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Example: Implants

Revision as of 12:37, 13 September 2017 by Meinan (talk | contribs) (Created page with "この手順では、取得した画像を編集できます。この手順で利用できるオプションについて詳しくは、編集ツールのページを...")


このページでは、4つのインプラントとシリコンの歯肉部分のある1つのモデルをスキャンする例を、ウィザードに従って説明します。

このプロジェクトをExocadで作成するには、デスクトップでDentalDBアイコンをクリックします。プロジェクトマネージャーが開きます。

プロジェクト情報、設計する修復の種類、その他のパラメーターを入力します。この種類のプロジェクトでは、Implant type(インプラントタイプ)およびSeparated Gingiva(歯肉分離)を選択していることを確認して下さい。

Exocadでプロジェクトを作成する方法について詳しくは、Exocad Wiki!を参照して下さい。

今回のデモ用プロジェクトでは以下の通りプロジェクトを定義します。

Prj-definition-exo-implants.gif

プロジェクトの定義が完了したら、Actions(アクション)セクションのOPTをクリックして、スキャンソフトウェアを起動します。

Exo-to-scanway-implants.gif

スキャンソフトウェアでは、Exocadで作成されたプロジェクトが最初に表示されます。プロジェクトが正しく定義されている場合は、確定ボタン Ok.png をクリックします。


Contents

ScanWayでプロジェクト定義を開始する

すべてのプロジェクトはスキャンソフトウェアでも定義できます。これは、後で設計に使用するCADとは関係ありません。

デスクトップのScanWayアイコンをダブルクリックして、スキャンソフトウェアを起動します。ようこそページが開きます。プロジェクトを作成するには、最初のアイコンをクリックします。

 

プロジェクトの定義方法について詳しくは、新規プロジェクトの作成のページを参照して下さい。

今回のデモ用プロジェクトでは以下の通り定義します。

 

どちらの方法でプロジェクトを定義しても、同じウィザードに進みます。ここからは、このウィザードに従っていきます。


手順1: 上顎モデル

定義されたプロジェクトには対顎のモデルがないため、まずは上顎モデルをスキャンする必要があります。これは、その他すべてのスキャンを配置するときの参照点となります。
このプロセスには、以下の2つの手順があります。

スキャン手順

上顎モデルをモデルホルダーに設置し、スキャンボタン   をクリックします。

この段階で必要なのは石膏模型のみです。歯肉の部分、マーカー、その他の付属するオブジェクトを忘れずに取り外して下さい。

スキャンが完了すると、結果が表示されます。

 

  をクリックして、上顎の編集手順に進みます。

編集手順

この手順では、取得した画像を編集できます。この手順で利用できるオプションについて詳しくは、編集ツールのページを参照して下さい。

The image at this step can be both edited or trimmed. At this stage it is actually important not to edit too much the image or cutting big chunks of information, since it would make it more difficult for the software to calculate the automatic alignment of the object to its reference.

Here below an example on how to trim using the cut base tool and simply double-clicking on the image to remove the unwanted parts.

 

When you are satisfied with the result click   to access the next wizard step.

Step 2: Markers

This step requires the user to scan the markers or scanbodies that will be used to mark the correct positioning of the geometry and screw channel of the implant in the CAD software.
The scan of the markers is divided in different steps.

Definition

It is not necessary to have one marker for each implant on the model, since the markers can be scanned in different groups. To demonstrate this possibility, the 4 markers that need to be scanned for this project have been divided into two scanning groups, as follows:

 

Click   to access the scan step for the first group.

First Group

Scan
Depending on the number of scan groups created, the software will propose one or more scanning steps.

First, the software requires the user to insert the markers screwed on top of the model in the scanner and acquire the items of the first group.
As a reminder, it marks the items to be scanned together on the right of the window, under the live view.

Place the model with the selected markers on the model holder and click the Scan Button . Once the scan is finished the result will be shown.

 

Click   to access the edit step.

Edit
Follows the edit step to clean or trim the image. This time the rectangular selection tool has been used and the cut action has been activated in the contextual menu.

 

Click   to access the alignment step.

Alignment
The alignment for all scanned items is always automatic and it shows its results after the editing step.
To learn more on the automatic alignment and the manual procedure visit our Alignment Interface page.

 

Marker Identification
When a scan group has more than one item, the user will be asked to separate each marker from the others to correctly identify it.
To learn more on the identification of the dies visit the Scan Interface page.

 

Click   to continue.

Second group

Scan
Since in the project the markers have been divided into two groups, this is the last scan of the marker acquisition step.

As before, the software shows a reminder and marks the items to be scanned together on the right of the window, under the live view.

Place the model with the selected markers on the model holder and click the Scan Button . Once the scan is finished the result will be shown.

 

Click   to access the edit step.

Edit
This image has been edited with the polygonal selection tool; the cut action has been activated in the contextual menu.

 

Click   to access the alingment step.

Alignment
The alignment for all scanned items is always automatic and it shows its results after the editing step.
To learn more on the automatic alignment and the manual procedure visit our Alignment Interface page.

 

Marker Identification
When a scan group has more than one item, the user will be asked to separate each marker from the others to correctly identify it.
To learn more on the identification of the dies visit the Scan Interface page.

 

Click   to continue.

Step 3: Gingiva

If in the project has been specified the presence of a silicon gingiva, that can be separated from the model, the software will ask the user to scan it on top of the reference model.
Also this step develops in different phases.

Scan Step

Place the upper model with the gingiva on the model holder and click the Scan Button .
Once the scan is finished the result will be shown.

 

Click   to continue.

Edit Step

This item has been trimmed using the rectangular selection tool; the selected part has been deleted by pushing the DELETE (DEL) button on the keybord.

 

Click   to continue.

Automatic Alignment

As for the other items, the image of the gingiva aligns automatically to its reference (the upper model). The model part that matches the reference will then be removed automatically to keep only the actual gingiva part in mesh format.

 

Click   to continue.

Step 4: Healthy and Pontics

At this stage the project has been scanned, unless the user wants to rescan the healthy and pontics. In this case, since there are no healthy teeth there is no need to rescan.

 

Click   to continue.
The software will then propose a further edit step to allow the user to modify the healthy image. Proceed in the edit step as previously explained.

Step 5: Marker Alignment

To serve their purpose, the markers need to be aligned to an implant library: a virtual, geometric, accurate representation of the scanbody that has been screwed to the stone analog to mark its position.
The alingment to the library can be perfomed either in the scanning software or in Exocad. Since the market of libraries and scanbodies is so diverse, it is possible that some libraries will not work in our system.

Here below the library selection performed for our demo case:

 

Immediately after, the user will be asked to align the STL of the Marker to the scanned items:

 

To learn more on how to select a library and align the scanbodies to it, visit the section Marker alignment of the page Alignment Interface.

Step 6: Mesh Generation and Export

At this point the software immediately starts mesh generation. The meshes can be edited and exported individually or as a unique image. To learn more about mesh editing visit our Mesh Tools page.

Click on the Export Button   to export to CAD.

 

If the project has been started from Exocad, the CAD will automatically open and the design can be started immediately. Otherwise the software will ask the user how to export the file.