• 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:
    Method for producing a total or partial dental prosthesis (1) for a patient, the dental prosthesis (1) having a gingival body (2) and at least one prosthetic tooth (3) arranged on the gingival body (2) and the gingival body (2) having a back (4 ), which is to be arranged on a ridge of the patient, with the steps of producing the gum body (2) and securing the at least one denture tooth (3) on the gum body (2), wherein after fixing the at least one denture tooth (3) on the gum body ( 2) a material-removing machining of the rear side (4) of the gum body (2) and / or a material-removing machining of the at least one prosthetic tooth (3) in one of the back (4) of the gum body (2) facing the region of the prosthetic tooth (3).
    公开号:AT516747A4
    申请号:T50155/2015
    申请日:2015-02-26
    公开日:2016-08-15
    发明作者:
    申请人:Steger Heinrich;
    IPC主号:
    专利说明:

    The invention relates to a method for producing a dental prosthesis with the features of the preamble of claim 1 and a dental prosthesis with the features of the preamble of claim 8.
    A known method for the production of dental prostheses consists in the separate production of the gum body (hereinafter also referred to as "gingiva") and the individual prosthetic teeth (hereinafter also referred to as "teeth").
    For example, the gum body is made of plastic in a special color to achieve a certain degree of realism. This gum body then also includes stumps, on which later the teeth are placed.
    In order to get the raw data, the dentition situation can be recorded with the help of an intraoral scanner or negative impressions are taken from the oral cavity situation, which are then used to make a plaster model. This can then be digitized using a 3D scanner. The subsequent processing then takes place on the PC with the support of a modeling software.
    Using the scanned plaster model, the gingival area can be created and the teeth inserted from a stored library. In the following, the teeth are then separated from the gum body and further processed separately.
    On the already partially processed gum body, which has directed toward the mouth tooth stumps, then the milled teeth can be glued in the later steps. This gum body is z. B. worked out of a plastic blank, which happens in a CNC machine.
    Next, the teeth are then processed further. Modifications in the modeling software can then be made here before they are milled out of a blank, for example made of zirconium. Of course, the teeth can also be made of plastic.
    By placing the teeth, the tooth stumps engage in the interior of the teeth and thus form a support or holder for the rest of the tooth.
    A disadvantage of this manufacturing process is the relatively large amount of time that results when carrying out the individual process steps. If the teeth are made of zirconium, they must be manually processed and colored after being machined in the presintered state before they can be sintered to their final density. These steps require years of experience and expertise.
    If the teeth are made of plastic, the raw block of plastic can already be color matched so that a subsequent coloring is no longer necessary. This would be possible, for example, with multilayer blocks. But even these teeth need to be machined by hand after mechanical production, which requires certain manual skills.
    Another option is to use a manual prosthesis in which a plaster model has to be made. In the case of a full denture, this plaster model has no teeth. Subsequently, a wax layer is applied to the plaster model, which represents the gingival area. In this wax layer already finished teeth are then pressed in the space provided for them. The final result is a plaster model with a gingival structure and placed teeth. On the whole, this then optically corresponds to the final dental prosthesis.
    In the next step, the plaster model is removed from the rest and the prosthesis is embedded in a cuvette. Then the second half is placed on this one half of the cuvette and the remaining gap filled with plaster.
    In the subsequent step, the wax is then removed with hot water, but the teeth are held over the plaster in your position. This cavity, which has arisen due to the flushed out wax, is then filled with plastic (either hot or cold polymer). After this has cured, the finished prosthesis can be removed from its shape. There are a few more manual steps to perform, such as cleaning, reworking and polishing.
    A disadvantage is also in this manufacturing process, the relatively large amount of time. In addition, the application of a wax layer is relatively complicated and inefficient.
    In contrast, it is already known from the generic WO 2014/134640 A1 to produce a gum body and to attach at least one prosthetic tooth to this gum body. In particular, this WO 2014/134640 A1 shows a method for the automated production of a gum body made of plastic for a partial or total dental prosthesis, wherein the gum body has blind holes for the denture teeth. This method necessarily requires the time-consuming creation of a wax provisional with wax provisional receiving recesses for the denture teeth. The gum body is produced in a casting or stuffing process with the help of the wax temporary receiving recesses.
    In general, it is usually the case with dental prostheses and in methods for their preparation that the gingival body on its back (apical side), which is to be arranged on a ridge of the patient, material-removing edit to ensure the fit with the alveolar ridge of the patient. In contrast, the denture teeth should already have their final shape, so that a material-removing processing of denture teeth should not necessarily be required. However, it has turned out that such a process is sometimes necessary. This is done before attaching the denture teeth on the gum body in a relatively complex independent process step.
    An object of the present invention is to overcome the disadvantages known from the prior art. In particular, the dental prosthesis should be easier to manufacture.
    In previous dental prostheses, it is common that the available prosthetic teeth have a certain standard length. The gum body, in turn, is not always the same depending on the individual patient. Therefore, it may be necessary for the prosthetic tooth used to be cut to the correct length prior to attachment to the gum body, which is difficult to achieve exactly manually.
    In order to perform such a lengthening, it is known from EP 2 571 451 B1 to use an additional prosthesis tooth carrier. The prosthetic teeth are thereby embedded or cast with their crown area in a carrier layer of the denture tooth carrier so that the cervical and root area of the denture teeth looks out of the carrier layer and is processed or shortened by means of suitable milling devices. The disadvantage here is that for the lengthening of the additional complex step of converting the teeth is required in the separate prosthesis tooth carrier. In addition, the crown area can be damaged by embedding or pouring.
    Another object of the present invention is therefore to remedy these problems. In particular, a possible adaptation of prosthetic teeth to the thickness of the gum body in the region of the attachment site for the prosthetic tooth should be simplified.
    This is achieved by a method having the features of claim 1 and a dental prosthesis having the features of claim 8. Preferred embodiments are specified in the subclaims.
    Because, on the one hand, the material-removing machining of the back of the gum body takes place only when the at least one prosthetic tooth is already attached to the gum body, any required material-removing machining of the at least one denture tooth in a milling machine (preferably a CNC milling machine) in one operation with the anyway be made Edit the back of the gum body done without a re-clamping or a separate clamping and editing of the teeth is required. On the other hand, or alternatively, after attaching the at least one prosthetic tooth to the gingival body material-removing processing of at least one denture tooth in a region of the denture tooth facing the back of the gum body, is a simple cutting to length of the apical side of the prosthetic tooth - even without (re) processing of the apical Side (back) of the gum body - possible.
    To simplify the processing of the dental prosthesis, it is preferably provided that both the material-removing processing of the back of the gum body and the material-removing processing of at least one prosthetic tooth in that area (apical area) takes place, which faces the back of the gum body , Thus, a material-removing processing of the gum body and denture tooth at the same time - that is, in one operation without moving the dental prosthesis, without setting change in the modeling software and without exchange of a machining tool - done. In particular, a possible cutting of the at least one prosthetic tooth can thereby be carried out, so that it is preferably flush with the back of the gum body.
    It can be provided that the gum body has a through hole for the arrangement of the at least one denture tooth and the at least one denture tooth is inserted during fastening in the through hole such that it projects beyond the rear side of the gum body. Here, the material-removing machining of the at least one prosthetic tooth can first be carried out in the form of a cutting to length. Then - without re-tightening - by ensuring the back of the gum body and the cut prosthetic tooth its flush with the gum body ensured. On the other hand, it may also be that a through hole is present, but the prosthetic tooth does not protrude over the back of the gum body but only accessible via the back. Here, during the processing of the back of the gum body from a certain point on the prosthetic tooth is then worked.
    Alternatively it can be provided that the gum body has a blind hole for the arrangement of the at least one denture tooth. In this case, either the back side of the gum body can only be material-removed to such an extent that the at least one prosthetic tooth does not come to the back. However, it can also be provided that the back of the gum body is first removed (for example, milled off) until the at least one denture tooth emerges. Depending on the length of the at least one prosthetic tooth, the processing is continued until the desired length of the at least one denture tooth or the desired thickness of the gum body is achieved.
    According to a preferred embodiment, it may further be provided that, after the attachment of the at least one denture tooth, the at least one denture tooth is material-removed in that area (occlusal area) which faces away from the rear side of the gum body and / or that side (occlusal side) of the gum body Gum body is removed material that is opposite to the back of the gum body. As a result, on the one hand adhesive residues can be removed and on the other hand can be improved by a manual insertion of the at least one prosthetic tooth inaccuracy. Optionally, it may be provided that the geometry and, if present, any deviations (deliberate layering or unintentional supernatant) are still detected visually, preferably after a fixation of the at least one denture tooth and before further processing, preferably with a 3D scanner. Then the material-removing processing of at least the deviations takes place, whereby the dental prosthesis is adapted to a desired or stored geometry.
    The through hole or blind hole for fastening the at least one denture tooth can be made or executed conically. The through hole or blind hole can be made or executed deviating from a circular shape to produce an anti-rotation device for the at least one denture tooth.
    Protection is also desired for a partial or total dental prosthesis for a patient, the dental prosthesis having a gum body and at least one denture tooth located on the gum body, the gum body having a through hole for disposing the at least one denture tooth into which the at least one denture tooth is inserted. The use of a through-hole allows maximization of the contact area between the at least one prosthetic tooth and the gum body. In addition, there is a better replica of a natural dentition compared to the use of integrally formed with the gum body Befestigungsstümpfen on which the prosthetic teeth are placed because there the gum body in the region of the mounting stump has a notch, so that the approach of the prosthetic tooth clean and not from the outside is embedded in the gum body. By contrast, in the case of the invention, a clean edge is present in this area.
    It is preferably provided that the gum body has a rear side, which is to be arranged on a ridge of the patient and the at least one denture tooth is arranged flush with the back of the gum body.
    The at least one denture tooth and / or the gum body can / can for example consist of a thermoplastic material. Concrete examples are PMMA, PC, ABS, PE, PP, PEEK, PA, POM, PVDF, PET, PBT and the like. Of course, the denture tooth or the gum body can also have a multilayer structure and have color adaptations. Of course, the invention should not be limited to these materials. Basically, this workflow can also be used in the use of thermosets, dental metals (such as titanium or chromium-cobalt alloys) or ceramics. Also combinations of the mentioned materials are possible.
    It should also be mentioned that the at least one prosthetic tooth can either be prefabricated or prefabricated (without machining of the denture tooth by the dental technician prior to attachment to the gum body) or can be made individually (eg by milling). At least in the second case, the apical side can already be adapted by the dental technician in a previous step essentially to its final shape.
    Preferably, it is further provided that the gum body is provided with a plurality of prosthetic teeth. It can also be provided that an interconnected, preferably prefabricated, group of prosthetic teeth is used.
    Further details and advantages of the present invention will be explained in more detail below with reference to the description of the figures with reference to the exemplary embodiments illustrated in the drawings. Show:
    1 shows a blank for a dental prosthesis,
    Fig. 2 shows the blank of FIG. 1 with milled front of the
    Gum body,
    3 shows the blank according to FIG. 2 with inserted denture teeth, FIG.
    Fig. 4 shows the blank of FIG. 3 with further milled gum body in a front view.
    5 shows the back to FIG. 4,
    6 shows the finished dental prosthesis in a front view,
    7 is the rear view of FIG. 6,
    8 is a side view of FIG. 6,
    Fig. 9a, b sectional views of FIG. 3rd
    Fig. 10a, b sectional views of a variant of the embodiment shown in Fig. 3.
    In Fig. 1, a cylindrically shaped blank 7 can be seen, from which the gum body 2 of the dental prosthesis 1 is milled by a CNC milling machine, not shown.
    In Fig. 2, the state of the blank 7 is shown, after which the front side (occlusal side) of the gum body 2 has been milled. Recognizable here are formed as through holes 5 receptacles for prosthetic teeth not shown 3. Other than shown, the images could also be formed as blind holes 6 (see Fig. 10a and 10b).
    Fig. 3 shows the blank 7, wherein the prosthetic teeth 3 (which were separately prepared) inserted into the through holes 5 and fixed, preferably glued, fused or pressed.
    Fig. 4 shows the blank 7 of FIG. 3 with further milled gum body 2 in a front view. The gum body 2 is connected only by a series of webs 8 with the rest of the blank 7.
    FIG. 5 shows the rear view of FIG. 4. It can be seen that the prosthetic teeth 3 are visible or accessible on the rear side 4 and terminate flush therewith. In the transition from Fig. 3 to Figs. 4 and 5, the respective supernatant of the prosthetic teeth 3 on the back 4 (apical side) was removed. This was done simultaneously with the material-removing machining of the gum body 2.
    In Fig. 6, the dental prosthesis 1 was separated from the rest of the blank 7. 7 (rear view) and 8 (side view) show further views of the dental prosthesis 1.
    FIG. 9 a shows a sectional view through the blank 7 according to FIG. 3. A prosthetic tooth 3 which has been inserted into a through-hole 5-indicated by the dashed line-of the blank 7 can be seen. The back 4 of the blank 7 and the gum body 2 has not been processed material removal.
    In contrast, in Fig. 9b, the back 4 of the gum body 2 and the given supernatant 9 (hatched shown in Fig. 9a) of the prosthetic tooth 3 processed material removal. As a result, both a part of the gum body 2 and a part of the prosthetic tooth 3 was removed. As can be seen, the back 4 of the gum body 2 is flush with the prosthetic tooth 3 completed.
    Fig. 10a shows a sectional view through the blank 7 according to a variant of Fig. 3. Visible is a prosthetic tooth 3, which was in a blind hole 6 - indicated by the dashed line - of the blank 7 was used. The back 4 of the gum body 2 has not been processed material removal.
    In contrast, in Fig. 10b, the back 4 of the gum body 2 processed material removal. As a result, both a part of the gum body 2 and a part of the prosthetic tooth 3 (see hatched area in FIG. 10 a) were removed. As can be seen, the back 4 of the gum body 2 is flush with the prosthetic tooth 3 completed. It is also possible that it does not come at all that the blind hole 6 is broken by the material-removing processing of the back 4 and thus at least one of the prosthetic teeth 3 may not even processed back.
    LIST OF REFERENCES: 1 dental prosthesis 2 gum body 3 prosthetic tooth 4 back side of the gum body 5 through hole 6 blind hole 7 blank 8 webs 9 projection
    Innsbruck, on the 26th of February 2015
    权利要求:
    Claims (9)
    [1]
    claims:
    1. A method for producing a total or partial dental prosthesis (1) for a patient, wherein the dental prosthesis (1) has a gum body (2) and at least one gum body (2) prosthetic tooth (3) and the gum body (2) has a back (4), which is to be arranged on a ridge of the patient, with the following steps: - producing the gum body (2), - attaching the at least one denture tooth (3) on the gum body (2), characterized in that after fixing the at least a denture tooth (3) on the gum body (2) - a material-removing machining of the back (4) of the gum body (2) and / or - a material-removing machining of the at least one denture tooth (3) in one of the back (4) of the gum body (2) facing region of the prosthetic tooth (3).
    [2]
    2. The method of claim 1, wherein in one operation, the material-removing processing of the back (4) of the gum body (2) as well as the material-removing processing of at least one denture tooth (3) in that area, which the back (4) of the gum body ( 2) faces.
    [3]
    3. The method according to claim 1 or 2, wherein the gum body (2) has a through hole (5) for arranging the at least one denture tooth (3) and the at least one denture tooth (3) is thus inserted into the through hole (5) during fastening. in that the prosthetic tooth (3) can be reached via the rear side (4) of the gum body (2), preferably projecting.
    [4]
    4. The method according to claim 1 or 2, wherein the gum body (2) has a blind hole (6) for arranging the at least one prosthetic tooth (3).
    [5]
    5. The method according to at least one of the preceding claims, wherein after attaching the at least one denture tooth (3) - the at least one prosthetic tooth (3) is processed in that area material removal, which faces away from the back (4) of the gum body (2) and / or - that side of the gum body (2) is removed material removal, which is the back (4) of the gum body (2) opposite.
    [6]
    6. The method according to at least one of the preceding claims, wherein the material removal machining is a milling operation.
    [7]
    7. The method according to at least one of the preceding claims, wherein the fastening of the at least one denture tooth (3) on the gum body (2) by gluing, fusing or pressing done.
    [8]
    8. Partial or total dental prosthesis (1) for a patient, the dental prosthesis (1) having a gum body (2) and at least one gum body (2) prosthetic tooth (3), characterized in that the gum body (2) has a through hole (5) for the arrangement of the at least one prosthetic tooth (3), in which the at least one prosthetic tooth (3) is inserted.
    [9]
    9. dental prosthesis according to claim 8, wherein the gum body (2) has a back (4) which is to be arranged on a ridge of the patient and the at least one prosthetic tooth (3) is flush with the back (4) of the gum body (2) , Innsbruck, on the 26th of February 2015
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    同族专利:
    公开号 | 公开日
    AT516747B1|2016-08-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CH467616A|1963-04-02|1969-01-31|Cleveland Smith Clark|Process for the manufacture of dentures|
    DE102011118320A1|2011-11-11|2013-05-16|Merz Dental Gmbh|Milling block, milling block system and corresponding manufacturing method thereof|
    EP2742906A1|2012-12-17|2014-06-18|Ivoclar Vivadent AG|Method and system for creating a dental prosthesis|
    DE202015100271U1|2015-01-22|2015-02-18|Ivoclar Vivadent Ag|Prostheses generating device|
    AT522091B1|2019-03-21|2020-08-15|Steger Heinrich|Method for producing a dental prosthesis|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50155/2015A|AT516747B1|2015-02-26|2015-02-26|Method for producing a dental prosthesis|ATA50155/2015A| AT516747B1|2015-02-26|2015-02-26|Method for producing a dental prosthesis|
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