公开(公告)号：US20140295395A1

公开(公告)日：2014-10-02

申请号：US14212643

申请日：2014-03-14

申请人： Brian Degenhardt ,  Kenneth Pamperin

发明人： Brian Degenhardt ,  Kenneth Pamperin

IPC分类号： G09B23/32

CPC分类号： G09B23/32 ,  G09B23/30

摘要： Paired bones are individually secured in an anatomically relevant manner onto independent, parallel positioned platforms, and configured into motorized models for the purpose of teaching and assessing clinicians' ability to identify and compare the relative positions of bony landmarks within the coronal and sagittal planes. One platform can be powered by two motors to generate precise landmark asymmetries, moving the platforms in the coronal plane and around a horizontal axis. As the platform shears upward or rotates forward, the landmarks on the bone attached to that platform can be moved superiorly compared to the other side. A central computer can instruct the motors of a plurality of models to move predetermined amounts via a two-way wireless communications link. The model can communicate back to the computer once the movement is completed, assuring a high level of precision in obtaining the intended positional asymmetry or informing the user that the move exceeds the limits of the model.

摘要翻译： 配对骨头以解剖学相关的方式单独固定在独立的平行定位的平台上，并配置成电动模型，目的是教导和评估临床医生识别和比较冠状面和矢状面内的骨骼标志的相对位置的能力。 一个平台可以由两个电机供电，以产生精确的地标不对称性，在冠状平面内移动平台并围绕水平轴。 当平台向上剪切或向前旋转时，附着在该平台上的骨骼上的标记物可以与另一侧相比上移。 中央计算机可以指示多个模型的电机经由双向无线通信链路移动预定量。 一旦移动完成，该模型可以与计算机通信，确保获得预期的位置不对称性的高精度，或通知用户该移动超出了模型的限制。

公开(公告)号：US09905138B2

公开(公告)日：2018-02-27

申请号：US14212643

申请日：2014-03-14

申请人： Brian Degenhardt ,  Kenneth Pamperin ,  Harry Jabs ,  Inder Raj Singh Makin

发明人： Brian Degenhardt ,  Kenneth Pamperin ,  Harry Jabs ,  Inder Raj Singh Makin

IPC分类号： G09B23/32 ,  G09B23/30

CPC分类号： G09B23/32 ,  G09B23/30

摘要： Paired bones are individually secured in an anatomically relevant manner onto independent, parallel positioned platforms, and configured into motorized models for the purpose of teaching and assessing clinicians' ability to identify and compare the relative positions of bony landmarks within the coronal and sagittal planes. One platform can be powered by two motors to generate precise landmark asymmetries, moving the platforms in the coronal plane and around a horizontal axis. As the platform shears upward or rotates forward, the landmarks on the bone attached to that platform can be moved superiorly compared to the other side. A central computer can instruct the motors of a plurality of models to move predetermined amounts via a two-way wireless communications link. The model can communicate back to the computer once the movement is completed, assuring a high level of precision in obtaining the intended positional asymmetry or informing the user that the move exceeds the limits of the model.