• 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:
    Scanbody suitable for determining a position of a dental implant in a jaw with the aid of a scanner (4), the scanbody (1) having at least one scanning surface (2) for detection by the scanner (4), the at least one scanning surface (2) is made of metal and that the at least one scanning surface (2) is treated by anodic oxidation.
    公开号:AT514320A4
    申请号:T898/2013
    申请日:2013-11-20
    公开日:2014-12-15
    发明作者:
    申请人:Steger Heinrich;
    IPC主号:
    专利说明:

    1 ·· ·· ··· ·· 72869 32 / fr # ···················································································· ·· · · 1 · · ·· ····"· · ··
    The present invention relates to a scanbody having the features of the preamble of claim 1 and to a method for producing such a scanbody.
    Generic Scanbodies are used to determine a position of a dental implant in a jaw using a scanner. As a rule, an impression of a jaw, which contains the dental implant, is created. Usually a so-called laboratory implant is used for the modeling of the dental implant. These laboratory implants have the same geometric shape as the associated dental implants, but are significantly less expensive since they need not be suitable for insertion into a human jaw.
    The scanbody is then attached to the lab analog and examined with an optical scanner. The optical scanner detects the position of scanning surfaces on the scanbody and thus closes on the exact location of scanbody and laboratory implant and thus the exact position of the dental implant in the jaw. This information is important for the dental technician for the most lifelike imitation of a tooth to be imitated.
    However, it is also possible to determine the position of a dental implant directly in the jaw, without creating an impression. This can be done with a handheld scanner, for example.
    When choosing the material for the scanbody are in principle metals or plastics to choose from. Normally Scanbodys (also: Scan Marker) made of stainless steel are machined. Plastics are not optimally suited because they can not meet the exact dimensions required by generic scanbodies because of their mechanical properties over a longer period of time. A disadvantage of metallic scanbodies is that they have a reflective surface, which is difficult to detect for common scanners. To avoid this problem, scan sprays are mostly used. On the one hand, these give the scanner a suitable - mostly white - color, but have the disadvantage that a layer of scanning spray on the scanning surfaces of the scanbody 2/14 ·· ·· ··· ·· ♦♦ • 2 · · · · · • · ··············································································································································································· Due to the fact that different thicknesses of scan spray are applied by the operators in different cases, this is particularly disadvantageous because not only does a systematic measurement error occur but the geometry of the scan module changes completely uncontrolled.
    The object of the invention is to provide a scanbody which, without the use of scan spray, enables accurate measurement results for a long time in the determination of the position of dental implants or laboratory implants. Furthermore, a method for producing such a scanbody is to be provided.
    This object is achieved by a scanbody having the features of claim 1 and a method having the features of claim 6.
    Because the at least one scanning surface of the Scanbodys is made of metal and treated by anodic oxidation, resulting in a durable surface that can be designed so that they are easily recognizable by popular scanners. In particular, the at least one scanning surface of a scanbody according to the invention is therefore more easily recognizable by the scanner, since a matting effect occurs due to the anodic oxidation. The scanner does not have to deal with annoying reflections.
    In the anodic oxidation of metals, the introduction of the workpiece into a suitable electrolyte and the application of a voltage results in the formation of an oxide layer on the workpiece. If this method is applied to a workpiece made of aluminum or an aluminum alloy, it is called the electrolytic oxidation of aluminum, or in short an anodizing process.
    Further advantageous embodiments of the invention are defined in the dependent claims.
    It can be provided that the at least one scanning surface is made of - preferably substantially pure - aluminum or an aluminum alloy. 3/14 • • • • • • • • • • • • • • • • • • • • · · · ·
    · · · · · · «« · · · «« · ≪ ·· M 72869 32 / fr
    Aluminum is less expensive and easier to handle than standard stainless steel.
    In order to meet current scanners as well as possible, it can be provided that the at least one scanning surface is substantially white by means of the anodic oxidation or the anodizing process.
    In order to be able to control the dimensions of the scanbody as precisely as possible, it is preferably provided that the scanbody is manufactured in one piece.
    Well-controlled dimensions of the scanbody can also be achieved by making the scanbody by turning and / or milling. For a simple and at the same time secure attachment of the scanbody to a dental implant or a laboratory implant, it can be provided that the scanbody has a recess. The scanbody can then be attached to the dental implant or laboratory implant by means of a screw passing through the recess.
    In a preferred embodiment, the at least one scanning surface is treated by sandblasting, which may contribute to a further matting of the at least one scanning surface. The sandblasting is preferably carried out before the anodic oxidation or the anodizing process.
    Further advantages and details of the invention will become apparent from the figures and the associated description of the figures. Further, an example of performing the anodization is given. Show it
    1 a to 1 c are perspective views of a scanbody mounted on an impression of a jaw,
    2a to 2d a side view, a front view, a plan view and a perspective view of a scanbody according to the invention, and FIG. 4a. ♦ ♦ · · ♦ ··
    Fig. 3a and 3b
    Illustrations of an optical scanner for detecting the position of the scan machine.
    FIG. 1a shows a perspective view of a scanbody 1 and an impression model 3 of a jaw with two laboratory implants, the scanbody 1 being fastened on one of the laboratory implants. The scanbody 1 has four scanning surfaces 2, two of which can be seen in this illustration.
    Figure 1b shows another perspective view of the article of Figure 1a. In this case, the other two scanning surfaces 2 of the scanbody 1 can be seen.
    FIG. 1c shows a detailed representation from FIG. 1b (illustrated there by a circle). In addition to the two scanning surfaces 2, the cylindrical recess 5 is now recognizable. By means of a guided through the recess 5 screw the scanbody 1 is attached to the laboratory implant. However, the type of attachment is not important to the present invention and known to those skilled in the art.
    Furthermore, a side view (FIG. 2 a), a front view (FIG. 2 b), a top view (FIG. 2 c) and a perspective view (FIG. 2 d) of the scanbody 1 are shown. Again, scan surfaces 2 and the recess 5 can be seen. The scanbody 1 and in particular the scanning surfaces 2 are milled in one piece from aluminum in this embodiment and then dyed white by means of the anodizing process described in the example.
    Figures 3a and 3b show the optical scanner 4, in which the structure of Figures 1a to 1c has been fixed. This can be seen more precisely in the detailed illustration in FIG. 3b.
    One difficulty with the anodic oxidation of aluminum is to achieve a surface that is white and as matt as possible. This can be achieved with the example shown below. 5/14 • t ····· I ··················································· 5; • ·· · · · 72869 32 / fr
    Example:
    The following devices are required to perform the coating: - Heating and stirring plate, - Laboratory power supply (The more powerful the power supply is, the better the anodizing process works.) - Beakers for the electrolyte, for rinsing and pickling, - Cable with crocodile clips, - Brackets for the poles and - niobium as material for the cathodes or anodes.
    To prepare the electrolyte, the following substances are mixed in a beaker and heated to 60 ° C: - 25g potassium titania-oxalate dihydrate C4K209Ti2H20 (CAS 14402-67-6), - 6g boric acid H3BO3, - 0.6g oxalic acid dihydrate C2H204 (CAS 6153-56-6) and - 0,5l distilled water H20.
    The electrolyte is stirred constantly - preferably with a magnetic stirrer at level 1-3.
    Steps: - Degreasing of the workpiece by means of 5-10% sodium hydroxide solution (aqueous solution of sodium hydroxide NaOH): The scanbody 1 is placed in the caustic soda solution and stained for about 15 minutes, - Short rinsing with distilled water, - Anodic oxidation: The cathode material becomes connected to the negative terminal of the power supply and placed in the pre-heated electrolyte. The scanbody 1 to be treated is also placed in the electrolyte solution on a support material serving as an anode. - The power supply is activated at a voltage of 124V and maximum amperage. Due to the layer formation, the current drops in succession. 6/14 - Once the current has settled to approximately 0.2A, it will be maintained for 15 minutes to allow the layer to grow. - Then the Scanbody 1 is removed from the electrolyte and rinsed immediately with water and acetone and dried with air
    The present invention is not limited to the embodiment shown here. For example, it is by no means necessary that the scanning surfaces 2 are colored white. It is easily conceivable to color the scanning surfaces 2 in a different color and to tune the scanner to the other color.
    Innsbruck, 19 November 2013
    权利要求:
    Claims (12)
    [1]
    ··· · ··· · · · ·: :: :: ::. 1. Scanbody suitable for determining a position of a dental implant in a jaw by means of a scanner (4), wherein the scanbody (1) via at least one scanning surface (2) for detection by the Scanner (4), characterized in that the at least one scanning surface (2) is made of metal and that the at least one scanning surface (2) is treated by anodic oxidation.
    [2]
    2. Scanbody according to claim 1, characterized in that the at least one scanning surface (2) is made of - preferably substantially pure - aluminum or an aluminum alloy.
    [3]
    3. scanbody according to claim 1 or 2, characterized in that the at least one scanning surface (2) by means of the anodic oxidation is substantially colored white.
    [4]
    4. scanbody according to at least one of claims 1 to 3, characterized in that the scanbody (1) has exactly four scanning surfaces (2).
    [5]
    5. scanbody according to at least one of claims 1 to 4, characterized in that the scanbody (1) has a recess (5) for attachment to a dental implant or the impression (3) of a dental implant.
    [6]
    6. A method for producing a scanbody, characterized in that a metallic body of Scanbodys (1) with at least one scanning surface (2) is made and the at least one scanning surface (2) is treated by anodic oxidation.
    [7]
    7. The method according to claim 6, characterized in that in the anodic oxidation, an electrolyte is used which contains between 5 g and 100 g, preferably between 25 g and 75 g and particularly preferably 50 g, of potassium titanium oxide oxalate dihydrate per liter H20. 8/14 ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• · · · · · · · · «· 72869 32/32
    [8]
    8. The method according to claim 6 or 7, characterized in that in the anodic oxidation, an electrolyte is used which has between 1 g and 50 g, preferably between 5 g and 25 g and more preferably 12 g, boric acid per liter of H20.
    [9]
    9. The method according to any one of claims 6 to 8, characterized in that in the anodic oxidation, an electrolyte is used which contains between 0.1 g and 10 g, preferably between 0.5 g and 5 g and more preferably 1.2 g , Oxalic acid dihydrate per liter H20.
    [10]
    10. The method according to any one of claims 6 to 9, characterized in that the scanbody (1) is made in one piece.
    [11]
    11. The method according to at least one of claims 6 to 10, characterized in that the scanbody (1) is made by turning and / or milling.
    [12]
    12. The method according to at least one of claims 6 to 11, characterized in that the at least one scanning surface (2) is treated by sandblasting. Innsbruck, November 19, 2013 9/14
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    同族专利:
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    EP2875793A1|2015-05-27|
    AT514320B1|2014-12-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO1998051231A1|1997-05-16|1998-11-19|Nobel Biocare Ab|An implant element|
    EP2351536A1|2010-02-02|2011-08-03|Straumann Holding AG|Multi-functional adapter for an implant-supported dental prosthesis|
    EP2457536A2|2010-11-29|2012-05-30|nt-trading GmbH & Co. KG|Scan body for determining a position and orientation of a dental implant|US20180049848A1|2015-03-25|2018-02-22|MIS Implants Technologies Ltd.|Dental scan post and manufacturing process thereof|KR101697162B1|2009-02-26|2017-01-17|노벨 바이오케어 서비시스 아게|Device for indicating the position and orientation of a dental implant|
    JP2011014612A|2009-06-30|2011-01-20|Ibiden Co Ltd|Wiring board and method for manufacturing wiring board|
    EP2462893B8|2010-12-07|2014-12-10|Biomet 3i, LLC|Universal scanning member for use on dental implant and dental implant analogs|AT15364U3|2016-09-05|2018-01-15|Bloier Karl|scanbody|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA898/2013A|AT514320B1|2013-11-20|2013-11-20|scanbody|ATA898/2013A| AT514320B1|2013-11-20|2013-11-20|scanbody|
    EP14003866.2A| EP2875793A1|2013-11-20|2014-11-17|Scanbody|
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