• 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:
    Arrangement (1) for sintering a dental workpiece (2), with a machined dental workpiece (2) and a holding device (3) for the dental workpiece (2), the dental workpiece (2) having a size of a dental construction (4) with at least five, preferably with at least eight, interconnected links (5), the dental workpiece (2) is suspended on the holding device (3) and the dental workpiece (2) via a dental workpiece or piece (2) formed by the dental structure (4) separate connector ( 6) connected to the holding device (3) or is connectable.
    公开号:AT516076A2
    申请号:T569/2014
    申请日:2014-07-18
    公开日:2016-02-15
    发明作者:
    申请人:Steger Heinrich;
    IPC主号:
    专利说明:

    The invention relates to an arrangement for sintering a dental workpiece, with a machined dental workpiece and a holding device for the dental workpiece. In addition, the invention relates to a method for sintering a dental workpiece.
    In the manufacture of dental workpieces, z. B. from sintered metal parts, there is a great challenge in the sintering of the green compacts. For more complex work, especially in the dental field, it is of great importance that there is no undesirable delay in the work during sintering. So it was only possible to make smaller bridge work without problematic delay.
    Various possibilities are already known from the prior art in order to improve the sintering process, but all known methods have disadvantages.
    For example, EP 1 154 969 B1 discloses a method for dimensionally stable sintering of ceramic molded articles. Such a ceramic molded article may, for. B. be a dental prosthesis. In this document, it is stated that the kiln is suspended by hooks, which hooks are made of refractory material, such as alumina. The suspension can also be done via movably mounted hooks. It is also stated that retaining pins are made of the same material as the kiln. For example, the retaining pins are made of the same blank. A disadvantage of this method is that the suspension must be done via at least two hooks, which means a greater material and manufacturing costs. Furthermore, the center of gravity and the exact position of the dental workpiece must always be adjusted. In addition, the hooks always directly touch the dental workpiece or the molded article, which can leave unwanted impressions during sintering,
    EP 1 868 961 B1 discloses a device for dimensionally stable sintering of preformed ceramic dental articles, comprising a suspension system. This suspension system has a U-shaped swing. Again, it is disadvantageous that the suspension always takes place over at least two suspension elements. Again, it is disadvantageous that these chewable suspension elements lie directly on the ceramic dental article.
    Furthermore, reference may be made to EP 2 014 254 A1, which shows a bridge structure which is connected to a support body via connecting elements (retaining sections). For example, from Fig. 6 of this document shows that the holding part, the connecting elements and the bridge structure are made in one piece. Such a construction, however, only makes sense in small, as shown in Fig. 6, three-part dental workpieces, which even with these quite small dental workpieces must be used a lot of material for the surrounding the dental workpiece holding part. This brings a considerable material consumption and is very expensive. For this reason, EP 2 014 254 A1 also sets forth a further exemplary embodiment (see FIGS. 12 to 18), in which a rather large, multi-membered circular bridge is illustrated. This bridge is attached to a standing holding part in the form of a sintered foot. This sintering foot is connected via small webs with the individual teeth. The standing or sintering foot serves primarily to prevent the teeth from coming into contact with the combustion chamber. Now, if this standing on the stand bridge is sintered, it can lead to a large delay; In the lateral areas of this delay is still relatively low, because there the gravity acts evenly on all members. In the upper area, however, it can happen during sintering that the individual members tilt away due to the thin connecting elements to the rear or front, so that an undesirable distortion occurs. That is, the fasteners are subjected to pressure, it comes to a shortening of the softening during sintering fasteners and thus almost inevitably to said tilting or to an undesirable bending.
    The object of the present invention is therefore to provide a comparison with the prior art improved arrangement or an improved method. In particular, should not occur during sintering as possible distortion, the material requirement be low and the surface of the dental workpiece are not affected.
    This is achieved by an arrangement having the features of claim 1. Accordingly, it is provided that the dental workpiece corresponds in size to a dental construction with at least five, preferably at least eight, interconnected members (preferably corresponds each member at least partially a tooth replacement of a single human tooth), the dental workpiece is suspended from the holding device and the dental workpiece via a formed in or on the dental workpiece, separate from the dental constructional connector with the holding device is connected or connectable. This creates a possibility to produce even large dental workpieces without distortion, with little material consumption and without unwanted impressions. The delay is mainly prevented by the fact that the dental workpiece is suspended from the holding device. The impressions on the dental workpiece are mainly avoided by the separate from the dental construction connector. A large material wear is avoided by the fact that in large, at least five-unit dental constructions no complicated additional, integral with the dental workpiece holding components must be provided around the limbs of the dental workpiece around, but are only partially arranged on one side of the dental workpiece. By hanging the dental workpiece can be achieved in addition that the work is achieved evenly by heat radiation.
    The dental structure can in principle have quite long straight sections, the dental structure having at least five limbs. Each member corresponds to - at least partially - a dental prosthesis of a single human tooth. The individual members of the dental structure do not have to correspond in each case a complete tooth and thus not the dental structure a complete dentition. Rather, individual areas or members can indeed be designed so that it is built on this later and thereby the complete tooth shape of each individual member is created. This is the case, for example, with a so-called bridge. Therefore, these members must only correspond to areas of a later denture.
    Preferably, however, it is provided that the dental structure is formed at least partially circular. That is, the dental structure already has a curvature that corresponds to a natural curvature or bend in the human dentition. If the dental structure has at least eight limbs, this curvature or bend is even more noticeable. The present invention brings particular advantages when the dental construction is completely circular. Completely circular means that the dental structure is at least 12- to 16-membered. In other words, it is thus preferably provided that the dental structure is designed as a bridge construction which is at least partially, preferably completely, circularly shaped, or as a bridge which is at least partially, preferably completely, circularly shaped. For a structurally simple design with little material consumption is preferably provided that the dental workpiece has connecting webs and a base member, wherein the dental structure is connected via the connecting webs with the base member. For a sufficient grip, it is enough in itself, if only two or three connecting webs are provided in total. For a particularly good hold and for little distortion, however, it is preferably provided that each member of the dental structure is connected via a respective connecting web with the base element. The suspension here has the particular advantage that then the softening during sintering fasteners are largely claimed to train. This results in at most a slight stretching or elongation of the connecting elements, but there is no bending or tilting. The dental workpiece can be produced particularly efficiently if the dental construction, the connecting webs and the base element are integrally formed and form the machined dental workpiece. For a low material consumption is also provided that the base member is plate-shaped. The connecting webs are separated from the dental structure after sintering, preferably by a separating device.
    The basic design of the connecting piece is arbitrary per se, as long as with or above this connector the hanging of the dental workpiece on the holding device is made possible and this connecting piece is formed separately from the dental structure. For a simple and uncomplicated training, however, it is preferably provided that the connecting piece is formed as a recess or as a projection in the base element. In principle, it is already possible here for two or more such connecting pieces to be provided. However, it is preferably provided for a simple and rapid production that only one connecting piece is formed in or on the base element. Especially in order to enable a safe and accurate hanging, it is preferably provided that the connecting piece lies on a central axis of the dental workpiece. This central axis corresponds to the left-right dividing plane of the human body and thus also of the human dentition. The suspension on this central axis also guarantees suspension in the center of gravity. Particularly preferably, the connecting piece is arranged or formed as possible in the center of the circular dental structure. A suspension element is preferably provided for carrying out the suspension, the dental workpiece being suspended on the holding device via the suspension element, preferably via a single suspension element. With regard to this suspension element, there are different variants.
    According to such an embodiment, it is provided that the suspension element is formed by the connecting piece designed as a projection and is releasably connected to a recess formed in the holding device, which forms a connection counterpart. In this variant, therefore, during production or milling of the dental workpiece, this projection must remain in the region of the base element, via which the dental workpiece is then suspended directly in the holding device.
    According to an alternative embodiment, however, the reverse construction is also possible, according to which the suspension element is designed as a counterpart piece separate from the dental workpiece, the suspension element being releasably connected to the dental workpiece via the connecting piece formed as a recess in the dental workpiece. Thus, the suspension element (= connecting counterpart) protrudes into the recess (connecting piece), whereby the dental workpiece is held suspended from the connection counterpart. In this variant, there are again two different embodiments.
    According to a first embodiment, it is provided that the suspension element is designed as formed on the holding device, integral with the holding projection, Thus, again only two parts - namely the dental workpiece and the holding device - provided, with just the suspension element in one piece with the holding device is trained.
    According to a second preferred embodiment, however, it is provided that the suspension element is formed separately from the holding device and is movably mounted on the holding device. This suspension element can be made of any material (or of a material mixture), which withstands the temperature stresses during sintering. Preferably, ceramic, metal or metal alloys are used. In this embodiment, therefore, the entire arrangement consists of three separate components, namely the dental workpiece, the holding device and the separate suspension element. In this case, it is preferably provided that the suspension element is movably mounted on a recess formed in the holding device, preferably oriented horizontally. For a particularly simple training and secure fit is provided that the, preferably bolt-shaped, suspension element (corresponds to the connection counterpart) protrudes with suspended dental workpiece both through the recess in the holder and through the, the connector forming recess in the base member of the dental workpiece.
    The design of the holding device is also arbitrary, as long as a secure hanging of the dental workpiece is guaranteed. However, a simple construction provides that the holding device has two lateral, preferably disk-shaped, uprights and a carrier connecting the uprights. Particularly preferably, the holding device consists essentially of alumina foam.
    The dental workpiece can be made of zircon or other sinterable materials. Preferably, however, the dental workpiece consists essentially of dental metals, such as a chromium-cobalt alloy. Since with dental metals the risk of distortion is even greater than with zircon or other sinterable materials, the present invention is particularly well suited for such dental metal work.
    In addition to the dental workpiece and the holding device, the arrangement has a sintering furnace, wherein the holding device, together with the dental workpiece suspended thereon, is arranged during sintering in a furnace chamber of the sintering furnace. In order to ensure good stability and proper positioning of the dental workpiece during sintering, a closable, tubular housing is preferably provided, wherein the holding device together with the dental workpiece suspended therefrom is arranged in the housing during sintering in the furnace chamber of the sintering furnace. Particularly preferably, it is provided that the sintering furnace has a tower forming a door of the sintering furnace, wherein the housing projects through the attachment at least partially into the furnace chamber. For avoiding unwanted oxidation during sintering, a device is preferably provided for generating a vacuum in the housing or for introducing protective gas into the housing.
    The object of the present invention is also achieved by a method according to claim 24. In this method for sintering a dental workpiece with a dental workpiece, a holding device for the dental workpiece and a sintering furnace, the steps according to the invention are therefore processing of the dental workpiece so that the dental workpiece has a dental construction with at least eight links connected to one another (each limb being at least partially a denture) a single human tooth), hanging the dental workpiece on the holding device by connecting the dental workpiece with the holding device via a in or on
    Dental workpiece formed, separate from the dental construction connector and sintering, preferably oxygen-free sintering, provided on the holding device suspended dental workpiece.
    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 is a perspective view of the arrangement,
    2 is a side view of the arrangement,
    3 shows a furnace attachment during insertion of the arrangement,
    3a shows a detail of Fig. 3,
    4 is a front view of the essay,
    5 shows a section through the attachment and FIG. 5 a shows a detail from FIG. 5.
    1 and 2, an arrangement 1 is shown, which on the one hand, the holding device 3 and on the other hand, the processed dental workpiece 2 has. The holding device 3 comprises two lateral, disc-shaped pillars 12 which are connected by a carrier 13. This holding device 3 is formed in one piece and consists of a hard alumina foam. In contrast, the dental workpiece 2 z. B. zircon or dental metal. This dental workpiece 2 machined in a machining or milling device has an at least five-membered, preferably at least eight-membered, dental construction 4. The individual members 5 of this circular dental structure 4 are each connected via connecting webs 7 with a plate-shaped base element 8. In the central axis M of this dental workpiece 2, the connecting piece 6 is formed in the form of a recess in the base element 8. Upper the bolt-shaped suspension element 9 - which forms the connection counterpart 10 to the connector 6 - the dental workpiece 2 is suspended on the holding device 3, wherein the suspension element 9 is detachably connected in a recess 11 on the holding device 3. The suspension element 9 thus connects the dental workpiece 2 with the holding device 3. In this case, there is thus the
    Arrangement 1 of the three components dental workpiece 2, holding device 3 and suspension element 9.
    In contrast to the preferred embodiment according to FIGS. 1 and 2, the suspension can also be designed differently. For example, the connector 6 may be formed as a projection and directly into the recess 11 - which then forms the connection counterpart 10 - engage in the holding device 3. It is also possible that the suspension element 9 is integrally formed with the holding device 3 and thus protrudes from this and then the dental workpiece 2 is suspended on this suspension element 9 via the formed as a recess connecting piece 6.
    FIG. 3 shows an attachment 16 which forms a door of a sintering furnace 14. At this essay 16 door handles 21 are mounted. In Fig. 3a, the front part of this article 16 with the insertion opening 19 can be seen. From this insertion opening 19 also leads the connection 18 away, via which a connection with the only indicated by dashed lines device 17 for generating a vacuum or for the introduction of inert gas is connected.
    Fig. 4 shows a front view of the article 16, wherein here again the terminal 18 and the door handles 21 can be seen.
    Fig. 5 2eigt a section through the article 16, wherein the detachably held in the article 16, tubular housing 15 is shown. This housing 15 forms a vacuum sinter tube. The housing 15 can be closed by the closure lid 20, whereby after introduction of a protective gas or after generation of a vacuum via the connection 18, the dental workpiece 2 arranged in the housing 15 is sintered in the sintering furnace 14. The furnace housing 22 of the sintering furnace 14 is indicated in Fig. 5 only by dashed lines. However, it is readily apparent that the dental workpiece suspended on the holding device 3 is arranged in the oven space R (combustion chamber) of this sintering oven 14. In Fig. 5a is also clearly visible that the outer contour of the holding device 3 or in particular the disc-shaped post 12 is adapted to the inner contour of the tubular housing 15, whereby a secure hold is given.
    By hanging the at least five-membered dental workpiece 2 on a holding device 3 during sintering in a sintering oven 14 is guaranteed that there is no undesirable delay. Of course, the dental workpiece 2 can also be sintered directly in the furnace chamber R - ie without vacuum sintering tube or housing 15. Then the sintering furnace 14 is closed instead of the attachment 16 with a normal door. In such an application, the holding device 3, of course, also have a different shape with a flat standing surface.
    REFERENCE LIST. ' 1 arrangement 2 dental workpiece 3 holding device 4 dental construction 5 links 6 connecting piece 7 connecting webs 8 base element 9 suspension element 10 connecting counterpart 11 recess in holding device 12 upright 13 carrier 14 sintering oven 15 housing 16 attachment 17 device (for vacuum generation or inert gas introduction) 18 connection 19 insertion opening 20 closure cover 21 door handles 22 Furnace housing M Center axis R Furnace space
    Innsbruck, 18 July 2014
    权利要求:
    Claims (24)
    [1]
    1. arrangement (1) for sintering a dental workpiece (2), with a machined dental workpiece (2) and a holding device (3) for the dental workpiece (2), wherein - the dental workpiece (2) in terms of size of a dental structure (4) with at least five, preferably with at least eight, interconnected links (5) corresponds, - the dental workpiece (2) is suspended on the holding device (3) and - the dental workpiece (2) formed in or on the dental workpiece (2), of the Dental construction (4) separate connector (6) with the holding device (3) connected or connectable.
    [2]
    2. Arrangement according to claim 1, wherein the dental structure (4) as at least partially, preferably completely, circular-shaped bridge construction or as at least partially, preferably completely, circular-shaped web is formed.
    [3]
    3. Arrangement according to claim 1 or 2, wherein the dental workpiece (2) connecting webs (7) and a base member (8), wherein the dental structure (4) via the connecting webs (7) to the base element (8) is connected.
    [4]
    4. Arrangement according to claim 3, wherein each member (5) of the dental structure (4) via a respective connecting web (7) with the base element (8) is connected.
    [5]
    5. Arrangement according to claim 3 or 4, wherein the dental structure (4), the connecting webs (7) and the base element (8) are integrally formed and form the machined dental workpiece (2).
    [6]
    8. Arrangement according to one of claims 3 to 5, wherein the base element (8) is plate-shaped.
    [7]
    7. Arrangement according to one of claims 3 to 6, wherein the connecting piece (6) is designed as a recess or as a projection in the base element (8).
    [8]
    8. Arrangement according to one of claims 3 to 7, wherein in or on the base element (8) only one connecting piece (6) is formed.
    [9]
    9. Arrangement according to one of claims 3 to 8, wherein the connecting piece on a central axis (M) of the dental workpiece (2).
    [10]
    10. Arrangement according to one of claims 1 to 9, with a suspension member (9), wherein the dental workpiece (2) on the suspension member (9), preferably via a single suspension member (9), suspended on the holding device (3).
    [11]
    11 .Anordnung according to claim 10, wherein the suspension element (9) is formed by the projection formed as a connecting piece (6) and with a in the holding device (3) formed recess, which forms a connection counterpart (10) is detachably connected.
    [12]
    12. Arrangement according to claim 10, wherein the suspension element (9) as the dental workpiece (2) separate connection counterpart (10) is formed, wherein the suspension element (9) via the recess formed in the dental workpiece (2) connecting piece (6) with the dental workpiece (2) is releasably connected.
    [13]
    13. Arrangement according to claim 12, wherein the suspension element (9) as on the holding device (3) formed, with the holding device (3) integral projection is formed.
    [14]
    14. Arrangement according to claim 12, wherein the suspension element (9) of the holding device (3) separately formed and on the holding device (3) is movably mounted.
    [15]
    15. Arrangement according to claim 14, wherein the suspension element (9) on a in the holding device (3) formed, preferably horizontally aligned, recess (11) is movably mounted.
    [16]
    16. Arrangement according to claim 14 or 15, wherein the, preferably bolt-shaped, suspension element (9) with suspended dental workpiece (2) both by the recess (11) in the holding device (3) and by, the connecting piece (6) forming Recess in the base element (8) of the dental workpiece (2) protrudes.
    [17]
    17. Arrangement according to one of claims 1 to 16, wherein the holding device (3) has two lateral, preferably disc-shaped, uprights (12) and a support (13) connecting the uprights (12).
    [18]
    18. Arrangement according to one of claims 1 to 17, wherein the holding device (3) consists essentially of alumina foam.
    [19]
    19. Arrangement according to one of claims 1 to 18, wherein the dental workpiece (2) consists essentially of dental metal.
    [20]
    20. Arrangement according to one of claims 1 to 19, with a sintering furnace (14), wherein the holding device (3) together with the suspended dental workpiece (2) during sintering in a furnace chamber (R) of the sintering furnace (14) is arranged.
    [21]
    21. Arrangement according to claim 20, with a closable, tubular housing (15), wherein the holding device (3) together with the suspended dental workpiece (2) during sintering in the furnace chamber (R) of the sintering furnace (14) in the housing (15) is arranged.
    [22]
    22. Arrangement according to claim 21, wherein the sintering furnace (14) has a door of the sintering furnace (14) forming attachment (16), wherein the housing (15) protrudes through the attachment (16) at least partially into the furnace chamber (R) ,
    [23]
    23. Arrangement according to claim 21 or 22, with a device (17) for generating a vacuum in the housing (15) or for introducing inert gas into the housing (15).
    [24]
    24. A method for sintering a dental workpiece (2), comprising a dental workpiece (2), a holding device (3) for the dental workpiece (2) and a sintering furnace (14), comprising the steps of: - processing the dental workpiece (2) so that the Dental workpiece (2) has a dental construction (4) with at least five, preferably with at least eight, interconnected members (5), - hanging the dental workpiece (2) on the holding device (3) by veitinden the dental workpiece (2) with the holding device ( 3) via a formed in or on the dental workpiece (2), of the dental structure (4) separate connector (6) and - sintering, preferably oxygen-free sintering, of the holding device (3) suspended dental workpiece (2). Innsbruck, 18 July 2014
    类似技术:
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    DE211385C|
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    同族专利:
    公开号 | 公开日
    KR101737694B1|2017-05-18|
    ES2684622T3|2018-10-03|
    AT516076A3|2017-05-15|
    KR20160010381A|2016-01-27|
    EP2974689B1|2018-05-23|
    EP2974689A1|2016-01-20|
    AT516076B1|2017-05-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE19904523A1|1999-02-04|2000-08-10|Espe Dental Ag|Process for dimensionally accurate sintering of ceramics|
    EP1868961B1|2005-04-13|2009-10-14|3M Innovative Properties Company|Device and process for dimensionally stable sintering of ceramic pre-shaped articles|
    US20100291509A1|2007-06-07|2010-11-18|Nobel Biocare Services Ag|Method and arrangement for forming a dental bridge|
    DE102009044461A1|2009-11-06|2011-05-26|Degudent Gmbh|Dimensionally-true sintering or thorough sintering of milled molded article processed from blank including green body, preferably dental reconstruction, comprises connecting article with carrier body with article via web-like connection|
    US20140113248A1|2010-11-10|2014-04-24|Heraeus Dental Ab|Dental bridges and superstructures, and methods for manufacturing thereof|
    US4299567A|1980-02-01|1981-11-10|Asami Tanaka|Support structure|AT15966U1|2016-09-28|2018-10-15|Steger Heinrich|Process for sintering a dental structure|
    IT201700082547A1|2017-07-20|2019-01-20|Michael Oberhammer|Process for the production of elements by means of sintering, in particular dental prostheses or parts of dental prostheses and a structure made by means of said process|
    KR102325268B1|2021-04-08|2021-11-11|주식회사 디오|assembly type digital dental prosthesis|
    KR102325270B1|2021-04-08|2021-11-12|주식회사 디오|manufacturing method of assembly type digital dental prosthesis|
    法律状态:
    2020-03-15| MM01| Lapse because of not paying annual fees|Effective date: 20190718 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA569/2014A|AT516076B1|2014-07-18|2014-07-18|Apparatus for sintering a dental workpiece|ATA569/2014A| AT516076B1|2014-07-18|2014-07-18|Apparatus for sintering a dental workpiece|
    EP15002103.8A| EP2974689B1|2014-07-18|2015-07-15|Assembly for sintering a dental work piece|
    ES15002103.8T| ES2684622T3|2014-07-18|2015-07-15|Willingness to sinter a dental workpiece|
    KR1020150102001A| KR101737694B1|2014-07-18|2015-07-17|Arrangement for sintering a dental workpiece|
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