• 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:
    Set to form an interface piece for dental implants with a variable height. The assembly comprises a tubular interface part (1A) with a central axis (Z) and an auxiliary part (8A) that is coupled to the interface part (1A). In a coupled position: the auxiliary part (8A) is integral with the interface part (1A) in at least one direction in a direction parallel to the central axis (Z); a final section (14) of the pillar (3) protrudes from an upper end of the auxiliary part (8A); and a peripheral surface (12) outside the pillar (3) comprises at least one flat face (13) in a plane (P) that cuts the final section (14) of the pillar (3) and the central axis (Z). The flat face (13) of the auxiliary part (8A) serves as a guide for cutting the abutment (3) at a certain height. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2734231A1
    申请号:ES201830537
    申请日:2018-06-04
    公开日:2019-12-04
    发明作者:Brullet Carlos Soler;Yanini Juan Carlos Perez
    申请人:IMPLANT PROTESIS DENTAL 2004 S L;
    IPC主号:
    专利说明:

    [0001] SET TO FORM AN INTERFACE PART FOR DENTAL IMPLANTS
    [0002]
    [0003] Field of the Invention
    [0004]
    [0005] The invention is in the field of dental implants.
    [0006]
    [0007] The dental implants to which the invention is applied comprise a dental implant body that is implanted in the bone of a patient by a surgical operation, and a dental prosthesis that is fixed to this dental implant body by screwing, using a screw that It is screwed into a threaded hole provided for this purpose in the dental implant body. The dental prosthesis can also be fixed to an analog during its construction phase in the laboratory. An analog is a support that has a geometry analogous to that of the dental implant body connection, and in which the dental implant structure is fixed to work on it in the laboratory.
    [0008]
    [0009] This dental prosthesis that is fixed to the dental implant body by means of a screw is a complex element, which is custom-made in a laboratory and which comprises a prosthetic element, such as a calcinable body or a prosthetic tooth body, and a interface piece that interposes between said prosthetic element and the dental implant body. This interface piece protects the dental implant body from abrasion caused by the ceramic material constituting the dental prosthesis, and also facilitates the adjustment of the dental prosthesis on the dental implant body.
    [0010]
    [0011] The invention relates to this interface piece intended to interpose between the prosthetic element and the dental implant body.
    [0012]
    [0013] More specifically, the invention consists of an assembly that allows providing an interface piece with a variable height.
    [0014] State of the art
    [0015]
    [0016] The interface pieces to which the invention relates have a tubular shape, with a base end intended to seat the interface piece on a dental implant body, a pillar to support a prosthetic element (for example a calcinable body or a prosthetic tooth body) to the interface piece, and an inner duct that crosses the interface piece forming a passage for a fixing screw, said inner duct being provided with an inner boss forming a seat for the screw head of fixation. The base end can have various shapes, each adapted to a corresponding shape of the dental implant body. The abutment can have a cylindrical, frustoconical or other shape depending on the type of dental prosthesis that you want to build.
    [0017]
    [0018] In the prior art known, the interface pieces are supplied with a fixed height pillar. This height of the abutment is not always the most appropriate depending on the type and dimensions of the dental prosthesis that you want to build. Document ES1182233U discloses a solution for the dental technician to modify the height of the abutment of the interface piece. This solution consists of arranging marks along the abutment to indicate to the dental technician several possible positions to cut the abutment and thus reduce its height. The dental technician uses his own machining tools to cut the abutment to one of the heights indicated by the marks. Performing this cutting operation with precision is not an easy task, taking into account that an interface piece has very small dimensions and that the dental technician must choose one of the marks present in the interface piece itself and make a cut at the height indicated by the chosen brand. On the other hand, in order for the marks to be distinguishable by the dental technician, it is necessary that they be arranged in a clear area of the wall of the abutment, which in many cases requires the modification of the abutment to provide it with these cleared areas. In particular, these cleared areas must be devoid of the retention grooves that are usually formed on the outer surface of the abutment, which can weaken the retention of the prosthetic element on the abutment surface.
    [0019] Description of the invention
    [0020]
    [0021] The invention aims to provide a set to form an interface piece for dental implants with a variable height, which allows a dental technician to reduce the height of the abutment in an easier and more precise way, and without the need to modify the pillar to give it special marks.
    [0022]
    [0023] This purpose is achieved by means of a set to form an interface piece for dental implants with a variable height, characterized in that it comprises:
    [0024] - an interface piece having a tubular shape with a central axis and comprising: a base end for the seat of said interface piece on a dental implant body, a pillar for the solidarity of a prosthetic element to said piece of interface, said pillar being coaxial with said central axis and extending from said base end to a free end of said pillar, and an internal duct coaxial with said central axis that crosses said interface piece from said free end to said base end forming a passage for a fixing screw, said inner conduit being provided with an inner shoulder forming a seat for the fixing screw head, and
    [0025] - at least one auxiliary part shaped to be removably coupled to said interface part, so that in a coupled position: said auxiliary part is integral with said interface part at least in a direction in a direction parallel to said axis central; a final section of said pillar, adjacent to said free end, protrudes through an upper end of said auxiliary part; said upper end of the auxiliary part forms an outer peripheral surface to said pillar, said peripheral surface comprising at least one flat face in a plane; and said plane of the flat face cuts said final section of the pillar and said central axis.
    [0026]
    [0027] The assembly according to the invention does not require that the interface piece be modified to provide it with indicator marks of cutting heights. On the contrary, the invention is based on associating an auxiliary part to the interface piece that has a specific way to be coupled to the interface piece, such that by coupling both pieces together the auxiliary part provides a flat face that defines precisely a cutting plane to cut the pillar at a specific height that is predetermined by the dimensions of the auxiliary part itself. That is to say that instead of supplying the dental technician with an interface piece with some marks, which must be cut using their own means and following said marks, a set consisting of the interface piece and the auxiliary part is supplied. Thus, the technician does not have to identify a mark on an interface piece, which is of very small dimensions, nor does it have to align a cutting system with the mark on the interface piece. The technician only has to choose the auxiliary part, attach it to the interface piece and cut the abutment by the plane defined by the flat face at the upper end of the auxiliary part. To perform the cut the technician can use a conventional cutting tool, such as a milling cutter or a cutting disc, and guide said cutting tool taking the flat side of the auxiliary part as support. A good cutting precision is thus achieved and each dental prosthesis technician is prevented from having to implement a particular cutting system that can give different results depending on the skills of the technician. Once the cut has been made, the technician removes the auxiliary part thanks to the removable character of its coupling with the interface piece.
    [0028]
    [0029] In preferred embodiments, the auxiliary part has an annular shape with an axial passage, said axial passage through said auxiliary part from a lower end to the upper end that forms the peripheral surface. The peripheral surface is then an annular surface around said axial passage. The auxiliary part is shaped so that the abutment enters the axial passage of the auxiliary part through the lower end and moves freely in a direction parallel to the central axis to the coupled position. In said coupled position, the interface piece is in solidarity with the auxiliary piece, by complement of form between said interface piece and said auxiliary piece, in any radial direction with respect to the central axis. This configuration allows the dental technician to easily make the removable coupling between the two pieces and also cut the abutment in a particularly reliable way.
    [0030]
    [0031] Preferably, in these latter embodiments, the auxiliary part has an outer surface with a cylindrical shape and provided with grooves distributed along the circular perimeter of said cylindrical shape. This outer surface can be used to handle mode, so that the dental technician can hold the auxiliary part by hand or with a tool.
    [0032]
    [0033] Preferably, the assembly according to the invention comprises a plurality of said auxiliary parts, each of them being sized so that, in the coupled position, the plane of the flat face cuts the final section of the pillar and the central axis at a different height along said central axis. Thanks to this, the technician in dental prostheses no longer has to distinguish between different brands in the interface piece, but it is enough to choose, from among the different auxiliary parts of the set, that corresponding to the desired cutting height. Each auxiliary piece can carry an indication, such as an alphanumeric text or a color code, indicating its cutting height. This indication may be arranged on the outer surface of the auxiliary part, whereby it may be large enough to be recognized by the dental technician at a glance.
    [0034]
    [0035] In preferred embodiments, the base end of the interface piece comprises a flange that protrudes from the outer surface of the abutment in a radial direction with respect to the central axis, and the abutment extends from said projection to the free end. In the coupled position, the auxiliary part is fully supported by its lower end against said flange in the direction of the central axis. In this configuration of the interface piece, which is the most common in the state of the art, the flange is intended to rest on the body of the dental implant. The particularity of these embodiments of the invention consists in advantageously using this flange as a stop for the auxiliary part.
    [0036]
    [0037] Preferably, the pillar of the interface piece comprises a non-circular outer surface with respect to the central axis, and the auxiliary piece comprises a non-circular inner surface with respect to said central axis, said non-circular inner surface having a complementary shape to that of said non-circular outer surface, so that in the coupled position, the interface piece is connected to the auxiliary part in rotation with respect to said central axis by complementing shape between said outer surface and said inner surface. A relative rotation between the two pieces is thus prevented during the cutting operation of the abutment, which in some could damage the interface piece.
    [0038] In some embodiments, the abutment comprises, in a lower section of said abutment adjacent to the base end, at least one protuberance that forms the non-circular outer surface of the abutment, and the inner surface of the auxiliary part comprises at least a recess that forms the inner non-circular surface of said auxiliary part and into which, in the coupled position, said protuberance is introduced. This solution has the advantage of freeing the entire upper section of the abutment, which is preferably provided with retention grooves and which is intended to support the prosthesis element to the interface piece.
    [0039]
    [0040] Preferably, said protuberances are at least three and are distributed around the central axis. This allows the dental technician to more easily connect the auxiliary part to the interface piece.
    [0041]
    [0042] In other embodiments, the outer surface of the pillar comprises at least one recess that forms the non-circular outer surface of the pillar, and the inner surface of the auxiliary part comprises at least one shoulder forming the non-circular inner surface of said pillar. auxiliary part and which, in the coupled position, is inserted in said recess. This shape of the abutment allows a rotationally shaped prosthetic element to be attached to said abutment.
    [0043]
    [0044] Preferably, said recesses are at least three and are distributed around the central axis. As in the previous case, this allows the dental technician to more easily connect the auxiliary part to the interface piece.
    [0045]
    [0046] Preferably, in these latter embodiments, the outer surface of the abutment is conical, with a decreasing diameter towards the free end.
    [0047]
    [0048] Optionally, the assembly according to the invention comprises a tool for joining the auxiliary part to the interface piece, in the coupled position, in the direction of the central axis, said utensil comprising a rod that moves in a through hole of said auxiliary part and which presses the outer surface of said interface piece with its end. Thanks to this solution it is not necessary that during the cutting operation the Dental prosthesis technician maintain the coupled position of the two pieces, which further facilitates the operation of cutting the abutment.
    [0049]
    [0050] Preferably, the rod is provided with a thread and the through hole is provided with a corresponding thread, so that said rod is screwed into said through hole and moves along it until its outer surface is pressed with the end of the workpiece. interface, and the utensil comprises a handle integral with said rod. This configuration allows solidarity of the pieces in a particularly easy and robust way.
    [0051]
    [0052] The invention also comprises other detail features shown in the following detailed description of an embodiment of the invention and in the accompanying figures.
    [0053]
    [0054] Brief description of the drawings
    [0055]
    [0056] The advantages and features of the invention can be seen from the following description in which, without limitation with respect to the scope of the main claim, preferred embodiments of the invention are set forth with reference to the figures.
    [0057]
    [0058] Figs. 1 to 17 show a first embodiment with a first type of interface piece.
    [0059]
    [0060] Figs. 1 to 5 are respectively a perspective view, a sectional view, a bottom view, a front view and a top view of the interface piece.
    [0061]
    [0062] Figs. 6 to 10 are respectively a perspective view, a sectional view, a bottom view, a front view and a top view of the auxiliary part.
    [0063]
    [0064] Figs. 11 to 13 are respectively a front view, a longitudinal section view and a cross-sectional view of the assembly formed by the interface piece and the auxiliary part in the coupled position.
    [0065] Fig. 14 shows, from left to right, successive stages of the cutting operation of the pillar of the interface piece at a height predetermined by the auxiliary part.
    [0066]
    [0067] Fig. 15 shows three auxiliary pieces, each sized to cut the same interface piece to a different height.
    [0068]
    [0069] Figs. 16 and 17 are a perspective view and a sectional view showing the use of the tool to mutually support the two pieces in the direction of the central axis.
    [0070]
    [0071] Figs. 18 to 30 show a second embodiment with a second type of interface piece.
    [0072]
    [0073] Figs. 18 to 22 are respectively a perspective view, a sectional view, a bottom view, a front view and a top view of the interface piece.
    [0074]
    [0075] Figs. 23 to 28 are respectively a top perspective view, a bottom perspective view, a sectional view, a bottom view, a front view and a top view of the auxiliary part.
    [0076]
    [0077] Figs. 29 and 30 are respectively a longitudinal sectional view and a cross-sectional view of the assembly formed by the interface piece and the auxiliary part, coupled to each other and in the coupled position.
    [0078]
    [0079] Detailed description of embodiments of the invention
    [0080]
    [0081] Figs. 1 to 17 show a first embodiment of the assembly according to the invention, with a first type of interface piece.
    [0082]
    [0083] The assembly consists of an interface piece 1A for dental implants and three auxiliary parts 8A. In the embodiment shown, the three auxiliary parts 8A are equal in shape, except in their height: each of them has a different height for be able to cut the abutment of the same interface piece 1A at a different height. Figures 1-14 and 16-17 show only the auxiliary part 8A of smaller height.
    [0084]
    [0085] The interface piece 1A is a metal single piece of biocompatible material, such as a grade 5 titanium alloy (Ti-6Al-4V alloy), a Cr-Co alloy or a Ni-Cr-Mo-Ti alloy. As can be seen in Figs. 1 to 5, the interface piece 1A has a tubular shape with a central axis Z and comprising a base end 2 for the seat of the interface piece 1A on a dental implant body (not shown in the figures), and a pillar 3 for the solidarity of a prosthetic element (not shown in the figures) to said interface piece 1A. The pillar 3 is coaxial with the central axis Z and extends from the base end 2 to a free end 4 of said pillar 3. An inner duct 5, coaxial with the central axis Z, crosses the interface piece 1A from the end free 4 to the base end 2. This inner duct 5 forms a passage for a fixing screw (not shown in the figures) and is provided with an inner shoulder 6 forming a seat 7 for the head of the fixing screw. The base end 2 has a flange-shaped seating part that constitutes a flange 15 protruding from the outer surface of the pillar 3 in a radial direction with respect to the central axis Z. The pillar 3 extends from the projection 15 to the free end 4. The base end 2 further comprises a fitting part 28 which in the example shown has a hexagonal shape and is intended to make an antirotational fitting of the interface piece 1A in a dental implant body having a shape correspondent. This fitting part 28 can have any other shape, including a shape on the inner surface of the inner duct 5, depending on the geometry of the dental implant body in which the interface piece 1A is intended to fit. The outer surface of the pillar 3 is cylindrical and comprises retention grooves 2, intended to ensure the solidarity of a prosthetic element to said outer surface of the pillar 3. In an inferior section of the pillar 3, adjacent to the base end, the outer surface of the pillar 3 comprises three protuberances 16 that are distributed around the central axis Z and that form a non-circular outer surface of the pillar 3.
    [0086]
    [0087] The auxiliary part 8A is a single piece of any rigid and resistant material. For example, it can be a metal part or a molded part of a polymeric material with loads. As can be seen in Figs. 6 to 10, in the embodiment represented the auxiliary part 8A has an annular shape with an axial passage 9 that crosses said auxiliary part 8A from a lower end 10 to an upper end 11 thereof. In the figures the auxiliary part 8A has the shape of a cylindrical ring. The upper end 11 forms an annular peripheral surface 12 around the axial passage 9. This peripheral surface 12 comprises a flat face 13 in a plane P. In the example shown the entire peripheral surface 12 constitutes the flat face 13, which in this case is located in a plane P parallel to the axis of the auxiliary part 8A in the form of a cylindrical ring. Other embodiments are possible in which the peripheral surface has a complex shape and only a part thereof constitutes the flat face.
    [0088]
    [0089] The auxiliary part 8A is shaped to be removably coupled to the interface part 1A, such that the pillar 3 enters the axial passage 9 of the auxiliary part 8A through the lower end 10 and moves freely in the direction of the axis center Z to a coupled position in which the auxiliary part 8A is fully supported against the interface part 1A. The assembly of the two pieces 1A and 8A in this coupled position is shown in Figs. 11 to 13. As can be seen in Fig. 12, the auxiliary part 8A is fully supported by its lower end 10 against the flange 15 of the interface part 1A. This buttress is a limit switch for the relative displacement between the pillar 3 and the axial passage 9 in the direction of entry of said pillar 3 in said axial passage 9. Thus, in this coupled position the auxiliary part 8A is integral to the interface part 1A in the direction of the central axis Z in said direction of entry. In addition, in this coupled position the interface part 1A is in solidarity with the auxiliary part 8A by complement of form between said interface piece 1A and said auxiliary part 8A, in any radial direction with respect to the central axis Z. More specifically, in the embodiment depicted the shape of the axial passage 9 and the shape of the pillar 3 are complementary in a cross section to the central axis Z, as seen in Fig. 13. The inner surface of the axial passage 9 comprises three recesses 17 in which each of the three protrusions 16 is introduced. These three recesses 17 form a non-circular inner surface of the axial passage 9 with respect to the central axis Z, which has a complementary shape to that of the non-circular outer surface of the pillar 3 formed by the protrusions 16. Thus, in the coupled position the interface part 1A is in solidarity with the auxiliary part 8A in rotation with respect to the central axis Z by complement of form e between the outer surface of the pillar 3 and the inner surface of the axial passage 9. In other embodiments this Solidarity can be carried out with different numbers of protrusions 16 and recesses 17, without it being necessary that there be as many recesses 17 as protuberances 16.
    [0090]
    [0091] As can be seen in particular in Fig. 11, in the coupled position the pillar 3 protrudes from the upper end 11 of the auxiliary part 8A in a final section 14 adjacent to the free end 4, so that the plane P of the flat face 13 cuts said final section 14 of the pillar 3 and the central axis Z. The section of the plane P with the pillar 3 determines the plane by which said pillar 3 will be cut with the aid of the auxiliary part 8A.
    [0092]
    [0093] The way in which a dental technician operates to perform the cutting of the pillar 3 is as follows. First, the technician chooses the auxiliary part 8A that corresponds to the desired cutting height, from among the different auxiliary parts 8A available, for example from among the three shown in Fig. 15. Next, the technician attaches the auxiliary part 8A to the interface piece 1A, introducing the pillar 3 through the axial passage 9 and moving the auxiliary piece 8A with respect to the interface piece 1A along the central axis Z until reaching the coupled position shown in Figs. 11 to 13. This situation is the one shown in the image on the left of Fig. 14. Then the technician uses a cutting tool, such as a milling cutter or a cutting disc, to cut the pillar 3 by the Z plane defined by the flat face 13. For this purpose, the cutting tool can advantageously be supported on the flat face 13. The central image of Fig. 14 shows the situation after the cut. Finally, the technician removes the auxiliary part 8A, and thus obtains the interface part 1A with the pillar 3 cut to the desired height as shown in the image on the right of Fig. 14.
    [0094]
    [0095] To perform a cut of the pillar 3 at a different height, the technician performs the same operation using another of the auxiliary parts 8A. Each of the auxiliary parts 8A is sized so that, coupled to the same interface piece 1A and in the coupled position, the plane P of the flat face 13 cuts the final section 14 of the pillar 3 and the central axis Z to a different height along the central axis Z. In the embodiment shown this is achieved simply because the auxiliary parts 8A have the same shape but a different height between the inner end 10 and the upper end 11.
    [0096] The auxiliary part 8A has an outer surface with a cylindrical shape and provided with grooves 20 distributed along the circular perimeter of said cylindrical shape. The outer surface of the auxiliary part 8A thus forms a handle by which the technician can hold said auxiliary part 8A and keep it in the coupled position while cutting.
    [0097]
    [0098] Optionally, the assembly according to the invention can comprise a tool 21 for keeping the two pieces 1A, 8A in the coupled position, that is to say to support the auxiliary part 8A to the interface piece 1A in the direction of the central axis Z. Figs. 16 and 17 show an embodiment of this utensil 21, which comprises a rod 22 that moves in a through hole 23 provided in the auxiliary part 8A. The rod 22 presses the outer surface of the interface piece 1A with its end. Advantageously, the rod 22 is provided with a thread 24 and the through hole 23 is provided with a corresponding thread 25, so that the rod 22 is screwed into the through hole 23 and thus moves in a controlled manner along the latter until press the outer surface of the interface piece 1A with its end. The technician can rotate the rod 22 easily thanks to a handle 26 of the tool 21 that is integral with said rod 22. The rod 22 is held in position, ensuring the solidarity of the two pieces 1A, 8A, by the force exerted by its end against interface part 1A.
    [0099]
    [0100] Figs. 18 to 30 show a second embodiment of the assembly according to the invention, with a second type of interface piece. The same numerical references have been used in the figures as in the first embodiment to indicate analogous elements.
    [0101]
    [0102] The interface part 1B is represented in Figs. 18 to 22. It differs from the first 1A in that the outer surface of the pillar 3 is tapered centered on the central axis Z, with a decreasing diameter towards the free end 4. In addition, the non-circular outer surface of the pillar 3 is not formed by protuberances, but by three recesses 18 distributed around the central axis Z. The recesses 18 are formed in a central area of the pillar 3 which is provided with retaining grooves 27. The fitting part of the base end 2 is also different. In this case the fitting part 29 in a body of revolution, which in the example shown has a conical shape, and is intended to perform a rotary engagement of the interface part 1B in a dental implant body having a corresponding shape. This fitting part 29 can have any other shape, including a shape on the inner surface of the inner duct 5, depending on the geometry of the dental implant body in which the interface part 1B is intended to fit.
    [0103]
    [0104] The auxiliary part 8B is represented in Figs. 23 to 28. It differs from the first 8A in that the inner surface of the axial passage 9 comprises two projections 19 that form the non-circular inner surface of the axial passage 9 and that, in the coupled position, each of them are introduced into one of the recesses 18. In the embodiment shown, the recesses 18 are flat sunken faces, and the projections 19 are corresponding corresponding flat faces. The axial passage 9 has a section with a truncated conical shape, complementary to the truncated conical shape of the outer wall of the pillar 3. The shape of the axial passage 9 and the shape of the pillar 3 are therefore complementary in a cross section to the central axis Z, as It can be seen in Fig. 30.
    [0105]
    [0106] Figs. 29 and 30 show the fit of the two pieces 1B and 8B. It will be noted that in Fig. 29, part 1B has been represented after cutting the pillar 3. The initial situation before cutting and in the coupled position is similar to that in Fig. 11, that is to say that pillar 3 it protrudes from the upper end 11 of the auxiliary part 8B in a final section adjacent to the free end 4, so that the plane P of the flat face 13 cuts said final section of the pillar 3 and the central axis Z.
    权利要求:
    Claims (13)
    [1]
    1. Assembly to form an interface piece for dental implants with a variable height, characterized in that it comprises:
    - an interface piece (1A, 1B) having a tubular shape with a central axis (Z) and comprising: a base end (2) for the seat of said interface piece (1A, 1B) on a body of dental implant, a pillar (3) for the solidarity of a prosthetic element to said interface piece (1A, 1B), said pillar (3) being coaxial with said central axis (Z) and extending from said base end (2 ) to a free end (4) of said pillar (3), and an inner duct (5) coaxial with said central axis (Z) that crosses said interface piece (1A, 1B) from said free end (4) to said base end (2) forming a passage for a fixing screw, said inner duct (5) being provided with an inner shoulder (6) forming a seat (7) for the head of the fixing screw, and
    - at least one auxiliary part (8A, 8B) shaped to be removably coupled to said interface part (1A, 1B), so that in a coupled position: said auxiliary part (8A, 8B) is integral with said part interface (1A, 1B) at least in a direction of a direction parallel to said central axis (Z); a final section (14) of said pillar (3), adjacent to said free end (4), protrudes through an upper end (11) of said auxiliary part (8A, 8B); said upper end (11) of the auxiliary part (8A, 8B) forms a peripheral surface (12) outside said pillar (3), said peripheral surface (12) comprising at least one flat face (13) in a plane ( P); and said plane (P) of the flat face (13) cuts said final section (14) of the pillar (3) and said central axis (Z).
    [2]
    2. Assembly according to claim 1, characterized in that said auxiliary part (8A, 8B) has an annular shape with an axial passage (9), said axial passage (9) crossing said auxiliary part (8A, 8B) from a lower end (10) to said upper end (11) forming said peripheral surface (12), said peripheral surface being an annular surface around said axial passage (9); and said auxiliary part (8A, 8B) being shaped such that said pillar (3) enters said axial passage (9) of the auxiliary part (8A, 8B) through said lower end (10) and moves freely in one direction parallel to said central axis (Z) to said coupled position; and in said coupled position, said interface piece (1A, 1B) is in solidarity with said auxiliary part (8A, 8B), by complement of form between said interface piece (1A, 1B) and said auxiliary part (8A, 8B), in any radial direction with respect to to said central axis (Z).
    [3]
    3. Assembly according to claim 2, characterized in that said auxiliary part (8A, 8B) has an outer surface with a cylindrical shape and provided with grooves (20) distributed along the circular perimeter of said cylindrical shape.
    [4]
    4. Assembly according to any one of claims 1 to 3, characterized in that it comprises a plurality of said auxiliary parts (8A, 8B), each of said auxiliary parts (8A, 8B) being sized so that, in said coupled position, said plane (P) of the flat face (13) cuts said final section (14) of the pillar (3) and said central axis (Z) at a different height along said central axis (Z).
    [5]
    5. Assembly according to any of claims 1 to 4, characterized in that said base end (2) of the interface piece (1A, 1B) comprises a flange (15) protruding from the outer surface of said pillar (3) in a radial direction with respect to said central axis (Z), said pillar (3) extending from said projection (15) to said free end (4), and in said coupled position said auxiliary part (8A, 8B) is supported by stop at its lower end (10) against said flange (15) in the direction of said central axis (Z).
    [6]
    6. Assembly according to any of claims 1 to 5, characterized in that said pillar (3) of the interface piece (1A, 1B) comprises a non-circular outer surface with respect to said central axis (Z), and said auxiliary part (8A, 8B) comprises a non-circular inner surface with respect to said central axis (Z), said inner non-circular surface having a complementary shape to that of said non-circular outer surface, such that in said coupled position, said piece of interface (1A, 1B) is connected to said auxiliary part (8A, 8B) in rotation with respect to said central axis (Z) by complement of form between said outer surface and said inner surface.
    [7]
    Assembly according to claim 6, characterized in that the outer surface of said pillar (3) comprises, in a lower section of said pillar (3) adjacent to said end of base (2), at least one protuberance (16) forming said non-circular outer surface of the pillar (3), and the inner surface of said auxiliary part (8A, 8B) comprises at least one recess (17) forming said non-circular inner surface of the auxiliary part (8A, 8B) and in which, in said coupled position, said protuberance (16) is introduced.
    [8]
    8. Assembly according to claims 2 and 7, characterized in that said protuberances (16) are at least three and are distributed around said central axis (Z).
    [9]
    Assembly according to claim 6, characterized in that the outer surface of said pillar (3) comprises at least one recess (18) forming said non-circular outer surface of the pillar (3), and the inner surface of said auxiliary part (8A, 8B) comprises at least one shoulder (19) forming said non-circular inner surface of the auxiliary part (8A, 8B) and which, in said coupled position, is inserted into said recess (18).
    [10]
    10. Assembly according to claims 2 and 9, characterized in that said recesses (18) are at least three and are distributed around said central axis (Z).
    [11]
    11. Assembly according to claims 9 or 10, characterized in that the outer surface of said abutment (3) is conical, with a decreasing diameter towards said free end (4).
    [12]
    12. Assembly according to any of claims 1 to 11, characterized in that it comprises a tool (21) for joining said auxiliary part (8A, 8B) to said interface part (1A, 1B), in said coupled position, in the direction of said central axis (Z), said utensil comprising a rod (22) that moves in a through hole (23) of said auxiliary part (8A, 8B) and that presses with its end the outer surface of said interface piece ( 1A, 1B).
    [13]
    13. Assembly according to claim 12, characterized in that said rod (22) is provided with a thread (24) and said through hole (23) is provided with a corresponding thread (25), so that said rod (22) is Screw in said through hole (23) to move along it until its surface is pressed with its end exterior of said interface piece (1A, 1B), and said utensil (21) comprises a handle (26) integral with said rod (22).
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    同族专利:
    公开号 | 公开日
    ES2734231B2|2020-04-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US5527182A|1993-12-23|1996-06-18|Adt Advanced Dental Technologies, Ltd.|Implant abutment systems, devices, and techniques|
    US20170196663A1|2009-11-03|2017-07-13|Ben Zion Karmon|Dental Implant|
    US20160367341A1|2014-03-11|2016-12-22|Implant Protesis Dental 2004 S.L.|Dental implant prosthetic structure|
    ES1184883U|2017-05-23|2017-06-08|Implant Protesis Dental 2004 S.L.|Interface piece for dental implants |
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201830537A|ES2734231B2|2018-06-04|2018-06-04|ASSEMBLY TO FORM AN INTERFACE PIECE FOR DENTAL IMPLANTS WITH A VARIABLE HEIGHT|ES201830537A| ES2734231B2|2018-06-04|2018-06-04|ASSEMBLY TO FORM AN INTERFACE PIECE FOR DENTAL IMPLANTS WITH A VARIABLE HEIGHT|
    AU2019281042A| AU2019281042A1|2018-06-04|2019-05-29|Assembly for forming an abutment for a dental implant with an unpredetermined length|
    US16/972,257| US20210153983A1|2018-06-04|2019-05-29|Assembly for forming an interface part for dental implants with variable height|
    CA3101907A| CA3101907A1|2018-06-04|2019-05-29|Assembly for forming an interface part for dental implants with variable height|
    CN201980037766.8A| CN112449586A|2018-06-04|2019-05-29|Assembly for forming an abutment for a dental implant having a length not predetermined|
    PCT/ES2019/070357| WO2019234269A2|2018-06-04|2019-05-29|Assembly for forming an interface part for dental implants with variable height|
    EP19814901.5A| EP3804656A2|2018-06-04|2019-05-29|Assembly for forming an abutment for a dental implant with a unpredetermined length|
    ZA2020/07167A| ZA202007167B|2018-06-04|2020-11-17|Assembly for forming an abutment for a dental implant with an unpredetermined length|
    CONC2020/0014680A| CO2020014680A2|2018-06-04|2020-11-26|Set to form an abutment for a dental implant of non-predetermined length|
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