ORTHODONTIC TREATMENT APPARATUS

Abstract

An orthodontic treatment device includes: a receiving element fastenable in the jaw of a patient for receiving at least one wire arch portion (; and a securing element for securing the orthodontic wire arch in the receiving element. The receiving element has, a first or gingival receiving pocket for receiving a first or gingival wire arch portion and a second or occlusal receiving pocket for receiving a second or occlusal wire arch portion which together form a C-shaped receiving opening for the securing element an inserted state, the securing element The wire arch can be held in the gingival receiving pocket and placed on the bent inner surface of the gingival receiving pocket. The securing element has a first or gingival contact surface (adapted to a first or gingival wire arch portion for securing the wire arch in the gingival receiving pocket.

Claims

1-21. (canceled)

22. An orthodontic treatment device comprising a receiving element fastenable in a jaw of a patient for receiving at least one wire arch portion of at least one orthodontic wire arch and a securing element for securing the at least one orthodontic wire arch in the receiving element, wherein the receiving element comprises a base plate, a first or gingival receiving pocket for receiving a first or gingival wire arch portion and a second or occlusal receiving pocket for receiving a second or occlusal wire arch portion which together form a C-shaped receiving opening for the securing element, the securing element, in an inserted state, being held in the C-shaped receiving opening, the first or gingival receiving pocket having an inner surface which is bent with a constant radius and, when the securing element is in the inserted state, the at least one wire arch being holdable at least in the gingival receiving pocket and being able to be placed on the bent inner surface of the first or gingival receiving pocket, and the securing element having a first or gingival contact surface, adapted to a first or gingival wire arch portion, for securing the at least one wire arch in the first or gingival receiving pocket.

23. The orthodontic treatment device according to claim 22, wherein the second or occlusal receiving pocket has an inner surface which is bent with a constant radius.

24. The orthodontic treatment device according to claim 22, wherein the securing element has a second or occlusal contact surface adapted to a second or occlusal wire arch portion for securing the at least one wire arch in the second or occlusal receiving pocket.

25. The orthodontic treatment device according to claim 22, wherein the first or gingival receiving pocket (22) is larger than the second or occlusal receiving pocket (23).

26. The orthodontic treatment device according to claim 22, wherein an end region of the side wall of the first or gingival receiving pocket is inclined inwardly towards the base plate and/or an end region of the side wall of the second or occlusal receiving pocket is inclined outwardly away from the base plate.

27. The orthodontic treatment device according to claim 22, wherein an end region of the second or occlusal receiving pockets is linear in cross-section, and the line of alignment of the end region leads approximately through an apex region of the first or gingival receiving pocket.

28. The orthodontic treatment device according to claim 22, wherein the securing element comprises a first or gingival hinge portion which is receivable in hinged fashion in the first or gingival receiving pocket so that the securing element is movable back and forth between a pivoted-out state and a pivoted-in state, the first or gingival contact surface adapted to a first or gingival wire arch portion being formed as a recess in the hinge portion, the recess being arranged in such a way that the wire arch can be inserted with the wire arch portion into the recess when the securing element is in the pivoted-out state, and that the wire arch portion is held between the first or gingival contact surface of the securing element and the inner surface of the first or gingival receiving pocket when the securing element is in the pivoted-in state.

29. The orthodontic treatment device according to claim 28, wherein the recess is arranged eccentrically to a pivot axis of the securing element.

30. The orthodontic treatment device according to claim 22, wherein the securing element has an occlusal shoulder with which the securing element engages in the occlusal receiving pocket of the receiving element when in the inserted state.

31. The orthodontic treatment device according to claim 22, wherein the receiving element is a bracket which can be fastened to a tooth of the patient, and in that the securing element is a torque element for setting a torque from the orthodontic wire arch to the bracket or the tooth, the base plate, the gingival receiving pocket and the occlusal receiving pocket together forming the receiving opening for the torque element, the torque element, in the inserted state, being received in the receiving opening in a manner secure against rotation, and the gingival contact surface being a torque transmission surface for exerting a torque from the wire arch to the bracket, the torque transmission surface being designed and arranged in such a way that the wire arch, which in the inserted state rests on the torque transmission surface, rests with one edge, preferably two adjacent edges, on the bent inner surface of the gingival receiving pocket or with only one side surface on the base plate in a manner secure against rotation.

32. The orthodontic treatment device according to claim 31, wherein the torque element has a gingival shoulder and an occlusal shoulder with which the torque element engages, in the inserted state, in the gingival receiving pocket or in the occlusal receiving pocket of the receiving element, respectively.

33. The orthodontic treatment device according to claim 31, wherein the torque transmission surface is designed in the form of a torque transmission plane or torque transmission groove.

34. The orthodontic treatment device according to claim 31, wherein the torque transmission surface is formed on the gingival side of the torque element.

35. The orthodontic treatment device according to claim 31, wherein the torque transmission groove is arranged in the side facing the base plate and, in the inserted state of the torque element, runs parallel to the base plate and is inclined by minus (−) 10 to plus (+) 10 degrees with respect to a longitudinal direction of the torque element or of the bracket.

36. The orthodontic treatment device according to claim 31, wherein the torque element on the occlusal side is designed in such a way that, when the torque element is inserted, a guide for receiving a round wire is formed in the occlusal receiving pocket.

37. The orthodontic treatment device according to claim 22, wherein a side wall forming the first or gingival receiving pocket or a side wall of the receiving element forming the second or occlusal receiving pocket has an extension on both sides, which extends as far as the opposite side wall of the opposite receiving pocket and is fastened there.

38. The orthodontic treatment device according to claim 22, wherein the securing element is made of plastic, metal or ceramic, preferably zirconium dioxide.

39. The orthodontic treatment device according to claim 22, wherein a side wall of the receiving element forming the first or gingival receiving pocket and/or a side wall of the receiving element forming the second or occlusal receiving pocket comprises an indentation for a gingival and/or occlusal detent lug of the securing element, the indentation preferably being arranged centrally in the longitudinal direction of the receiving element.

40. A treatment apparatus comprising a plurality of the treatment devices according to claim 22 and at least one wire arch.

41. A method for producing the torque element of the treatment device according to claim 31 for individual adjustment of a torque transmission from an orthodontic wire arch to an orthodontic bracket; the method comprising: a. providing a blank of the torque element, which has a gingival region which, when the blank is in the inserted state, substantially completely fills the gingival receiving pocket of the bracket; b. determining the desired orientation of the torque transmission surface on the basis of an actual and a desired tooth position; c. machining the blank in order to obtain the torque element with the desired orientation and shape of the torque transmission surface by a separating manufacturing process.

42. A manufacturing device for producing the torque element by the method according to claim 41, comprising a computer program product for calculating the desired orientation of the torque transmission surface on the basis of a digitized three-dimensional model of the dentition of a patient and a manufacturing plant for producing the torque element with the desired torque transmission surface from a blank of a torque element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0046] The invention will be explained in further detail below by means of embodiments in conjunction with the drawing(s), in which:

[0047] FIG. 1 shows a perspective view of a receiving element with a C-shaped receiving opening for a securing element;

[0048] FIG. 2 shows a perspective view of a torque element for the receiving opening in a bracket according to FIG. 1;

[0049] FIG. 3 shows a perspective view of a torque element in the assembled state;

[0050] FIG. 4 shows a side view of the bracket with torque element according to FIG. 3;

[0051] FIGS. 5A and 5B show side views of variants of a torque element with different torque values;

[0052] FIG. 6 shows a perspective view of a torque element for adjusting the angulation;

[0053] FIG. 7 shows a plan view of the base side of the torque element according to FIG. 6;

[0054] FIGS. 8A-8C show a torque element with torque transmission plane in a perspective view from the front (FIG. 8A), in a perspective view of the base plate (FIG. 8B), and in a front view (FIG. 8C);

[0055] FIG. 9 shows a side view of the torque element from FIGS. 8A-8C in the inserted state;

[0056] FIG. 10A-10J show a side view of a torque element with torque transmission plane with different torque values;

[0057] FIG. 11 shows a perspective view of a treatment apparatus on a tooth,

[0058] FIGS. 12A-12C show a perspective view (FIG. 12A) and a side view of another variant of the torque transmission element (FIG. 12B) and in the inserted state (FIG. 12C);

[0059] FIGS. 13A and 13B show a receiving pocket element with swivelling securing element in the swivelled out state in a side view (FIG. 13A) and in a perspective view (FIG. 13B);

[0060] FIGS. 14A and 14B show the receiving element with pivotable securing element from FIGS. 13A and 13B in the pivoted-in state in a side view (FIG. 14A) and in a perspective view (FIG. 14B);

[0061] FIG. 15 shows a receiving element and a securing element for forming a lingual lock;

[0062] FIG. 16A-16D show variants of a temporary bone implant with receiving element; and

[0063] FIG. 17 shows a band with receiving element.

EMBODIMENTS OF THE INVENTION

[0064] FIG. 1 shows a perspective view of a bracket-like receiving element 2 with a cross-sectionally C-shaped receiving opening 21 (also known as a slot) for receiving a securing element. The receiving element 2 comprises a base plate 20 with a substantially flat frontal base surface 200. The term ‘frontal’ means the side facing away from the patient's tooth or palate and accessible for the insertion of a wire arch. In the case of the bracket, the base plate also serves to fasten the bracket to a tooth of a patient to be treated. As a rule, the base plate 20 has a substantially flat fastening surface 201 on the rear side. However, the fastening surface 201 can also be adapted to a tooth shape. The receiving element 2 further comprises a gingival receiving pocket 22 and an occlusal receiving pocket 23, the openings of which face each other and which, together with the base plate 20 or the base surface 200, form a receiving opening 21 for a securing element. This receiving opening 21 is formed on the front side, i.e. on the side of the receiving element 2 that is opposite the fastening surface 201. In the embodiment shown, the gingival receiving pocket 22 and the occlusal receiving pocket 23 are formed by bent side walls 221, 231 adjoining the base plate 20 and each have an inner surface 22a, 23a bent with a constant radius.

[0065] The receiving opening 21 is open on both sides in the longitudinal direction of the receiving element 2. The longitudinal direction of the receiving element 2 is the direction which substantially corresponds to the longitudinal direction of an inserted wire arch (without angulation). The side walls 221, 231 can have indentations 222, 232 at their free ends or end regions, in which detent lugs of a securing element can latch or engage. In the embodiment shown, the gingival receiving pocket 22 and the occlusal receiving pocket 23 have a cross-section that is substantially circular sector-shaped.

[0066] FIG. 2 shows a perspective view of a blank 4′ of a locking element in the form of a torque element 4. This blank 4′ is the output element, which can be provided with a torque transmission surface 44, 44a, 44b, for example directly by the treating dentist, in order to obtain a ready-to-use torque element 4. Examples of such torque elements 4 are shown in FIGS. 3 to 10.

[0067] The blank 4′ or the torque element 4 has a gingival shoulder 42 and an occlusal shoulder 43, with which the torque element 4 engages, respectively, in the gingival receiving pocket 22 or in the occlusal receiving pocket 23 when in the inserted state. To secure the torque element 4 against slipping out, it may have a detent lug 41 gingivally and/or occlusally. FIG. 2 shows a gingival detent lug 41, which can engage in the corresponding indentation 222 in the bracket 2. Furthermore, the torque element 4 can have an operating opening 40 on the side facing away from the receiving element 2 or bracket. The torque element 4 can thus be pushed laterally into the receiving opening 21 of the receiving element 2 using a suitable tool which engages in the operating opening 40.

[0068] The gingival side 421 of the blank 4′ is substantially complementary to the gingival receiving pocket 22. The occlusal side 431 of the blank 4′ can—as shown in FIG. 4—have a second or occlusal contact surface 45, which is designed in such a way that, in the inserted state between the torque element 4 and the receiving element 2, a receiving opening or guide 7 is formed for a second or occlusal wire arch in the form of a round wire 30 (see FIG. 4). If only such a round wire 30 is used, the blank 4′ does not have to be machined to form a torque transmission surface 44, 44a, 44b. Such a securing element can also be used to secure a rubber thread instead of a wire in the guide 7, for example to close gaps between teeth.

[0069] If the securing element or torque element 4 is to be used to transmit a torque from a first or gingival wire arch 3 to the receiving element or bracket 2, the torque element 4 has a prefabricated torque transmission surface 44, 44a, 44b or a torque transmission surface 44, 44a, 44b individually manufactured by the treating dentist. This torque transmission surface 44, 44a, 44b is arranged and designed on one side or in one region of the torque element 4 in such a way that it is enclosed by the receiving element or bracket 2 when the torque element 4 is in the inserted state, so that a gingival or base-side guide is formed for the first or gingival wire arch 3. The first or gingival wire arch 3 is held in a manner secured against rotation by the torque element 4 and is guided between the torque element 4 and the bracket 2. This is clearly visible in FIGS. 3 and 4.

[0070] FIG. 3 now shows a perspective view of the securing element or torque element 4 inserted in the receiving element or bracket 2 with a torque transmission surface, which in the variant shown is designed as a torque transmission groove 44b. FIG. 4 shows a side view of it with inserted first or gingival wire arch 3 and inserted second or occlusal wire arch 30 in the form of a round wire. To transmit torque, the first or gingival wire arch is a flat wire with a rectangular cross-section or a wire with two opposite parallel surfaces and bevelled or rounded edges (see FIG. 4 and FIG. 13B). The first or gingival wire arch 3 rests with one side surface against the torque transmission surface and with one or two adjacent edges 31, 31′ against the round inner surface of the first or gingival receiving pocket 22.

[0071] In the variant of the torque element 4 from FIGS. 3 and 4, the so-called torque value at (alpha) is approximately plus (+) 8 degrees. This is determined on the basis of the angle between the torque transmission surface and the perpendicular to the base-side surface 46 of the torque element 4 or the fastening surface 201 of the base plate 20 of the bracket 2, as shown in FIGS. 4, 10A and 10F.

[0072] FIG. 5A and FIG. 5B each show a side view of a torque element 4 with torque transmission groove 44b, which have different torque values. In the variant in FIG. 5A, the torque transmission groove is arranged gingival and on the base side and has a torque value of minus (−) 45 degrees. In the variant in FIG. 5B, the torque transmission groove is arranged gingivally and facing away from the base side and has a torque value of plus (+) 65 degrees. These torque values of a torque element can be selected accordingly over a very wide range from −60 to +60 degrees as required.

[0073] FIG. 6 shows a perspective view of a torque element 4 for setting or correcting the angulation of a tooth. FIG. 7 shows a plan view of the base side of the torque element according to FIG. 6. This variant of the torque element 4 has a torque transmission groove 44b on the base side 46 or on the side of the torque element 4 that faces the base plate 20 in the inserted state. In the embodiment shown, the torque transmission groove 44b defines an angulation value R of approximately 5 degrees (see FIG. 7). This is determined by the angle between the longitudinal direction L2 of the torque transmission groove 44b and the longitudinal direction L1 of the torque element 4 or the bracket 2.

[0074] FIGS. 8, 9 and 10 show torque elements 4 of which the torque transmission surface 44 is designed as torque transmission plane 44a. The torque transmission plane 44a is formed in each case on the gingival side 421 of the torque element 4 with the desired torque value α (alpha). The torque element 4 can have a bevel 47 on both sides of the torque transmission plane 44a, as seen in the longitudinal direction, so that the torque element 4 can be inserted more easily into the receiving opening 21 of a receiving element or bracket 2. For the torque element 4 in FIGS. 8 and 9, the torque value α (alpha) is +21 degrees. For the torque elements 4 in FIGS. 10A to 10J, the torque value α (alpha) is, respectively, +14, +7, 0, −7, −14, −21, −28, −35, −42, and −49 or approximately −56 degrees. FIG. 9 also shows the first or gingival wire arch 3 in the form of a flat wire, which rests with one side surface on the first or gingival contact surface or torque transmission plane 44a and with two adjacent edges 31, 31′ of the flat wire on the first or gingival inner surface 22a of the first or gingival receiving pocket 22. The inner surface 22a, which is bent with a constant radius, allows a continuous adjustment of the torque value according to the angle of the torque transmission surface 44a, more specifically without having to replace or change the receiving element 2.

[0075] FIG. 11 shows a perspective view of a treatment apparatus comprising a bracket 2, a torque element 4 according to FIG. 3 or 4, a wire arch or flat wire 3 and a round wire 30. The bracket 2 is fastened with the fastening surface on a tooth 6. The torque element 4 has a torque transmission groove 44b and is inserted in the bracket 2. The first or gingival wire 3 is held in the torque transmission groove 44b between torque element 4 and bracket 2 in a manner secured against rotation. The second or occlusal round wire 30 is arranged in an occlusal guide 7 between torque element 4 and bracket 2. Such a securing element can also be used to secure a rubber thread instead of a wire in the occlusal guide 7, for example to close gaps between teeth.

[0076] FIGS. 12A, 12B and 12C show a further variant of the torque element 4, which, in contrast to the variants described above, has an operating handle 40′ instead of the operating opening 40 for pushing the torque element into and out of the receiving opening 21 of the receiving element 2.

[0077] FIGS. 13A and 13B show a receiving element 2 with a pivotable securing element 5 in the pivoted-out state. FIGS. 14A and 14B show the pivotable securing element from FIG. 13 in the pivoted-in position. The pivotable securing element has a first or gingival hinge portion 50. The hinge portion 50 is designed in such a way that it can be received in hinged fashion in the first or gingival receiving pocket 22 and can thus be moved back and forth between a pivoted-out state (FIGS. 13A and 13B) and a pivoted-in state (FIGS. 14A and 14B). In the pivoted-in state, the securing element 5 is received, preferably in a latched manner, in the C-shaped receiving opening 21 of the receiving element 2, which has the form already described above.

[0078] In other words, a receiving element 2 fastened to a tooth 8 does not have to be changed in order to assign different functions to the orthodontic treatment device with regard to the direction of the tooth correction. This is done via the securing element. The pivotable securing element 5 is used to hold a first or gingival wire arch 3 in the form of a round wire in the gingival receiving pocket 22.

[0079] For this purpose, the pivotable securing element 5 has a first or gingival contact surface 54 which is matched to a first or gingival wire arch portion 3a of the wire arch 3. This contact surface is designed as a recess 59 in the hinge portions 50 and is arranged in such a way that when the securing element 5 is pivoted out, the wire arch 3 can be inserted with the wire arch portion 3a into the recess 59 between the securing element and the receiving element. In the pivoted-in state of the securing element 5 (see FIGS. 14A and 14B), the wire arch portion 3a is held between the first or gingival contact surface 54 of the securing element 5 and the inner surface 22a of the first or gingival receiving pocket 22.

[0080] As shown in the embodiment shown, the recess 50 can be arranged eccentrically to the pivot axis A of the securing element 5.

[0081] As shown in FIGS. 13A and 13B and 14A and 14B, the securing element 5 can also have a shoulder 53 in the form of a bead on the side 431 opposite the hinge portion 50, so that the securing element 5 engages in the second or occlusal receiving pocket 23 or under its end region of the side wall 231 in the pivoted-in state. In addition, the securing element 5 can be provided with one or two frontal detent lugs 51, which engage in corresponding indentations 222, 232 of the receiving element 2 (see for example FIG. 1) and prevent lateral displacement of the securing element 5 in the longitudinal direction both in the pivoted-in and pivoted-out state.

[0082] The securing element 5 shown in FIGS. 13A and 13B and 14A and 14B has lateral recesses 501 in the region of the hinge portion, into which the end region of the first or gingival side wall 221 is inserted in the pivoted-out state. Accordingly, the detent lug 51 and the indentation 222 of the gingival side wall 221 are designed in such a way that a pivoting out by approximately 45 degrees is possible. A lateral displacement of the securing element 5 is prevented and the first or gingival wire arch 3 can be inserted into the first or gingival receiving pocket 22 without any difficulty. In order to secure the wire arch 30, only the securing element 5 is then pivoted in.

[0083] As shown in FIGS. 13A and 13B and FIGS. 14A and 14B, the securing element can optionally have a second or occlusal contact surface 55 for securing a second or occlusal wire arch 30 in the second or occlusal receiving pocket 23 of the receiving element 2, so that when the securing element 5 is pivoted in, a second or occlusal guide 7 is formed for the second or occlusal wire arch 30, similarly to the torque transmission element described above. Such a securing element can also be used to secure a rubber thread instead of a wire in the occlusal guide 7, for example to close gaps between teeth.

[0084] FIGS. 15A to 15E shows an orthodontic treatment device with a variant of the receiving element 2 and a variant of the securing element 6 for forming a lingual lock for a lingual arch. FIGS. 15A to 15E show the treatment device in various views and states: in (a) in an exploded perspective view, in (b) in a side view with the lingual arch 3′ inserted, viewed against the direction of insertion; in (c) in a side view with the lingual arch 3′ inserted, viewed in the direction of insertion; in (d) a perspective view with the lingual arch 3′ inserted; and in (e) a perspective view with the securing element 6 inserted.

[0085] The receiving element 2′ differs from the receiving element 2 from FIG. 1 in that the end region of the second or occlusal side wall 231 of the second or occlusal receiving pocket 23 has extensions 24 on both sides in the form of a tab, which extend as far as the end region of the first or gingival side wall 221 of the first or gingival receiving pocket 22 and are preferably fastened there. The C-shaped receiving opening into which the securing element 6 can be inserted to secure the lingual arch 3′ is still formed in the centre.

[0086] The lingual arch 3′ has a bent end with a first or gingival wire arch portion 3a and a second or occlusal wire arch portion 3b, which are parallel to each other. The second or occlusal wire arch portion 3b is preferably located closer to the end of the lingual arch.

[0087] The lingual arch 3′ can be inserted with these two wire arch portions 3a, 3b laterally into the receiving opening 21 of the receiving element 2′. Preferably, the first or gingival receiving pocket 22 is larger than the second or occlusal receiving pocket 23, so that a relatively thick lingual arch 3′ can also be used, which is then only slightly ground in the bend and on the second or occlusal wire arch portion 3b, so that it can be inserted into the two receiving pockets 22, 23 with an interlocking fit on the whole (see FIG. 15A).

[0088] The two wire arch portions 3a, 3b are spaced apart from each other in such a way that the securing element 6 can be inserted between the two wire arch portions 3a, 3b into the receiving opening 21 of the receiving element 2′, so that it clamps the two wire arch portions 3a, 3b and secures them against sliding out laterally. The securing element 6 for this purpose has a first or gingival contact surface 64 and a second or occlusal contact surface 65.

[0089] In order to insert the securing element 6 into a receiving element 2 shown in FIG. 1, it can have a detent lug similar to the securing elements described above, which engages in an indentation in the locating element.

[0090] The receiving element 2, 2′ with the C-shaped receiving opening 21 can also be designed as a temporary bone implant 9, for example with a screw thread, as shown in FIGS. 16A to 16D. Here, too, there is the possibility of using the receiving element 2, 2′ in its simplest form (FIG. 16A) or with extensions 24 on both sides (FIG. 16D). The advantages compared to conventional orthodontic implants are the low overall height, the general usability for many different purposes, and the problem-free and simple assembly and disassembly of wires or apparatuses with the securing elements 4, 5, 6 described above. The temporary bone implant 9 can be designed in one piece (FIG. 16A) or in a number of pieces (FIG. 16A, 16B, 16D) together with the receiving element.

[0091] FIG. 17 shows a band 10 with a receiving element 2 fastened to it and an inserted pivotable securing element 5.

LIST OF REFERENCE SIGNS

[0092] 1 treatment apparatus [0093] 2 receiving element, bracket [0094] 2′ receiving element, lingual lock [0095] 20 base plate [0096] 200 frontal base surface [0097] 201 rear-side fastening surface [0098] 21 receiving opening [0099] 22 first or gingival receiving pocket [0100] 22a first or gingival inner surface [0101] 221 side wall, end region [0102] 222 indentation [0103] 23 second or occlusal receiving pocket [0104] 23a second or occlusal inner surface [0105] 231 side wall, end region [0106] 232 indentation [0107] 24 extension [0108] 3 first or gingival wire arch, round wire, flat wire [0109] 3′ lingual arch [0110] 3a first or gingival wire arch portion [0111] 3b second or occlusal wire arch portion [0112] 30 second or occlusal wire arch, round wire [0113] 30a second or occlusal wire arch portion [0114] 31, 31′ edge [0115] 4 securing element, torque element [0116] 4′ blank of a torque element [0117] 40 operating opening [0118] 40′ operating handle [0119] 41 detent lug [0120] 42 gingival shoulder [0121] 421 gingival side [0122] 43 occlusal shoulder [0123] 431 occlusal side [0124] 44 first or gingival contact surface, torque transmission surface [0125] 44a torque transmission plane [0126] 44b torque transmission groove [0127] 45 second or occlusal contact surface [0128] 46 base side, base-side surface [0129] 47 bevel [0130] 5 securing element (pivotable) [0131] 50 hinge portion [0132] 501 lateral recess [0133] 51 detent lug [0134] 53 occlusal shoulder [0135] 54 first or gingival contact surface [0136] 55 second or occlusal contact surface [0137] 59 recess [0138] 6 securing element for lingual lock [0139] 64 first or gingival contact surface [0140] 65 second or occlusal contact surface [0141] 7 occlusal guide for round wire [0142] 8 tooth [0143] 9 temporary bone implant [0144] 10 band [0145] A pivot axis [0146] L1 longitudinal direction of the torque element [0147] L2 longitudinal direction of the torque transmission groove [0148] α (alpha) torque value [0149] β (beta) angulation value