公开(公告)号：USD649647S1

公开(公告)日：2011-11-29

申请号：US29375465

申请日：2010-09-22

Applicant: Gary R. Williams

Designer： Gary R. Williams

公开(公告)号：US06295754B1

公开(公告)日：2001-10-02

申请号：US09425279

申请日：1999-10-21

Applicant: Rodney H. Otteman ,  Victoria J. Peters ,  Gary R. Williams ,  Wayne Perley

Inventor： Rodney H. Otteman ,  Victoria J. Peters ,  Gary R. Williams ,  Wayne Perley

IPC: F41G146

CPC classification number: F41G11/003 ,  F41G1/38

Abstract: A telescopic sight is provided that includes an integral mounting bar for connection to a barrel of a firearm and integral auxiliary equipment mounting features for mounting auxiliary equipment onto the telescopic sight. The auxiliary equipment mounting features facilitate the mounting of multiple devices that allows for quickly alternating between different aiming devices or to simultaneously use multiple aiming devices. Clamp assemblies cooperate with the mounting bar to secure the telescopic sight to the firearm and provide adjustment of the height position of the telescopic sight. The clamp blocks are adapted to fit onto a mounting rail of a firearm. The mounting features are universal and require no post-mounting adjustment to accurately align the auxiliary equipment.

Abstract translation: 提供了一种伸缩瞄准镜，其包括用于连接到枪管的整体安装杆和用于将辅助设备安装在望远镜上的整体辅助设备安装特征。 辅助设备安装功能便于安装多个设备，允许在不同的瞄准设备之间快速交替，或同时使用多个瞄准设备。 夹具组件与安装杆配合以将伸缩瞄准镜固定在枪支上，并提供伸缩瞄准器的高度位置的调节。 夹具块适于装配到枪支的安装导轨上。 安装功能是通用的，不需要后置安装调整，以准确对准辅助设备。

公开(公告)号：US5765243A

公开(公告)日：1998-06-16

申请号：US795957

申请日：1997-02-28

Applicant: Matthew F. Duncan ,  Gary R. Williams ,  Steven A. Badolato

Inventor： Matthew F. Duncan ,  Gary R. Williams ,  Steven A. Badolato

IPC: A61G1/00 ,  A61B6/04 ,  A61G1/003

CPC classification number: A61B6/0421 ,  A61G1/003 ,  A61B6/4423 ,  A61G2210/50

Abstract: A scoop type patient carrier having separable halves to facilitate placement of the halves beneath a patient, and configured to enable radiographic examination. The joint between the halves, and the points where the pivot and latch mechanisms are located, are laterally offset from the midline or longitudinal centerline of the assembled carrier. This arrangement results in the absence of any joint or line of separation in the upper and lower sections that are aligned with the carrier centerline, and which support the head and feet. This enables the carrier halves to be joined or separated without any accompanying movement of the head and feet of the patient.

Abstract translation: 一种勺式患者托架，具有可分离的两半，以便于将半部分放置在患者下方，并且被配置为能够进行射线照相检查。 半部之间的关节以及枢转和闩锁机构所在的点从组装的载体的中线或纵向中心线横向偏移。 这种布置导致在上部和下部中没有与载体中心线对齐并且支撑头部和脚部的任何关节或分离线。 这使得载体半部能够在患者的头部和脚部没有任何伴随移动的情况下被连接或分离。

公开(公告)号：US20120277644A1

公开(公告)日：2012-11-01

申请号：US13251801

申请日：2011-10-03

Applicant: Gary R. Williams

Inventor： Gary R. Williams

IPC: A61F5/00

CPC classification number: A61F5/05833

Abstract: A vacuum splint for maintaining a person in an immobilized state includes a flexible airtight casing upon which a patient is placed. The casing has an internal chamber that contains a large number of beads. Valves are provided to develop a vacuum within the chamber to convert the casing from a relatively soft, flexible state to a rigid, evacuated state. A semi-rigid member spans the length of the vacuum splint that resists longitudinal compression when air is evacuated from the chamber. The semi-rigid member also retains sufficient longitudinal and lateral flexibility such that it allows the vacuum splint to be molded to various patient positions and folded or rolled up when not in an evacuated state. The head end of the vacuum splint includes two protrusions that extend upward. When in an evacuated state, these protrusions extend over either side of a patient's head thereby providing support and protection.

Abstract translation: 用于维持处于固定状态的人的真空夹板包括柔性气密套管，病人放在其上。 壳体具有包含大量珠粒的内部腔室。 提供阀以在室内形成真空，以将壳体从相对柔软的柔性状态转换成刚性的抽真空状态。 半刚性构件跨越真空夹板的长度，当空气从腔室排出时，其抵抗纵向压缩。 半刚性构件还保持足够的纵向和侧向柔性，使得其允许真空夹板模制到各种患者位置，并且在不处于抽空状态时折叠或卷起。 真空夹板的头端包括向上延伸的两个突起。 当处于抽真空状态时，这些突起在患者头部的任一侧延伸，从而提供支撑和保护。

公开(公告)号：US07954927B2

公开(公告)日：2011-06-07

申请号：US12024346

申请日：2008-02-01

Applicant: Brian C. Hart ,  Gary A. Holt, Jr. ,  Melissa M. Waldeck ,  Sean T. Weaver ,  Gary R. Williams

Inventor： Brian C. Hart ,  Gary A. Holt, Jr. ,  Melissa M. Waldeck ,  Sean T. Weaver ,  Gary R. Williams

IPC: B41J2/14

CPC classification number: B41J2/1603 ,  B41J2/162 ,  B41J2/1631 ,  B41J2/1645

Abstract: An improved photoimaged nozzle plate for a micro-fluid ejection head, a micro-fluid ejection head containing the nozzle plate, and methods for making a micro-fluid ejection head. The improved nozzle plate is provided by a photoresist nozzle plate layer applied to a thick film layer on a semiconductor substrate containing fluid ejector actuators. The photoresist nozzle plate layer has a plurality of nozzle holes therein. Each of the nozzle holes are formed in the nozzle plate layer from an exit surface of the nozzle plate layer to an entrance surface of the nozzle plate layer. Each of the nozzle holes has a reentrant hole profile with a wall angle greater than about 4° up to about 30° measured from an axis orthogonal to a plane defined by the exit surface of the nozzle plate layer.

Abstract translation: 用于微流体喷射头的改进的光刻喷嘴板，包含喷嘴板的微流体喷射头以及用于制造微流体喷射头的方法。 改进的喷嘴板由涂覆在包含流体喷射器致动器的半导体衬底上的厚膜层上的光致抗蚀剂喷嘴板层提供。 光致抗蚀剂喷嘴板层中具有多个喷嘴孔。 每个喷嘴孔从喷嘴板层的出射面到喷嘴板层的入射面形成在喷嘴板层中。 每个喷嘴孔具有从垂直于由喷嘴板层的出射表面限定的平面的轴测量的壁角大于约4°至多约30°的折入孔轮廓。

公开(公告)号：US07600858B2

公开(公告)日：2009-10-13

申请号：US11754715

申请日：2007-05-29

Applicant: Johnathan L. Barnes ,  Craig M. Bertelsen ,  Brian C. Hart ,  Gary R. Williams ,  Sean T. Weaver ,  Girish S. Patil

Inventor： Johnathan L. Barnes ,  Craig M. Bertelsen ,  Brian C. Hart ,  Gary R. Williams ,  Sean T. Weaver ,  Girish S. Patil

IPC: B41J2/05

CPC classification number: B41J2/1628 ,  B41J2/14024 ,  B41J2/1404 ,  B41J2/14072 ,  B41J2/1603 ,  B41J2/1623 ,  B41J2/1629 ,  B41J2/1631 ,  B41J2/1632 ,  B41J2/1634 ,  B41J2/1635 ,  B41J2/1639 ,  B41J2/1645 ,  Y10T29/49135 ,  Y10T29/49139 ,  Y10T29/4914 ,  Y10T29/49401 ,  Y10T29/4979 ,  Y10T29/49798

Abstract: A method of making a micro-fluid ejection head structure for a micro-fluid ejection device. The method includes applying a removable mandrel material to a semiconductor substrate wafer containing fluid ejection actuators on a device surface thereof. The mandrel material is shaped to provide fluid chamber and fluid channel locations on the substrate wafer. A micro machinable material is applied to the shaped mandrel and the device surface of the wafer to provide a nozzle plate and flow feature layer on the shaped mandrel and wafer. A plurality of nozzle holes are formed in the nozzle plate and flow feature layer. The shaped mandrel material is then removed from the device surface of the substrate wafer to provide fluid chambers and fluid channels in the nozzle plate and flow feature layer.

Abstract translation: 一种制造用于微流体喷射装置的微流体喷射头结构的方法。 该方法包括将可移除的心轴材料施加到在其装置表面上含有流体喷射致动器的半导体衬底晶片。 心轴材料成型为在衬底晶片上提供流体室和流体通道位置。 将微加工材料施加到成形心轴和晶片的装置表面，以在成形心轴和晶片上提供喷嘴板和流动特征层。 在喷嘴板和流动特征层中形成多个喷嘴孔。 然后将成形的心轴材料从衬底晶片的器件表面移除，以在喷嘴板和流动特征层中提供流体室和流体通道。

公开(公告)号：US07364268B2

公开(公告)日：2008-04-29

申请号：US11239799

申请日：2005-09-30

Applicant: Brian C. Hart ,  Gary A. Holt, Jr. ,  Melissa M. Waldeck ,  Sean T. Weaver ,  Gary R. Williams

Inventor： Brian C. Hart ,  Gary A. Holt, Jr. ,  Melissa M. Waldeck ,  Sean T. Weaver ,  Gary R. Williams

IPC: B41J2/14

CPC classification number: B41J2/1603 ,  B41J2/162 ,  B41J2/1631 ,  B41J2/1645

Abstract: An improved photoimaged nozzle plate for a micro-fluid ejection head, a micro-fluid ejection head containing the nozzle plate, and methods for making a micro-fluid ejection head. The improved nozzle plate is provided by a photoresist nozzle plate layer applied to a thick film layer on a semiconductor substrate containing fluid ejector actuators. The photoresist nozzle plate layer has a plurality of nozzle holes therein. Each of the nozzle holes are formed in the nozzle plate layer from an exit surface of the nozzle plate layer to an entrance surface of the nozzle plate layer. Each of the nozzle holes has a reentrant hole profile with a wall angle greater than about 4° up to about 30° measured from an axis orthogonal to a plane defined by the exit surface of the nozzle plate layer.

Abstract translation: 用于微流体喷射头的改进的光刻喷嘴板，包含喷嘴板的微流体喷射头以及用于制造微流体喷射头的方法。 改进的喷嘴板由涂覆在包含流体喷射器致动器的半导体衬底上的厚膜层上的光致抗蚀剂喷嘴板层提供。 光致抗蚀剂喷嘴板层中具有多个喷嘴孔。 每个喷嘴孔从喷嘴板层的出射面到喷嘴板层的入射面形成在喷嘴板层中。 每个喷嘴孔具有从垂直于由喷嘴板层的出射表面限定的平面的轴测量的壁角大于约4°至多约30°的折入孔轮廓。

公开(公告)号：US07254890B2

公开(公告)日：2007-08-14

申请号：US11026504

申请日：2004-12-30

Applicant: Johnathan L. Barnes ,  Craig M. Bertelsen ,  Brian C. Hart ,  Gary R. Williams ,  Sean T. Weaver ,  Girish S. Patil

Inventor： Johnathan L. Barnes ,  Craig M. Bertelsen ,  Brian C. Hart ,  Gary R. Williams ,  Sean T. Weaver ,  Girish S. Patil

IPC: B21D53/76 ,  B41J2/04

CPC classification number: B41J2/1628 ,  B41J2/14024 ,  B41J2/1404 ,  B41J2/14072 ,  B41J2/1603 ,  B41J2/1623 ,  B41J2/1629 ,  B41J2/1631 ,  B41J2/1632 ,  B41J2/1634 ,  B41J2/1635 ,  B41J2/1639 ,  B41J2/1645 ,  Y10T29/49135 ,  Y10T29/49139 ,  Y10T29/4914 ,  Y10T29/49401 ,  Y10T29/4979 ,  Y10T29/49798

Abstract: A method of making a micro-fluid ejection head structure for a micro-fluid ejection device. The method includes applying a removable mandrel material to a semiconductor substrate wafer containing fluid ejection actuators on a device surface thereof. The mandrel material is shaped to provide fluid chamber and fluid channel locations on the substrate wafer. A micro machinable material is applied to the shaped mandrel and the device surface of the wafer to provide a nozzle plate and flow feature layer on the shaped mandrel and wafer. A plurality of nozzle holes are formed in the nozzle plate and flow feature layer. The shaped mandrel material is then removed from the device surface of the substrate wafer to provide fluid chambers and fluid channels in the nozzle plate and flow feature layer.

Abstract translation: 一种制造用于微流体喷射装置的微流体喷射头结构的方法。 该方法包括将可移除的心轴材料施加到在其装置表面上含有流体喷射致动器的半导体衬底晶片。 心轴材料成型为在衬底晶片上提供流体室和流体通道位置。 将微加工材料施加到成形心轴和晶片的装置表面，以在成形心轴和晶片上提供喷嘴板和流动特征层。 在喷嘴板和流动特征层中形成多个喷嘴孔。 然后将成形的心轴材料从衬底晶片的器件表面移除，以在喷嘴板和流动特征层中提供流体室和流体通道。

公开(公告)号：US07041226B2

公开(公告)日：2006-05-09

申请号：US10701225

申请日：2003-11-04

Applicant: Karthik Vaideeswaran ,  Andrew L. McNees ,  John W. Krawczyk ,  James M. Mrvos ,  Cory N. Hammond ,  Mark L. Doerre ,  Jason T. Vanderpool ,  Girish S. Patil ,  Christopher J. Money ,  Gary R. Williams ,  Richard L. Warner

Inventor： Karthik Vaideeswaran ,  Andrew L. McNees ,  John W. Krawczyk ,  James M. Mrvos ,  Cory N. Hammond ,  Mark L. Doerre ,  Jason T. Vanderpool ,  Girish S. Patil ,  Christopher J. Money ,  Gary R. Williams ,  Richard L. Warner

IPC: G01D15/00 ,  H01L21/00

CPC classification number: B41J2/1632 ,  B41J2/14145 ,  B41J2/1603 ,  B41J2/1623 ,  B41J2/1628 ,  B41J2/1631 ,  B41J2/1645 ,  B41J2/1646

Abstract: A method for improving fluidic flow for a microfluidic device having a through hole or slot therein. The method includes the steps of forming one or more openings through at least part of a thickness of a substrate from a first surface to an opposite second surface using a reactive ion etching process whereby an etch stop layer is applied to side wall surfaces in the one or more openings during alternating etching and passivating steps as the openings are etched through at least a portion of the substrate. Substantially all of the etch stop layer coating is removed from the side wall surfaces by treating the side wall surfaces using a method selected from chemical treatment and mechanical treatment, whereby a surface energy of the treated side wall surfaces is increased relative to a surface energy of the side wall surfaces containing the etch stop layer coating.

Abstract translation: 一种用于改善其中具有通孔或槽的微流体装置的流体流动的方法。 该方法包括以下步骤：使用反应离子蚀刻工艺从基板的第一表面至相对的第二表面形成穿过衬底的至少一部分厚度的一个或多个开口，由此将蚀刻停止层施加到一个侧壁表面 或者在交替蚀刻和钝化步骤期间，当开口被蚀刻通过衬底的至少一部分时，可以有更多的开口。 通过使用选自化学处理和机械处理的方法处理侧壁表面，从侧壁表面去除基本上所有的蚀刻停止层涂层，由此所处理的侧壁表面的表面能相对于 所述侧壁表面包含所述蚀刻停止层涂层。

公开(公告)号：US09445933B2

公开(公告)日：2016-09-20

申请号：US13251801

申请日：2011-10-03

Applicant: Gary R. Williams

Inventor： Gary R. Williams

IPC: A61F5/058

CPC classification number: A61F5/05833

Abstract: A vacuum splint for maintaining a person in an immobilized state includes a flexible airtight casing upon which a patient is placed. The casing has an internal chamber that contains a large number of beads. Valves are provided to develop a vacuum within the chamber to convert the casing from a relatively soft, flexible state to a rigid, evacuated state. A semi-rigid member spans the length of the vacuum splint that resists longitudinal compression when air is evacuated from the chamber. The semi-rigid member also retains sufficient longitudinal and lateral flexibility such that it allows the vacuum splint to be molded to various patient positions and folded or rolled up when not in an evacuated state. The head end of the vacuum splint includes two protrusions that extend upward. When in an evacuated state, these protrusions extend over either side of a patient's head thereby providing support and protection.

Abstract translation: 用于维持处于固定状态的人的真空夹板包括柔性气密套管，病人放在其上。 壳体具有包含大量珠粒的内部腔室。 提供阀以在室内形成真空，以将壳体从相对柔软的柔性状态转换成刚性的抽真空状态。 半刚性构件跨越真空夹板的长度，当空气从腔室排出时，其抵抗纵向压缩。 半刚性构件还保持足够的纵向和侧向柔性，使得其允许真空夹板模制到各种患者位置，并且在不处于抽空状态时折叠或卷起。 真空夹板的头端包括向上延伸的两个突起。 当处于抽真空状态时，这些突起在患者头部的任一侧延伸，从而提供支撑和保护。