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公开(公告)号:US20110046748A1
公开(公告)日:2011-02-24
申请号:US12917350
申请日:2010-11-01
IPC分类号: A61F2/80
CPC分类号: A61F2/68 , A61F2/50 , A61F2/80 , A61F2002/701 , A61F2002/704 , A61F2002/705 , A61F2002/742 , A61F2002/7655 , A61F2002/766 , A61F2002/7665 , A61F2002/769 , A61F2002/802
摘要: A vacuum pump system for a prosthesis includes an enhanced suspension mechanism and incorporates a vacuum pump system, an adaptor assembly, circuitry, and a power source. A virtually air-tight seal between a residual limb and a socket of the prosthesis allows a vacuum fit to be generated by the pump system. The pump system may be controlled with various circuits and processors receiving instructions from a software program. The pump system may be located within a pylon, but yet remain vibrationally and acoustically de-coupled from the pylon.
摘要翻译: 用于假体的真空泵系统包括增强的悬挂机构并且包括真空泵系统,适配器组件,电路和电源。 残肢和假体的插座之间的实际气密密封允许由泵系统产生真空配合。 可以利用从软件程序接收指令的各种电路和处理器来控制泵系统。 泵系统可以位于塔内,但仍然保持振动和声学地从塔架脱耦合。
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公开(公告)号:US09241812B2
公开(公告)日:2016-01-26
申请号:US12943733
申请日:2010-11-10
申请人: James Jay Martin , Pravin Chaubey , David Boone , Matt Kozlowski , Adam Arabian
发明人: James Jay Martin , Pravin Chaubey , David Boone , Matt Kozlowski , Adam Arabian
CPC分类号: A61F2/68 , A61F2/50 , A61F2/80 , A61F2002/701 , A61F2002/704 , A61F2002/705 , A61F2002/742 , A61F2002/7655 , A61F2002/766 , A61F2002/7665 , A61F2002/769 , A61F2002/802
摘要: A vacuum pump system for a prosthesis device includes an enhanced suspension mechanism and cooperates with a pressure source, an adaptor assembly, circuitry, and a power source. A virtually air-tight seal between a residual limb and a socket of the prosthesis allows a vacuum fit to be generated by the pump system. The pump system may be controlled with various circuits and processors receiving instructions from a software program. The pump system may be located within a pylon, but yet remain vibrationally and acoustically de-coupled from the pylon.
摘要翻译: 用于假体装置的真空泵系统包括增强的悬挂机构,并与压力源,适配器组件,电路和电源配合。 残肢和假体的插座之间的实际气密密封允许由泵系统产生真空配合。 可以利用从软件程序接收指令的各种电路和处理器来控制泵系统。 泵系统可以位于塔内,但仍然保持振动和声学地从塔架脱耦合。
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公开(公告)号:US08303670B2
公开(公告)日:2012-11-06
申请号:US12917350
申请日:2010-11-01
IPC分类号: A61F2/80
CPC分类号: A61F2/68 , A61F2/50 , A61F2/80 , A61F2002/701 , A61F2002/704 , A61F2002/705 , A61F2002/742 , A61F2002/7655 , A61F2002/766 , A61F2002/7665 , A61F2002/769 , A61F2002/802
摘要: A vacuum pump system for a prosthesis includes an enhanced suspension mechanism and incorporates a vacuum pump system, an adaptor assembly, circuitry, and a power source. A virtually air-tight seal between a residual limb and a socket of the prosthesis allows a vacuum fit to be generated by the pump system. The pump system may be controlled with various circuits and processors receiving instructions from a software program. The pump system may be located within a pylon, but yet remain vibrationally and acoustically de-coupled from the pylon.
摘要翻译: 用于假体的真空泵系统包括增强的悬挂机构,并且包括真空泵系统,适配器组件,电路和电源。 残肢和假体的插座之间的实际气密密封允许由泵系统产生真空配合。 可以利用从软件程序接收指令的各种电路和处理器来控制泵系统。 泵系统可以位于塔内,但仍然保持振动和声学地从塔架脱耦合。
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公开(公告)号:US20110060421A1
公开(公告)日:2011-03-10
申请号:US12943733
申请日:2010-11-10
申请人: James Jay Martin , Pravin Chaubey , David Boone , Matt Kozlowski , Adam Arabian
发明人: James Jay Martin , Pravin Chaubey , David Boone , Matt Kozlowski , Adam Arabian
IPC分类号: A61F2/80
CPC分类号: A61F2/68 , A61F2/50 , A61F2/80 , A61F2002/701 , A61F2002/704 , A61F2002/705 , A61F2002/742 , A61F2002/7655 , A61F2002/766 , A61F2002/7665 , A61F2002/769 , A61F2002/802
摘要: A vacuum pump system for a prosthesis device includes an enhanced suspension mechanism and cooperates with a pressure source, an adaptor assembly, circuitry, and a power source. A virtually air-tight seal between a residual limb and a socket of the prosthesis allows a vacuum fit to be generated by the pump system. The pump system may be controlled with various circuits and processors receiving instructions from a software program. The pump system may be located within a pylon, but yet remain vibrationally and acoustically de-coupled from the pylon.
摘要翻译: 用于假体装置的真空泵系统包括增强的悬挂机构,并与压力源,适配器组件,电路和电源配合。 残肢和假体的插座之间的实际气密密封允许由泵系统产生真空配合。 可以利用从软件程序接收指令的各种电路和处理器来控制泵系统。 泵系统可以位于塔内,但仍然保持振动和声学地从塔架脱耦合。
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