drill F5, itself narrower than that of the drill F9. Initially, a practitioner performs a drilling f1 by means of the narrower drill, that is to say the drill F1.

In a second step, the practitioner engages the section 14 of the drill F5 through the drilling portion 20 of the bore f1 and widens the bore f1 to obtain a bore f5. In a third step, the practitioner engages the section 14 of the drill F9 through the drilling portion 20 of the bore f5 and widens the bore f5 to obtain a bore f9. In a fourth step, the practitioner mounts the implant 19 in the f9 bore hole. As goes without saying, the invention is not limited to the sole embodiment of the range described above by way of example, it encompasses all variants. More particularly, the invention is not limited to the dimensions of the implants and drills given solely for information purposes. Other dimensions can be used.

Claims (9)

REVENDICATIONS1. A range (2) of dental implants (11-110) and drills (F1-F1o) for drilling (f1-f1o) for receiving these dental implants (11-110) 5, wherein each implant (11 -110) comprises: - a first threaded frustoconical section (4), intended to be turned towards the top of the borehole (f1-f1o), - a second threaded frustoconical section (6), intended to be turned towards the bottom of the borehole (f1-f1o), and - a third section (8) cylindrical threaded connecting the first and second sections (4, 6) frustoconical, wherein each drill (F1-F1o) is associated with a respective implant (11-11o), each drill bit (F1-F1o) comprising: - a first section (10) designed to produce a first cylindrical drilling portion (12); - a second section (14) designed to produce a second frustoconical drilling portion (16); and - a third section (18) connecting the first and second sections (10, 14) adapted to produce a third portion of e cylindrical bore (20) connecting the first and second bore portions (12, 16), characterized in that the implants (11-110) and the drills (F1-F1o) are associated with each other, so that the difference (a) between the thread-top diameter of the third cylindrical portion (8) of an implant (11-110) and the diameter of the third section of the respective drill bit (F1-F1o) is all the smaller as the diameter at the crest of the third cylindrical section (8) of this implant (11-110) is large. 2. Range (2) according to claim 1, characterized in that the implants (11-110) and the drills (Fi-F10) are associated with each other, so that the difference ([3) between the mean diameter at the crest of the second section (6) of an implant (11-110) and the average diameter of the second section (14) of the respective drill (Fi-F10) is smaller than the average diameter in The thread tip of the second section (6) of this implant (11-110) is large. 3. Range (2) according to any one of claims 1 to 2, characterized in that the implants (Ii-lio) and the drills (F1-F10) are associated with each other, so that the difference ( y) between the mean diameter at the crest of the first section (4) of an implant (III-lio) and the average diameter of the first section (10) of the respective drill is substantially zero. 4. Range (2) according to any one of claims 1 to 3, characterized in that the second and third sections (6, 8) of all 10 implants (Ii-lio) have a continuous thread, likewise not, and of substantially identical thickness. 5. Range (2) according to any one of claims 1 to 4, characterized in that the first section (4) of all the implants (11-110) 15 has a thread of the same pitch. 6. Range (2) according to claims 4 and 5, characterized in that the pitch of the thread of the first section (4) is smaller than the threads of the second and third sections (6, 8). 20 7. Range (2) according to any one of claims 1 to 6, characterized in that the free end of the second portion (14) of each drill (F1-F1o) is shaped tip, and in that The free end of the second portion (6) of each implant (I1-110) is substantially flat. 8. Range (2) according to any one of claims 1 to 7, characterized in that it comprises; a plurality of implants (11-110) comprising first sections (4) of the same maximum diameter (D) at the top of the net, and different lengths (I), and a plurality of drills (Fi-F10) respective lengths (L) adapted to the lengths of these implants 9. Range (2) according to any one of claims 1 to 8, characterized in that it comprises: - a plurality of implants at lx, where x is an integer, - a plurality of drills F1 to Fx, respectively associated with the implants at lx, and in that the average diameter of the second section (14) of at least one drill Fi is less than or equal to the average diameter of the third section (18) of a drill Fk, where i and k are integers between 1 and x.