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公开(公告)号:US20100204929A1
公开(公告)日:2010-08-12
申请号:US12729094
申请日:2010-03-22
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
CPC classification number: G01N21/89 , B29C70/38 , G01N2021/8472
Abstract: An inspection system (9) includes an idler wheel (61) that is coupled to a fabrication system (8) and is in contact with a backing layer (65) of an applied material (64), A rotation sensor (63) monitors the idler wheel (61) and generates a rotational signal. A controller (24) is coupled to the rotation sensor (63) and determines a characteristic of one or more flaws and FOD (19) on a composite structure (12) in response to the rotation signal.
Abstract translation: 检查系统(9)包括与制造系统(8)连接并与施加材料(64)的背衬层(65)接触的惰轮(61),旋转传感器(63) 空转轮(61)并产生旋转信号。 控制器(24)耦合到旋转传感器(63)并且响应于旋转信号确定复合结构(12)上的一个或多个缺陷和FOD(19)的特性。
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公开(公告)号:US20080259325A1
公开(公告)日:2008-10-23
申请号:US12107579
申请日:2008-04-22
Applicant: Roger W. ENGELBART , Reed HANNEBAUM , Tim POLLOCK
Inventor: Roger W. ENGELBART , Reed HANNEBAUM , Tim POLLOCK
IPC: G01N21/88
CPC classification number: G01N21/8806 , B29C70/32 , B29C70/386 , G01N21/8901
Abstract: A course material that is applied to a substrate during fabrication of a composite item is inspected by a system that includes a vision assembly. The vision assembly includes an area light, a line generator, a sensor, and an image processor. The area light illuminates an area of the course material. The line generator generates a line of illumination across the area. The sensor captures an image of the area. The image processor analyzes the image. The image processor is configured to identify debris on the course material in response to the area light being activated and the image processor is configured to identify placement aberrations in response to the line generator being activated.
Abstract translation: 通过包括视觉组件的系统来检查在复合物品的制造过程中施加于基材的道路材料。 视觉组件包括区域光,线发生器,传感器和图像处理器。 区域光照射课程材料的一个区域。 线路发生器在该区域产生一束照明。 传感器捕获该区域的图像。 图像处理器分析图像。 图像处理器被配置为响应于被激活的区域光来识别课程材料上的碎片,并且图像处理器被配置为响应于被激活的线发生器来识别放置像差。
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公开(公告)号:US07978328B2
公开(公告)日:2011-07-12
申请号:US12107579
申请日:2008-04-22
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
IPC: G01N21/00
CPC classification number: G01N21/8806 , B29C70/32 , B29C70/386 , G01N21/8901
Abstract: A course material that is applied to a substrate during fabrication of a composite item is inspected by a system that includes a vision assembly. The vision assembly includes an area light, a line generator, a sensor, and an image processor. The area light illuminates an area of the course material. The line generator generates a line of illumination across the area. The sensor captures an image of the area. The image processor analyzes the image. The image processor is configured to identify debris on the course material in response to the area light being activated and the image processor is configured to identify placement aberrations in response to the line generator being activated.
Abstract translation: 通过包括视觉组件的系统检查在复合物品的制造过程中施加到基底的道路材料。 视觉组件包括区域光,线发生器,传感器和图像处理器。 区域光照射课程材料的一个区域。 线路发生器在该区域产生一束照明。 传感器捕获该区域的图像。 图像处理器分析图像。 图像处理器被配置为响应于被激活的区域光来识别课程材料上的碎片,并且图像处理器被配置为响应于被激活的线发生器来识别放置像差。
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公开(公告)号:US07712502B2
公开(公告)日:2010-05-11
申请号:US12057978
申请日:2008-03-28
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
CPC classification number: G01N21/89 , B29C70/38 , G01N2021/8472
Abstract: An inspection system (9) includes an idler wheel (61) that is coupled to a fabrication system (8) and is in contact with a backing layer (65) of an applied material (64), A rotation sensor (63) monitors the idler wheel (61) and generates a rotational signal. A controller (24) is coupled to the rotation sensor (63) and determines a characteristic of one or more flaws and FOD (19) on a composite structure (12) in response to the rotation signal.
Abstract translation: 检查系统(9)包括与制造系统(8)连接并与施加材料(64)的背衬层(65)接触的惰轮(61),旋转传感器(63) 空转轮(61)并产生旋转信号。 控制器(24)耦合到旋转传感器(63)并且响应于旋转信号确定复合结构(12)上的一个或多个缺陷和FOD(19)的特性。
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5.发明授权公开(公告)号:US07678214B2
公开(公告)日:2010-03-16
申请号:US12179681
申请日:2008-07-25
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
IPC: B32B41/00
CPC classification number: B29C70/38 , B29C70/386 , G01N2021/8472
Abstract: A flaw and foreign object debris (FOD) detection system (11) for use during fabrication of a structure (12) includes an illumination device (13). The illumination device (13) is configured to be in proximity with a fabrication system (10) and illuminates a portion (18) of the structure (12). The illumination device (13) directs light rays (16) at acute angles relative to the portion (18). A detector (14) monitors the portion (18) and detects FOD in the portion (18) during fabrication of the structure (12) in response to the reflection of the light rays (16) off of the portion (18).
Abstract translation: 在结构(12)的制造期间使用的缺陷和异物碎片(FOD)检测系统(11)包括照明装置(13)。 照明装置(13)构造成与制造系统(10)接近并照亮结构(12)的部分(18)。 照明装置(13)相对于部分(18)以锐角引导光线(16)。 检测器(14)响应于光线(16)从部分(18)的反射而在制造结构(12)期间监测部分(18)并检测部分(18)中的FOD。
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Patent Agency Ranking
公开(公告)号:US07424902B2
公开(公告)日:2008-09-16
申请号:US10904727
申请日:2004-11-24
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
CPC classification number: G01N21/89 , B29C70/38 , G01N2021/8472
Abstract: An inspection system (9) includes an idler wheel (61) that is coupled to a fabrication system (8) and is in contact with a backing layer (65) of an applied material (64). A rotation sensor (63) monitors the idler wheel (61) and generates a rotational signal. A controller (24) is coupled to the rotation sensor (63) and determines a characteristic of one or more flaws and FOD (19) on a composite structure (12) in response to the rotation signal.
Abstract translation: 检查系统(9)包括联接到制造系统(8)并与施加材料(64)的背衬层(65)接触的惰轮(61)。 旋转传感器(63)监视惰轮(61)并产生旋转信号。 控制器(24)耦合到旋转传感器(63)并且响应于旋转信号确定复合结构(12)上的一个或多个缺陷和FOD(19)的特性。
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公开(公告)号:US08524021B2
公开(公告)日:2013-09-03
申请号:US12729094
申请日:2010-03-22
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
CPC classification number: G01N21/89 , B29C70/38 , G01N2021/8472
Abstract: An inspection system (9) includes an idler wheel (61) that is coupled to a fabrication system (8) and is in contact with a backing layer (65) of an applied material (64), A rotation sensor (63) monitors the idler wheel (61) and generates a rotational signal. A controller (24) is coupled to the rotation sensor (63) and determines a characteristic of one or more flaws and FOD (19) on a composite structure (12) in response to the rotation signal.
Abstract translation: 检查系统(9)包括与制造系统(8)连接并与施加材料(64)的背衬层(65)接触的惰轮(61),旋转传感器(63) 空转轮(61)并产生旋转信号。 控制器(24)耦合到旋转传感器(63)并且响应于旋转信号确定复合结构(12)上的一个或多个缺陷和FOD(19)的特性。
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公开(公告)号:US07688434B2
公开(公告)日:2010-03-30
申请号:US12056326
申请日:2008-03-27
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
CPC classification number: G01N21/89 , B29C70/38 , G01N2021/8472
Abstract: An inspection system (9) includes an idler wheel (61) that is coupled to a fabrication system (8) and is in contact with a backing layer (65) of an applied material (64), A rotation sensor (63) monitors the idler wheel (61) and generates a rotational signal. A controller (24) is coupled to the rotation sensor (63) and determines a characteristic of one or more flaws and FOD (19) on a composite structure (12) in response to the rotation signal.
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公开(公告)号:US20090002693A1
公开(公告)日:2009-01-01
申请号:US12056326
申请日:2008-03-27
Applicant: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
Inventor: Roger W. Engelbart , Reed Hannebaum , Tim Pollock
IPC: G01N21/00
CPC classification number: G01N21/89 , B29C70/38 , G01N2021/8472
Abstract: An inspection system (9) includes an idler wheel (61) that is coupled to a fabrication system (8) and is in contact with a backing layer (65) of an applied material (64), A rotation sensor (63) monitors the idler wheel (61) and generates a rotational signal. A controller (24) is coupled to the rotation sensor (63) and determines a characteristic of one or more flaws and FOD (19) on a composite structure (12) in response to the rotation signal.
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公开(公告)号:US20070097359A1
公开(公告)日:2007-05-03
申请号:US11264076
申请日:2005-10-31
Applicant: Roger Engelbart , Reed Hannebaum , Tim Pollock , Sam Orr , Jeff Putnam , Eric Rector
Inventor: Roger Engelbart , Reed Hannebaum , Tim Pollock , Sam Orr , Jeff Putnam , Eric Rector
IPC: G01N21/00
CPC classification number: G01N21/88 , B29C70/382 , B29C70/386 , G01N2021/8472 , G01N2021/8867 , G01N2201/0635 , G01N2201/0636
Abstract: A system and method of inspecting material laid by a material placement machine. Light is directed onto the material in a direction essentially normal to the material to illuminate a section of the material. Laser energy is projected onto the section at an angle predetermined to reveal imperfections in the section. This system provides improved illumination for material widths exceeding six inches and is scalable for inspecting various material widths.
Abstract translation: 一种材料放置机器放置材料的检查系统和方法。 光以基本上垂直于材料的方向被引导到材料上以照射材料的一部分。 激光能量以预定的角度投影到部分上,以显示该部分中的缺陷。 该系统为超过6英寸的材料宽度提供改进的照明,并且可扩展以用于检查各种材料宽度。
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