• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Dental component (1) for the unitary prosthetic restoration of a tooth, intended to be received on a dental implant, comprising: - a first element (3) with a through-passage (4) angulated, - a second element (7) intended to be received against or in a dental implant (2). Assembly means (9, 13a-13c) between the first (3) and second (7) elements effectively limit the removal of material to be operated in the first element (3) to achieve the angulated through passage (4). .
    公开号:FR3047407A1
    申请号:FR1650935
    申请日:2016-02-05
    公开日:2017-08-11
    发明作者:Herve Richard
    申请人:Anthogyr SA;
    IPC主号:
    专利说明:

    The present invention relates to the dental field, and more particularly relates to a dental component for the unitary prosthetic restoration of a tooth, said dental component being intended to be received on a dental implant.
    As part of the unitary prosthetic restoration of a tooth, it is often used a transfixed prosthesis, that is to say provided with a through passage for fixing the prosthesis by a fixing screw (through the prosthesis ) a dental implant that is osteointegrated in the patient's jaw.
    Various types of transfixed prostheses are known: those comprising a core (in particular metal) on which a crown is fitted by fitting; the crown is installed at the last minute by the dental surgeon in the patient's mouth, and then closes the passage through; in this case, the dental prosthesis core is sometimes also called "dental abutment"; - Those comprising a core (especially metal) on which is performed a stratification by the prosthetist leaving open the through passage (application of a material in one or more layers to give a closer appearance of a natural tooth); those comprising a ceramic core (machined from a ceramic block or produced by sintering a ceramic powder in particular) optionally coated by the prosthetist with one or more very light texturing or coloring layers providing an appearance on the closer to a natural tooth.
    Depending on the position of the dental implant fixed in the jaw of the patient, it is often necessary to carefully adjust the location of coronal emergence of the well allowing the passage of the fixing screw. It is indeed to be able, despite the limited space available in the patient's mouth, to access the fixing screw with a screwdriver. It is also important that the coronary emergence of the access well be disposed away from the active parts of the tooth during chewing (cusps).
    This is known for dental prostheses (see in particular the documents EP 2 053 985, WO 2013/004387 and US 2014/0178836) core provided with an angulated through passage comprising a first section of passage extending from a proximal end of the first element along a first longitudinal axis, and comprising a second secant passage section with the first passage section, the first and second passage sections forming a non-zero angle between them. By "proximal" is meant to describe a part of an element intended to be closer to the patient during its use than another part which will be described as "distal".
    In these documents, the angulated through passage allows an insertion and a path of the fastening screw along a curved path by a path starting in the second section of passage and continuing into the first section of passage at the end of which is provided a seat against which comes bearing the screw head. This curved trajectory of the screw requires a considerable removal of material in the core of the prosthesis, which weakens its mechanical strength.
    A problem proposed by the present invention is to provide another solution for fixing on a dental implant a dental element such as a dental prosthesis core, allowing the use of an angulated through passage to take into account the orientation constraints of the osseointegrated dental implant for accessibility and preservation of the active parts of the tooth (in the case of a dental element of the dental prosthesis type) without, however, unnecessarily weakening the mechanical strength of said dental element.
    To achieve these objects as well as others, the invention provides a dental component for the unitary prosthetic restoration of a tooth, intended to be received on a dental implant, comprising: a first element with a first through passage comprising a first section passageway extending from a proximal end of the first member along a first longitudinal axis, and comprising a secant second passage section with the first passage section, the first and second passage sections forming a non-zero angle therebetween, second element with a second through passage extending along a second longitudinal axis, having a distal end for receiving the first element in abutment, and having a proximal end intended to bear against or penetrating into said dental implant, - a fixing screw having a screw head from which extends a screw shaft with a screw threaded nut for screwing into said dental implant; according to the invention: - several longitudinal fins extend along the second longitudinal axis from and away from the distal end of the second element, each longitudinal fin having a free distal portion radially movable away from the second longitudinal axis - The screw rod is able to pass through the second element being received between the longitudinal fins and in the second through passage to be screwed into the dental implant, while the screw head is then resting in axial support against the parts. free distal longitudinal fins to retain the second element on the dental implant, - the first passage section of the first element comprises transverse dimensions for receiving longitudinal fins and the screw head by axial penetration along the first longitudinal axis from the proximal end of the first element, - the screw head e the free distal portions of the longitudinal fins are shaped so that, when the first element receives the longitudinal fins and the screw head, a relative displacement in translation of the fixing screw towards the second element along the second longitudinal axis causes a displacement radial of the free distal portions of the longitudinal fins away from the second longitudinal axis to press against the side wall of the first passage section to oppose a withdrawal of the first element away from the second element - the second passage section of the first element has transverse dimensions smaller than those of the first section of passage, but sufficient for the passage of a tool for rotating the fixing screw along the second longitudinal axis.
    Such a dental component makes it possible to fix on a dental implant satisfactorily the first element comprising an angulated passage, which first element can in particular be a dental prosthesis core intended to receive a crown by fitting ("pillar" dental), a core of dental prosthesis intended to be laminated or a one-piece ceramic core (sintered or machined) of dental prosthesis, while taking due account of the orientation constraints of the osseointegrated dental implant, accessibility in the mouth, and preservation of the active parts of the tooth. When the screw is tensioned by screwing in the dental implant, the screw head is attracted to the second element along the second longitudinal axis and causes a radial displacement of the free distal portions of the longitudinal fins away from the second longitudinal axis . This has the effect of pressing the free distal portions of the longitudinal fins against the side wall of the first passage section, and therefore to oppose withdrawal of the first element away from the second element. The removal of material to be performed in the first element to achieve the angulated passage is less. Indeed, the screw is only received in the first section of passage and no longer transits through the second section of passage. Only the tool for rotating the fastening screw passes through the second section of passage, and the traversing portion of the tool is devoid of head. The first and second sections of passage can thus have relatively simple shapes (substantially cylindrical). In addition, if the cross section of the first section of passage must necessarily have dimensions allowing the insertion of the screw head, the second section of passage may in turn have transverse dimensions smaller than those of the first section of passage, but sufficient for the passage of a tool for driving in rotation the screw along the second longitudinal axis. To rotate the screw, it can for example use the use of a tool allowing angulation with the screw head during screwing or unscrewing, as described for example in EP 2 607 722.
    Preferably, the screw head may comprise a substantially frustoconical contact surface intended to come into contact with the free distal parts of the longitudinal fins and / or the free distal parts of the longitudinal fins comprise respective contact surfaces designed to receive the screw head and forming a substantially frustoconical surface.
    In this way, a radial displacement of the free distal portions of the longitudinal fins away from the second longitudinal axis is obtained in a simple and effective manner when the screw is displaced relatively in translation towards the second element along the second longitudinal axis.
    Advantageously, the dental component may comprise means for indexing in rotation of the first and second elements around the first longitudinal axis. This limits the risk of movement between the first and second elements, such movements may lead to premature failure of one or the other element (in particular by wear).
    Preferably, the second element may comprise a proximal appendix of non-circular cross section intended to be received in a non-circular cross sectional housing of the dental implant. This limits the risk of movement between the second element and the dental implant, such movements may lead to premature failure of one or the other element (in particular by wear). And a fixed and determined orientation of the dental component with respect to the dental implant is guaranteed.
    Advantageously, the first element may comprise a groove intended to receive the free distal parts of the longitudinal fins during their radial displacement away from the second longitudinal axis. The radial engagement of the free distal portions of the longitudinal fins in the groove provides improved retention of the first member to the second member.
    Preferably, the groove and / or the free distal portions of the longitudinal fins may comprise respective contact surfaces shaped so that the radial pressing of the free distal parts of the longitudinal fins against the groove induces, according to the first longitudinal axis, a pressing of the proximal end of the first element against the distal end of the second element.
    Squeezing the proximal end of the first member against the distal end of the second member effectively limits the risk of bacteria entering and growing at the interface between the first and second members.
    Advantageously, provision can be made for: the free distal portions of the longitudinal fins are movable between a retracted position, in which they are radially distant from the second longitudinal axis at a first distance, and a spacing position, in which they are radially remote from the second longitudinal axis by a second distance greater than the first distance, - the free distal portions of the longitudinal wings are resiliently biased in spaced position, - the groove and the longitudinal fins are dimensioned and shaped so that the distal free parts longitudinal fins are received by snapping into the groove when the first passage section receives the longitudinal fins and the screw head by axial penetration along the first longitudinal axis. The latching of the longitudinal fins in the groove makes it possible to secure in a precarious (because reversible) way, but sufficient, the first and second elements enclosing between them the fixing screw. The prosthetist can thus send to the dentist a unitary subassembly comprising the first and second elements and the fastening screw assembled. The dental surgeon can then introduce the unitary subassembly in a single gesture into the patient's mouth and engage it on the osseointegrated dental implant. This reduces the number of elements to handle, the risk of losing components (including the screw) and the risk of mishandling.
    According to another aspect, the present invention provides a dental assembly comprising: - a dental component as described above, - a dental implant having an internal housing threaded portion for receiving by screwing the fixing screw.
    According to yet another aspect, the present invention provides a method of assembling ex-vivo a dental component as described above snap free distal portions of the longitudinal fins in a groove, said method comprising the following steps: ) insert the screw rod between the longitudinal fins and in the second through-passage, b) insert in the first passage section the longitudinal fins and the screw head by an axial translation movement along the first longitudinal axis from the proximal end of the first element, until a snap of the free distal parts of the longitudinal fins in the groove. Other objects, features and advantages of the present invention will become apparent from the following description of particular embodiments, with reference to the accompanying drawings, in which: FIG. 1 is a side view of a dental component according to a first embodiment, with a first element of the dental prosthesis core type intended to receive a crown ("pillar" dental); - Figure 2 is a side view and in section of the dental component of Figure 1; FIG. 3 is a perspective view from below of the first element of the dental component of FIG. 1; FIG. 4 is a perspective and bottom view of the second element of the dental component of FIG. 1; FIG. 5 is a side view of the dental component of FIG. 1 during assembly; - Figure 6 is a partial sectional side view of the dental component of Figure 1 during assembly, at a step subsequent to that illustrated in Figure 5; FIG. 7 is a sectional and side view of the dental component of FIG. 1 during assembly, at a stage subsequent to that illustrated in FIG. 6; Figure 8 is a cross-sectional and side view of the dental component of Figure 1 being assembled on a dental implant to form a dental assembly; - Figure 9 is a sectional view and side of the dental component of Figure 1 assembled on a dental implant to form a dental assembly, with a ring engaged on the first element; FIG. 10 is a sectional view similar to that of FIG. 9, in which the first element is of the laminated dental prosthesis core type; and FIG. 11 is a sectional view similar to that of FIG. 9, in which the first element is of the ceramic monoblock dental prosthesis core type (sintered or machined).
    In Figures 1 to 11 are illustrated three embodiments of a dental component 1 according to the invention. A first embodiment is illustrated in Figures 1 to 9, a second embodiment is illustrated in Figure 10, and a third embodiment is illustrated in Figure 11.
    1 and 2 that the dental component 1 for the unitary prosthetic restoration of a tooth, intended to be received on a dental implant 2 (FIG. 8), comprises: a first element 3 with a first through passage 4, the first through-passage 4 comprising a first passage section 5 extending from a proximal end 3a of the first element 3 along a first longitudinal axis II, and the first through-passage 4 comprising a second passage section 6 intersecting with the first passage section 5, the first and second passage sections 5 and 6 forming a non-zero angle A between them, - a second element 7 with a second through-passage 8 extending along a second longitudinal axis II-II, comprising a distal end 7b intended to support the first element 3, and having a proximal end 7a intended to bear against or penetrate into said implant den 2, - a fixing screw 9 comprising a screw head 10 from which extends a screw rod 11 provided with a threaded portion 12 intended to be screwed into said dental implant 2 (Figure 8).
    Three longitudinal fins 13a, 13b and 13c extend along the second longitudinal axis II-II from and away from the distal end 7b of the second element 7, each longitudinal fin 13a, 13b or 13c having a free distal portion 130a at 130c radially movable away from the second longitudinal axis II-II. The screw rod 11 is able to pass through the second element 7 by being received between the longitudinal fins 13a to 13c and in the second through passage 8 to be screwed into the dental implant 2, while the screw head 10 then comes to rest. in axial support against the free distal parts 130a to 130c of the longitudinal fins 13a to 13c to retain the second element 7 on the dental implant 2 (Figure 9). The first passage section 5 of the first element 3 comprises transverse dimensions allowing the longitudinal fins 13a to 13c and the screw head 10 to be received by axial penetration along the first longitudinal axis II from the proximal end 3a of the first element 3. In this case, the first passage section 5 comprises, in the vicinity of the proximal end 3a, a minimum diameter D50 less than the diameter D130 of the free distal ends 130a to 130c. The reception of the longitudinal fins 13a to 13c is therefore done by means of a slight radial displacement of the free distal portions 130a to 130c towards the second longitudinal axis II-II, as illustrated in FIG.
    The screw head 10 and the free distal portions 130a to 130c of the longitudinal fins 13a to 13c are shaped so that, when the first element 3 receives the longitudinal fins 13a to 13c and the screw head 10, a relative displacement in translation of the fixing screw 9 towards the second element 7 along the second longitudinal axis II-II causes a radial displacement of the free distal parts 130a to 130c of the longitudinal fins 13a to 13c away from the second longitudinal axis II-II to press them against the side wall 5a of the first passage section 5 in order to oppose a withdrawal of the first element 3 away from the second element 7.
    The second passage section 6 has transverse dimensions (in this case a diameter D6) smaller than those (diameter D5) of the first passage section 5, but sufficient for the passage of a tool for rotating the screw fastening 9 along the second longitudinal axis II-II.
    More precisely, without this constituting a limitation of the protection, the screw head 10 comprises a hollow screw-in recess 10a with a non-circular, in this case polygonal, hexagonal cross-section.
    To drive the fixing screw 9 in rotation along the second longitudinal axis II-II by means of a tool engaged with the angle A in the second passage section 6, it is possible to use a hexagon key allowing a patella effect such a key being well known to those skilled in the art. The impression 10a may also be designed according to the teachings of EP 2 607 722 in order to authorize the use of a rotational drive tool enabling a patella effect.
    It will be understood that the first passage section 5 must have a minimum cross section with a diameter D5 slightly greater than the outside diameter D10 of the screw head 10. On its side, the second passage section 6 may have transverse dimensions (diameter D6 here ) less than those of the first section of passage 5, because the tool for driving in rotation of the fixing screw 9 may itself have a cross section much smaller than the diameter D10 since it must only enter the cavity 10a hollow of the screw head 10. The first element 3, in the vicinity of the second passage section 6 can thus retain more constituent material and thus have a better mechanical strength.
    More particularly, in FIG. 2, the screw head 10 has a substantially frustoconical contact surface 10b intended to come into contact with the free distal parts 130a to 130c of the longitudinal fins 13a to 13c. On their side, the free distal portions 130a to 130c of the longitudinal fins 13a to 13c comprise respective contact surfaces 131a to 131c intended to receive the screw head 10 in contact and forming a substantially frustoconical surface 14. It should be noted that the surface of contact 10b of the screw head 10 and the substantially frustoconical surface 14 formed by the respective contact surfaces 131a to 131c may, instead of having a rectilinear profile as shown in Figure 2, have a curved profile (convex or concave) when it is similarly procured a gradual decrease in cross section. One can therefore consider contact surfaces 10b and / or 14 troncosphérique (intersection of a sphere between two substantially parallel planes). All these form variants are considered covered by the term "substantially frustoconical". The shapes of the contact surfaces 10b and 14 promote the radial displacement of the free distal parts 130a to 130c away from the second longitudinal axis II-II when the fastening screw 9 undergoes a translational relative displacement towards the second element 7 when it is screwed into a dental implant 2.
    FIGS. 3 and 4 show more particularly that the first element 3 comprises, at the entrance of the first passage section 5, three radial housings 15a to 15c arranged at 120 ° from each other and intended to receive three lugs 16a to 16c corresponding provided on the second element 7 at the base of the longitudinal fins 13a to 13c (the lug 16a is not visible in Figure 4 because of the orientation of the second element 7). The radial housings 15a to 15c and corresponding lugs 16a to 16c constitute means for indexing in rotation 17 of the first and second elements 3 and 7 around the first longitudinal axis II (which coincide with the second longitudinal axis Π-ΙΙ when the first and second second elements 3 and 7 are assembled).
    FIG. 4 also shows that the second element 7 comprises a proximal appendix 18 with a non-circular cross section (substantially triangular with rounded vertices) intended to be received in a corresponding housing 19 (FIG. 8) of the dental implant 2, having a corresponding non-circular cross section. The proximal appendix 18 and the housing 19 cooperate to index in rotation about the second longitudinal axis II-II the second element 7 relative to the dental implant 2.
    It is more clearly seen in FIG. 2 that the first element 3 comprises a groove 20 intended to receive the free distal parts 130a to 130c of the longitudinal fins 13a to 13c during their radial displacement away from the second longitudinal axis Π-Π.
    The groove 20 and the screw head 10 comprise respective contact surfaces 21 and 22 shaped so that the radial pressing of the free distal parts 130a to 130c of the longitudinal fins 13a to 13c against the groove 20 induces along the first longitudinal axis II a pressing the proximal end 3a of the first element 3 against the distal end 7b of the second element 7. In this case, the contact surface 21 of the groove 20 comprises a frustoconical section 210, while the respective contact surfaces 22a at 22c, free distal portions 130a to 130c form a substantially frustoconical surface 22. Again, these so-called "substantially frustoconical" surfaces are represented with a straight profile, but this profile could also be curved (concave or convex).
    FIG. 6 shows more particularly that the free distal portions 130a to 130c of the longitudinal fins 13a to 13c are movable between a retracted position (FIG. 6) in which they are radially distant from the second longitudinal axis Π-ΙΙ according to a first distance d1, and a spacing position (Figure 7), wherein they are radially spaced from the second longitudinal axis Π-ΙΙ by a second distance d2 greater than the first distance d1. The free distal portions 130a to 130c of the longitudinal fins 13a to 13c are resiliently biased into the spaced position (FIG. 7). The groove 20 and the longitudinal fins 13a to 13c are dimensioned and shaped so that the free distal portions 130a to 130c of the longitudinal fins 13a to 13c are received by snapping into the groove 20 when the first passage section 5 receives the longitudinal fins 13a at 13b and the screw head by axial penetration along the first longitudinal axis II.
    In FIG. 8 is illustrated a dental assembly 23 comprising: a dental component 1 as described above, a dental implant 2 comprising an internal housing 24 with a threaded section 25 intended to receive the fixing screw 9 by screwing.
    In the embodiment illustrated in Figures 1 to 9, the first element 3 is a dental prosthesis core, for example made of metal, for receiving a ring 26 (Figure 9). The ring 26 comes to slip on the first element 3 (which can then be described as "dental abutment") and then obstructs the second section of passage 6.
    The second embodiment illustrated in FIG. 10 differs from the first embodiment only in that the first element 3 is a prosthesis core, made of metal or other material, intended to be laminated. In FIG. 10, it can be seen that the lamination 27 carried out by the dental technician leaves the second passage section 6 open. Once the dental component 1 has been fixed to the dental implant 2 by means of the fixing screw 9, the dental surgeon can close the orifice 28 giving access to the second passage section 6 by injecting a suitable material.
    The third embodiment illustrated in FIG. 11 differs from the first embodiment illustrated in FIG. 9 only in that the first element 3 is a one-piece ceramic ceramic dental prosthesis core. This one-piece ceramic core can be obtained by machining in a solid block of ceramic or can be obtained by sintering a powder. The monobloc ceramic core may further comprise on the outer surface a slight layer of a material such as a varnish giving it an aesthetic better suited to the dentition of the patient (for example in terms of hue if the patient has the teeth more or less yellow). Again, as in the second embodiment illustrated in Figure 10, the second section of passage is closed by the dental surgeon after the dental component 1 has been attached and fixed on the dental implant 2 by means of the screw The use of the dental component 1 according to the invention will now be explained by means of FIGS. 2 and 5 to 9.
    For the unitary prosthetic restoration of a tooth of the patient, the prosthetist has a second element 7 and a fixation screw 9 which are standard elements corresponding to a dental implant 2 osteointegrated in the jaw of the patient. The first element 3 is a piece made to measure for the patient by the prosthetist, preferably by three-dimensional machining.
    Once the first element 3 manufactured by the prosthetist, it can proceed to the ex-vivo assembly of the dental component 1, it will then send to the dentist. To do this, the dental technician inserts the screw rod 11 between the longitudinal fins 13a to 13c and in the second through passage 8 (movement illustrated by the arrow 29 in Figure 5).
    Then, the prosthetist inserts in the first passage section 5 the longitudinal fins 13a to 13c and the screw head 10 by an axial translation movement (illustrated by the arrow 30 in FIG. 6) along the first longitudinal axis II from the proximal end 3a of the first element 3. To allow this insertion, the free distal portions 130a to 130c move elastically from their spacing position (Figure 5) to a retracted position (Figure 6). The prosthetist then continues the axial translational movement (arrow 30 of Figure 6) until a latching of the free distal portions 130a to 130c of the longitudinal fins 13a to 13c in the groove 20 (Figure 7). During this insertion, the lugs 16a to 16c are received in the housings 15a to 15c to index in rotation the first and second elements 7 around the first longitudinal axis I-I.
    The assembled dental component 1 is thus obtained as illustrated in FIG. 7.
    The prosthetist then sends the assembled dental component 1 to the dental surgeon who will proceed with his installation in the patient's mouth. To do this, as illustrated in FIG. 8, the dental surgeon inserts the second element 7 (which can sometimes be described as a "base") into the internal housing 24 of the dental implant 2. During this insertion, the proximal appendix 18 cooperates with the housing 19 of the dental implant 2 to index the dental component 1 in rotation about the second longitudinal axis II-II.
    The dental surgeon then inserts in the second section of passage 6 a tool (a hexagonal wrench in this case) until its end penetrates into the cavity 10a hollow of the screw head 10, making it possible to drive in rotation the fixing screw 9. The dental surgeon then screws the fixing screw 9 into the threaded portion 25 of the dental implant 2, which has the effect of relatively relatively displacing the fixing screw 9 towards the second element 7 along the second longitudinal axis II-II. Due to the conformation of the screw head 10 and the free distal parts 130a to 130c of the longitudinal fins 13a to 13c, this translational movement of the fixing screw 9 causes a radial displacement of the free distal parts 130a to 130c to the distance from the second longitudinal axis ΙΙ-Π to press against the side wall 5a of the first passage section 5. As a result, the screwing of the fixing screw 9 press against each other the contact surfaces 21 (of the groove 20) and 22a to 22c (free distal portions 130a to 130c). The radial pressing of the free distal portions 130a to 130c against the induced groove 20, along the first longitudinal axis II and because of the orientation of the contact surfaces 21 and 22a to 22c, a pressing of the proximal end 3a of the first element 3 against the distal end 7b of the second element 7. This pressing ensures a good seal at the interface of the first and second elements 3 and 7 to prevent the development of bacteria.
    Finally, the dental surgeon fits on the first element 3 (which is a dental prosthesis core made of a metal material for example) a ring 26 to achieve the situation illustrated in Figure 9 (the ring 26 has also been manufactured by the prosthetist but was sent to the unassembled dentist with the dental component 1). The use of the dental components illustrated in FIGS. 10 and 11 is in all respects similar to the previously described use of the dental component 1 of FIGS. 1 to 9. The only difference is that after installation of the dental component 1 in the implant 2, the dental surgeon must proceed to plug the second section of passage 6 by means of a suitable material.
    The present invention is not limited to the embodiments which have been explicitly described, but it includes the various variants and generalizations thereof within the scope of the claims below.
    权利要求:
    Claims (13)
    [1" id="c-fr-0001]
    1 - Dental component (1) for the unitary prosthetic restoration of a tooth, intended to be received on a dental implant (2), comprising: - a first element (3) with a first through passage (4) comprising a first section of passage (5) extending from a proximal end (3a) of the first element (3) along a first longitudinal axis (II), and comprising a second passage section (6) intersecting with the first passage section (5), the first (5) and second (6) passage sections forming a non-zero angle (A) between them, - a second element (7) with a second through-passage (8) extending along a second longitudinal axis (II-II ), having a distal end (7b) intended to bear the first element (3), and having a proximal end (7a) intended to bear against or penetrating into said dental implant (2), - a fixing screw ( 9) having a screw head (10) from which extends a screw rod (11) provided with a threaded portion (12) intended to be screwed into said dental implant (2), characterized in that: - a plurality of longitudinal fins (13a-13c) extend according to the second longitudinal axis (II-II) from and away from the distal end (7b) of the second element (7), each longitudinal fin (13a-13c) having a free distal portion (130a-130c) radially displaceable to the distance from the second longitudinal axis (II-Π), - the screw rod (11) is able to pass through the second element (7) while being received between the longitudinal fins (13a-13c) and in the second through-passage (8). ) for screwing into the dental implant (2), while the screw head (10) then rest in axial support against the free distal portions (130a-130c) of the longitudinal fins (13a-13c) to retain the second element (7) on the dental implant (2), - the first section (5) of the first tooth element (3) has transverse dimensions for receiving the longitudinal fins (13a-13c) and the screw head (10) by axial penetration along the first longitudinal axis (II) from the proximal end (3a) of the first element (3), - the screw head (10) and the free distal parts (130a-130c) of the longitudinal fins (13a-13c) are shaped so that when the first element (3) receives the longitudinal fins (13a-13c), 13c) and the screw head (10), a relative displacement in translation of the fixing screw (9) towards the second element (7) along the second longitudinal axis (ΙΙ-Π) causes a radial displacement of the free distal parts ( 130a-130c) longitudinal fins (13a-13c) away from the second longitudinal axis (Π-Π) for pressing against the side wall (5a) of the first passage section (5) to oppose a removing the first element (3) away from the second element (7), - e second passage section (6) of the first element (3) has transverse dimensions smaller than those of the first passage section (5), but sufficient for the passage of a tool for rotating the fastening screw ( 9) along the second longitudinal axis (Π-ΙΙ).
    [2" id="c-fr-0002]
    2 - Dental component (1) according to claim 1, characterized in that the screw head (10) has a substantially frustoconical contact surface (10b) intended to come into contact with the free distal parts (130a-130c) of the fins. longitudinally (13a-13c) and / or the free distal portions (130a-130c) of the longitudinal wings (13a-13c) have respective contact surfaces (131a-131c) for supporting the screw head (10) and forming a substantially frustoconical surface (14).
    [3" id="c-fr-0003]
    3 - dental component (1) according to one of claims 1 or 2, characterized in that it comprises means for indexing in rotation (17) of the first (3) and second (7) elements around the first longitudinal axis (II).
    [4" id="c-fr-0004]
    4 - dental component (1) according to any one of claims 1 to 3, characterized in that the second element (7) comprises a proximal appendix (18) of non-circular cross section to be received in a housing (19) with non-circular cross-section of the dental implant (2).
    [5" id="c-fr-0005]
    5 - Dental component (1) according to any one of claims 1 to 4, characterized in that the first element (3) is a dental prosthesis core for receiving a ring (26).
    [6" id="c-fr-0006]
    6 - dental component (1) according to any one of claims 1 to 4, characterized in that the first element (3) is a dental prosthesis core, intended to be laminated.
    [7" id="c-fr-0007]
    7 - Dental component (1) according to any one of claims 1 to 4, characterized in that the first element (3) is a one-piece ceramic core dental prosthesis, preferably machined in a solid block of ceramic or obtained by sintering.
    [8" id="c-fr-0008]
    8 - Dental component (1) according to any one of claims 1 to 7, characterized in that the screw head (10) comprises a hollow screw cavity (10a) non-circular cross section.
    [9" id="c-fr-0009]
    9 - dental component (1) according to any one of claims 1 to 8, characterized in that the first element (3) comprises a groove (20) for receiving the free distal portions (130a-130c) of the longitudinal fins ( 13a-13c) during their radial displacement away from the second longitudinal axis (II-II).
    [10" id="c-fr-0010]
    10 - Dental component (1) according to claim 9, characterized in that the groove (20) and / or the free distal portions (130a-130c) of the longitudinal fins (13a-13c) comprise contact surfaces (21, 22 , 22a-22c) shaped so that the radial pressing of the free distal parts (130a-130c) of the longitudinal fins (13a-13c) against the groove (20) induces, according to the first longitudinal axis (II), a pressing of the proximal end (3a) of the first member (3) against the distal end (7b) of the second member (7).
    [11" id="c-fr-0011]
    11 - Dental component (1) according to one of claims 9 or 10, characterized in that: - the free distal portions (130a-130c) of the longitudinal fins (13a-13c) are movable between a retracted position, in which they are radially distant from the second longitudinal axis (II-II) according to a first distance (d1), and a spacing position, in which they are radially distant from the second longitudinal axis (II-II) along a second distance (d2) greater than the first distance (d1), - the free distal portions (130a-130c) of the longitudinal fins (13a-13c) are resiliently biased in spaced position, - the groove (20) and the longitudinal fins (13a-13c ) are dimensioned and shaped so that the free distal portions (130a-130c) of the longitudinal fins (13a-13c) are snapped into the groove (20) when the first passage section (5) receives the longitudinal fins (13a). - 13c) and the screw head (10) by axial penetration along the first longitudinal axis (I-I).
    [12" id="c-fr-0012]
    12 - Dental assembly (23) comprising: - a dental component (1) according to any one of claims 1 to 11, - a dental implant (2) comprising an internal housing (24) with a threaded section (25) intended to receive by screwing the fixing screw (9).
    [13" id="c-fr-0013]
    13 - A method of assembling ex-vivo a dental component (1) according to claim 11, comprising the following steps: a) insert the screw rod (11) between the longitudinal fins (13a-13c) and in the second through passage (8), b) inserting in the first passage section (5) the longitudinal fins (13a-13c) and the screw head (10) by an axial translation movement along the first longitudinal axis (II) from the proximal end (3a) of the first member (3), until a detent of the free distal portions (130a-130c) of the longitudinal fins (13a-13c) in the groove (20).
    类似技术:
    公开号 | 公开日 | 专利标题
    EP3202365B1|2018-09-26|Dental component for the individual prosthetic reconstruction of a tooth
    EP3573568B1|2021-01-06|Set of components for dental prosthetic restoration
    EP0237379B1|1989-09-06|Biocompatible fixing pin and prosthesis comprising such a pin
    EP2440153B1|2013-04-03|Device and method intended for holding a prosthesis in dental implantology
    EP1138271A1|2001-10-04|Dental prosthesis
    EP3573569B1|2020-12-09|Intermediate attachment part
    FR3012319A1|2015-05-01|CONNECTION DEVICE BETWEEN A DENTAL IMPLANT AND A TRANS-FIXED DENTAL PROSTHESIS
    EP2506795B1|2018-04-18|Conically tapered dental implant
    FR2908629A1|2008-05-23|PRINTING IMPRESSION PRINTING DEVICE FOR DENTAL PROSTHESIS
    EP2685929B2|2021-06-16|Dental implant
    EP2544621B1|2020-11-18|Assembly of a dental implant and a prosthetic element
    EP3291758B1|2019-07-10|Connection device between a dental prosthesis and a master model
    EP0474571B1|1995-04-05|Implant for dental prosthesis
    FR3033692A1|2016-09-23|TRANSFIXED PLURAL DENTAL PROSTHESIS
    EP3069683B1|2018-05-16|Transfixed multiple dental prosthesis
    EP3534825A1|2019-09-11|Improved dental implant system
    FR3031667A1|2016-07-22|METHOD FOR MANUFACTURING A DENTAL PROSTHESIS PILLAR, DEVICE AND MACHINE FOR CARRYING OUT THE METHOD AND PILLAR OBTAINED BY THE METHOD
    EP3753526A1|2020-12-23|Device for attaching a dental prosthesis comprising a dental attachment
    BE1021495B1|2015-12-03|PROTHETIC DENTAL RECONSTRUCTION DEVICE
    FR3093284A1|2020-09-04|Dental implant abutment mounting device, implantation kit and associated dental prosthesis preparation method
    FR3067588A1|2018-12-21|DENTAL RESTORATIVE SET
    WO1998005265A1|1998-02-12|Releasable root post with an insert for taking an impression
    同族专利:
    公开号 | 公开日
    FR3047407B1|2021-06-11|
    JP6883994B2|2021-06-09|
    JP2017136372A|2017-08-10|
    US10010384B2|2018-07-03|
    EP3202365B1|2018-09-26|
    CN107041789A|2017-08-15|
    US20170224447A1|2017-08-10|
    ES2700142T3|2019-02-14|
    EP3202365A1|2017-08-09|
    CN107041789B|2019-10-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20060014120A1|2004-07-16|2006-01-19|Sapian Schubert L|Biofunctional dental implant|
    EP2127612A1|2008-05-27|2009-12-02|Mis-Implants Technologies Ltd|Abutment assembly device and dental prosthesis|
    WO2012163528A1|2011-06-01|2012-12-06|Straumann Holding Ag|Two-part dental component|
    GB2509136A|2012-12-21|2014-06-25|Nobel Biocare Services Ag|Dental component with metal adapter|
    US5087199A|1990-07-27|1992-02-11|Sargon Lazarof|Dental implant and method of using same|
    US5733122A|1995-05-31|1998-03-31|Gordon; Basil|Dental implant attachment assembly including device and method for resisting loosening of attachment|
    CA2232822A1|1995-10-13|1997-04-24|Vincenzo Grande|Connection arrangement between an implant and an abutment|
    US6142782A|1996-01-05|2000-11-07|Lazarof; Sargon|Implant assembly and process for preparing a prosthetic device|
    US5931674A|1997-12-09|1999-08-03|Hanosh; Frederick N.|Expanding dental implant|
    US6350126B1|2000-09-01|2002-02-26|Ricardo Levisman|Bone implant|
    EP1419700A1|2002-11-18|2004-05-19|Unilever N.V.|Food products comprising fat and a starch-containing matter and process for their manufacture|
    SE526908C2|2003-12-22|2005-11-15|Nobel Biocare Ab|Arrangement for location orientation of bridge or bridge for dental implants|
    DE202007019558U1|2006-08-25|2013-08-07|Biomain Ab|Dental superstructure|
    IL177848D0|2006-09-03|2006-12-31|Oz Vachtenberg|Expandable dental implants of high surface area and methods of expanding the same|
    US8828066B2|2007-02-01|2014-09-09|Sargon Lazarof|Securing mechanism with dual expandable ends|
    US20080241790A1|2007-03-30|2008-10-02|Gittleman Neal B|CIP of Expanding Ball Lock Oral Prosthesis Alignment Apparatus|
    US20080261174A1|2007-04-23|2008-10-23|Gittleman Neal B|Expanding Ball Lock Oral Prosthesis Alignment Apparatus|
    GB2494099A|2011-07-06|2013-03-06|Nobel Biocare Services Ag|Dental component with an angled screw channel|
    EP2607722B1|2011-12-22|2014-02-26|Straumann Holding AG|Connecting screw for a dental implant|
    CN202637159U|2012-07-13|2013-01-02|重庆润泽医药有限公司|Dental implant|
    GB2509138A|2012-12-21|2014-06-25|Nobel Biocare Services Ag|Dental component with screw fixation|
    GB2509135A|2012-12-21|2014-06-25|Nobel Biocare Services Ag|An abutment with conical metal adapter|
    US9265591B1|2013-11-22|2016-02-23|Neal B. Gittleman|Dental prosthesis alignment apparatus|US10743966B2|2015-01-21|2020-08-18|Kwang Seob Kim|Implant unit|
    FR3062052B1|2017-01-26|2021-07-16|Anthogyr Sa|SET OF COMPONENTS FOR DENTAL PROTHETIC RESTORATION|
    FR3062053B1|2017-01-26|2021-07-16|Anthogyr Sa|INTERMEDIATE FIXING PART|
    EP3576668A1|2017-01-31|2019-12-11|Guerra, Richard|Dental implant crown abutment with indexed margin|
    EP3668444A1|2017-08-14|2020-06-24|Nobel Biocare Services AG|Dental component with an interface|
    IL266021A|2019-04-14|2020-10-29|Mikambeh Ltd|Dental abutment and abutting system|
    KR102198237B1|2020-01-14|2021-01-05| 코웰메디|Cenemtless dental implant using elastic bushing|
    KR102198248B1|2020-02-03|2021-01-05| 코웰메디|Healing abutment with hoto-polymerizable resin photo-polymerization healing part|
    法律状态:
    2016-12-21| PLFP| Fee payment|Year of fee payment: 2 |
    2017-08-11| PLSC| Publication of the preliminary search report|Effective date: 20170811 |
    2017-12-21| PLFP| Fee payment|Year of fee payment: 3 |
    2020-02-19| PLFP| Fee payment|Year of fee payment: 5 |
    2021-02-24| PLFP| Fee payment|Year of fee payment: 6 |
    2022-02-16| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1650935A|FR3047407B1|2016-02-05|2016-02-05|DENTAL COMPONENT FOR UNIT PROTHETIC RESTORATION OF A TOOTH|FR1650935A| FR3047407B1|2016-02-05|2016-02-05|DENTAL COMPONENT FOR UNIT PROTHETIC RESTORATION OF A TOOTH|
    US15/408,584| US10010384B2|2016-02-05|2017-01-18|Dental component for the individual prosthetic reconstruction of a tooth|
    ES17154318T| ES2700142T3|2016-02-05|2017-02-02|Dental component for the individual prosthetic restoration of a tooth|
    EP17154318.4A| EP3202365B1|2016-02-05|2017-02-02|Dental component for the individual prosthetic reconstruction of a tooth|
    JP2017018116A| JP6883994B2|2016-02-05|2017-02-03|Dental components for individual prosthetic reconstruction of teeth|
    CN201710064061.8A| CN107041789B|2016-02-05|2017-02-04|The dentistry component of individual prosthetic reconstruction for tooth|
    [返回顶部]