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    • 2. 发明授权
    • Manually adjustable ruggedized focus mechanism
    • 手动可调加固型聚焦机构
    • US09039208B2
    • 2015-05-26
    • US13269966
    • 2011-10-10
    • George CostiganSteven GoodspeedRobert TremblayJohn KeatingBrian PhillipsJames Hoffmaster
    • George CostiganSteven GoodspeedRobert TremblayJohn KeatingBrian PhillipsJames Hoffmaster
    • G02B23/16G02B7/02G02B7/04G02B13/16G03B17/08
    • G03B17/08G02B7/04G03B2217/002Y10S359/90
    • The invention provides, in some aspects, devices for image acquisition that use seals between concentrically disposed portions of an enclosure and an optics assembly in order to protect image acquisition components from the surrounding environment while providing adequate friction for both adjusting and locking focus. Such devices can include an image capture medium that is disposed within an enclosure and an optics assembly that is also disposed within that enclosure. The optics assembly, which includes at least a lens, can have a cylindrical outer diameter along at least a portion of its length that is received within the enclosure along a length that has a corresponding cylindrical inner diameter. A first seal is disposed between, and in contact with, the optics assembly and the enclosure. That seal permits rotation of the optics assembly for purposes of focusing the lens, while preventing contamination from the environment from entering into the enclosure.
    • 在一些方面,本发明提供了用于图像采集的装置,其在外壳的同心设置部分和光学组件之间使用密封,以便保护图像采集部件免受周围环境的影响,同时为调节和锁定焦点提供足够的摩擦。 这样的设备可以包括设置在外壳内的图像捕获介质和也设置在该外壳内的光学组件。 包括至少一个透镜的光学组件可沿其长度的至少一部分具有沿着具有相应圆柱形内径的长度容纳在外壳内的圆柱形外径。 第一密封件设置在光学组件和外壳之间并与其接触。 该密封件允许光学组件的旋转用于聚焦透镜,同时防止来自环境的污染物进入外壳。
    • 3. 发明申请
    • MANUALLY ADJUSTABLE RUGGEDIZED FOCUS MECHANISM
    • 手动调整的强化机制
    • US20080158678A1
    • 2008-07-03
    • US11618132
    • 2006-12-29
    • George CostiganSteven N. GoodspeedRobert J. TremblayJohn F. KeatingBrian PhillipsJames Hoffmaster
    • George CostiganSteven N. GoodspeedRobert J. TremblayJohn F. KeatingBrian PhillipsJames Hoffmaster
    • G02B7/18G02B23/16G03B17/00
    • G03B17/08G02B7/04G03B2217/002Y10S359/90
    • The invention provides, in some aspects, devices for image acquisition that use seals (e.g., O-rings) between concentrically disposed portions of an enclosure and an optics assembly (or sub-assemblies thereof) in order to protect image acquisition components from the surrounding environment (and vice versa) while, at the same time, providing adequate friction for both adjusting and locking focus. Such devices include, in one aspect of the invention, an image capture medium (e.g., a CMOS sensor, CCD array, etc.) that is disposed within an enclosure and an optics assembly that is also disposed within that enclosure, rotatably. The optics assembly, which includes at least a lens, can have a cylindrical outer diameter along at least a portion of its length that is received within the enclosure along a length that has a corresponding cylindrical inner diameter. A first seal (e.g., an “O-ring”) is disposed between, and in contact with, the optics assembly and the enclosure, e.g., along these corresponding lengths. That seal permits rotation of the optics assembly for purposes of focusing the lens, while preventing (or reducing a risk of) contamination from the environment (e.g., water, chemicals, dirt, dust, etc.) from entering into the enclosure and vice versa.
    • 在一些方面,本发明提供了用于图像采集的装置,其在外壳的同心设置部分和光学组件(或其子组件)之间使用密封件(例如,O形环),以便保护图像采集部件免受周围环境 环境(反之亦然),同时为调整和锁定焦点提供足够的摩擦。 在本发明的一个方面,这样的装置包括设置在外壳内的图像捕获介质(例如,CMOS传感器,CCD阵列等)以及也可旋转地设置在该外壳内的光学组件。 包括至少一个透镜的光学组件可沿其长度的至少一部分具有沿着具有相应圆柱形内径的长度容纳在外壳内的圆柱形外径。 第一密封件(例如,“O形环”)设置在光学组件和外壳之间并且与光学组件和外壳接触,例如沿着这些对应的长度。 为了聚焦透镜的目的,该密封允许光学组件的旋转,同时防止(或降低)来自环境(例如,水,化学物质,污垢,灰尘等)的污染进入外壳的反应 。
    • 4. 发明授权
    • Manually adjustable ruggedized focus mechanism
    • 手动可调加固型聚焦机构
    • US08033670B2
    • 2011-10-11
    • US11618132
    • 2006-12-29
    • George CostiganSteven N. GoodspeedRobert J. TremblayJohn F. KeatingBrian S. PhillipsJames Hoffmaster
    • George CostiganSteven N. GoodspeedRobert J. TremblayJohn F. KeatingBrian S. PhillipsJames Hoffmaster
    • G02B23/16G02B7/02G02B7/04G02B13/16
    • G03B17/08G02B7/04G03B2217/002Y10S359/90
    • The invention provides, in some aspects, devices for image acquisition that use seals (e.g., O-rings) between concentrically disposed portions of an enclosure and an optics assembly (or sub-assemblies thereof) in order to protect image acquisition components from the surrounding environment (and vice versa) while, at the same time, providing adequate friction for both adjusting and locking focus. Such devices include, in one aspect of the invention, an image capture medium (e.g., a CMOS sensor, CCD array, etc.) that is disposed within an enclosure and an optics assembly that is also disposed within that enclosure, rotatably. The optics assembly, which includes at least a lens, can have a cylindrical outer diameter along at least a portion of its length that is received within the enclosure along a length that has a corresponding cylindrical inner diameter. A first seal (e.g., an “O-ring”) is disposed between, and in contact with, the optics assembly and the enclosure, e.g., along these corresponding lengths. That seal permits rotation of the optics assembly for purposes of focusing the lens, while preventing (or reducing a risk of) contamination from the environment (e.g., water, chemicals, dirt, dust, etc.) from entering into the enclosure and vice versa.
    • 在一些方面,本发明提供了用于图像采集的装置,其在外壳的同心设置部分和光学组件(或其子组件)之间使用密封件(例如,O形环),以便保护图像采集部件免受周围环境 环境(反之亦然),同时为调整和锁定焦点提供足够的摩擦。 在本发明的一个方面,这样的装置包括设置在外壳内的图像捕获介质(例如,CMOS传感器,CCD阵列等)以及也可旋转地设置在该外壳内的光学组件。 包括至少一个透镜的光学组件可沿其长度的至少一部分具有沿着具有相应圆柱形内径的长度容纳在外壳内的圆柱形外径。 第一密封件(例如,“O形环”)设置在光学组件和外壳之间并且与光学组件和外壳接触,例如沿着这些对应的长度。 为了聚焦透镜的目的,该密封允许光学组件的旋转,同时防止(或降低)来自环境(例如,水,化学物质,污垢,灰尘等)的污染物进入外壳的反应 。
    • 7. 再颁专利
    • Needleless syringe
    • 无针注射器
    • USRE43824E1
    • 2012-11-20
    • US13077571
    • 2002-01-11
    • Colin D. SheldrakeGeorge CostiganBrian J. Bellhouse
    • Colin D. SheldrakeGeorge CostiganBrian J. Bellhouse
    • A61M5/30
    • A61M5/3015A61M5/2053A61M5/3007A61M2005/005
    • A method of distributing particles in a flow of gas and a needleless syringe for use in the needleless injection of particles into the skin or mucosa of a vertebrate subject are disclosed. The syringe includes a convergence which reduces pressure of the gas flowing in the gas flow path due to the Venturi effect such that particles initially located outside of the gas flow path are drawn into the gas flow path under the action of the reduced pressure and become entrained in the gas. An exit nozzle accelerates the particles so entrained. In another aspect of the invention, there is provided a method of creating a gas flow in a needleless syringe which comprises flowing gas through a first convergence into a chamber to form a transsonic gas jet in the chamber and passing the gas jet from the chamber into a second convergence and along the nozzle.
    • 公开了一种在气体流和无针注射器中分配颗粒的方法,用于无脊椎动物注射到脊椎动物对象的皮肤或粘膜中。 注射器包括会聚,其减少由于文丘里效应而在气体流动路径中流动的气体的压力,使得最初位于气体流动路径外部的颗粒在减压作用下被吸入气体流动路径并被夹带 在气中。 出口喷嘴加速如此夹带的颗粒。 在本发明的另一方面,提供了一种在无针注射器中产生气流的方法,该方法包括将气体通过第一会聚流入腔室中,以在腔室中形成经络气体射流,并将气体射流从腔室送入 沿着喷嘴的第二个会聚。
    • 9. 发明授权
    • Needleless syringe
    • 无针注射器
    • US07547292B2
    • 2009-06-16
    • US10466076
    • 2002-01-11
    • Colin David SheldrakeGeorge CostiganBrian John Bellhouse
    • Colin David SheldrakeGeorge CostiganBrian John Bellhouse
    • A61M5/30
    • A61M5/3015A61M5/2053A61M5/3007A61M2005/005
    • A method of distributing particles in a flow of gas and a needleless syringe for use in the needleless injection of particles into the skin or mucosa of a vertebrate subject are disclosed. The syringe includes a convergence which reduces pressure of the gas flowing in the gas flow path due to the Venturi effect such that particles initially located outside of the gas flow path are drawn into the gas flow path under the action of the reduced pressure and become entrained in the gas. An exit nozzle accelerates the particles so entrained. In another aspect of the invention, there is provided a method of creating a gas flow in a needleless syringe which comprises flowing gas through a first convergence into a chamber to form a transsonic gas jet in the chamber and passing the gas jet from the chamber into a second convergence and along the nozzle.
    • 公开了一种在气体和无针注射器中分配颗粒的方法,用于无脊椎动物注射到脊椎动物对象的皮肤或粘膜中。 注射器包括会聚,其减少由于文丘里效应而在气体流动路径中流动的气体的压力,使得最初位于气体流动路径外部的颗粒在减压作用下被吸入气体流动路径并被夹带 在气中。 出口喷嘴加速如此夹带的颗粒。 在本发明的另一方面,提供了一种在无针注射器中产生气流的方法,该方法包括将气体通过第一会聚流入腔室中,以在腔室中形成经络气体射流,并将气体射流从腔室送入 沿着喷嘴的第二个会聚。