会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Spacer element for multiglazed windows and windows using the element
    • 使用元素的多重窗口和窗口的间隔元素
    • US4835926A
    • 1989-06-06
    • US233535
    • 1988-08-18
    • Richard T. King
    • Richard T. King
    • E06B3/677
    • E06B3/677
    • The invention is a multiglazed window and a spacer element for the window. The spacer element is made in the form of a flexible, resilient elongated body member of generally rectangular cross section. This has an elongated interior chamber located along its longitudinal axis. The chamber is partitioned by a flexible diaphragm into two separate chambers. One of these chambers is in communication through longitudinally spaced-apart apertures with the interior volume of the window. The other chamber is in communication through similar apertures with the outside environment. The diaphragm is preferably of S-shaped configuration having a cross sectional length which corresponds to half of the circumference of the interior chamber. As pressure changes occur between the gas within the window and the outside environment the diaphragm will reform to accommodate the resulting volume change. This maintains equal interior and exterior pressures preventing glass deformation.
    • 本发明是用于窗户的多窗口和间隔元件。 间隔元件制成具有大致矩形横截面的柔性弹性细长主体构件的形式。 这具有沿其纵向轴线定位的细长内部腔室。 室由柔性隔膜分隔成两个独立的室。 这些腔室中的一个通过与窗口的内部容积的纵向间隔开的孔连通。 另一个室通过与外部环境相似的孔连通。 隔膜优选为具有对应于内部室的圆周的一半的横截面长度的S形构造。 由于在窗内的气体与外部环境之间发生压力变化,隔膜将重新变形以适应所产生的体积变化。 这保持了相同的内部和外部压力,防止玻璃变形。
    • 3. 发明授权
    • Spacer element for multiglazed windows and windows using the element
    • 使用元素的多重窗口和窗口的间隔元素
    • US4942704A
    • 1990-07-24
    • US359507
    • 1989-06-01
    • Richard T. King
    • Richard T. King
    • E06B3/677
    • E06B3/677
    • The invention is a multiglazed window and a spacer element for the window. The spacer element is made in the form of an elongated body member of generally rectangular cross section. This has an elongated interior chamber located along its longitudinal axis. The chamber is partitioned by a flexible diaphragm into two separate chambers. One of these chambers is in communication through longitudinally spaced-apart apertures with the interior volume of the window. The other chamber is in communication through similar apertures with the outside environment. the diaphragm is preferably of S-shaped configuration having a cross sectional length which corresponds to half of the circumference of the interior chamber. As pressure changes occur between the gas within the window and the outside environment the diaphragm will reform to accommodate the resulting volume change. This maintains equal interior and exterior pressures preventing glass deformation. The spacer element may be a unitary extrusion or it may be a fabrication of separate body portions with a flexible diaphragm that could be of a different material.
    • 本发明是用于窗户的多窗口和间隔元件。 间隔元件制成大致矩形横截面的细长本体构件的形式。 这具有沿其纵向轴线定位的细长内部腔室。 室由柔性隔膜分隔成两个独立的室。 这些腔室中的一个通过与窗口的内部容积的纵向间隔开的孔连通。 另一个室通过与外部环境相似的孔连通。 隔膜优选为具有对应于内部室的圆周的一半的横截面长度的S形构造。 由于在窗内的气体与外部环境之间发生压力变化,隔膜将重新变形以适应所产生的体积变化。 这保持了相同的内部和外部压力,防止玻璃变形。 间隔元件可以是整体挤压件,或者它可以是具有可以是不同材料的柔性隔膜的分开的本体部分的制造。
    • 5. 发明授权
    • Veneer lathe scanning system
    • 单板车床扫描系统
    • US4356850A
    • 1982-11-02
    • US191884
    • 1980-09-29
    • Darrell N. HalgrimsonDonald H. HansonRichard T. King
    • Darrell N. HalgrimsonDonald H. HansonRichard T. King
    • B27L5/02G01B17/02B27B1/00
    • G01B17/02B27L5/022
    • A pair of sonic transducers are mounted above a peeler block on a veneer lathe, adjacent opposite ends of the block. Bursts of sonic energy are directed downward to strike the surface of the block such that sonic energy is reflected from the block surface to the transducers. The distance from the transducers to the axis of rotation of the lathe spindle upon which the block is mounted is known and, as a consequence, the radius of the peeler block may be determined in response to the ultrasonically measured distance from the transducers to the block surface. A series of radius measurements may be made as the block is rotated on the lathe spindle. Additionally, measurements may be made when a log is first loaded onto the lathe, after the log is rounded up, and after peeling of the block is completed.
    • 一对声音换能器安装在单板车床上的剥离器块上方,邻近块体的相对端。 声能的突发被向下引导以撞击块的表面,使得声能从块表面反射到换能器。 传感器到安装有该块的车床主轴的旋转轴线的距离是已知的,因此,可以响应于从换能器到块体的超声测量的距离来确定剥离器块的半径 表面。 可以在车床主轴上旋转块时进行一系列半径测量。 此外,当日志首先被加载到车床上之后,在对齐四舍五入之后,并且完成了块的剥离之后,可以进行测量。
    • 6. 发明授权
    • Fiber optic adapter shutter door assembly
    • 光纤适配器快门门组件
    • US06206577B1
    • 2001-03-27
    • US09244450
    • 1999-02-04
    • Thomas A. Hall, IIIRichard T. KingCraig S. Henderson
    • Thomas A. Hall, IIIRichard T. KingCraig S. Henderson
    • G02B636
    • G02B6/3825G02B6/3849G02B2006/4297
    • A new and unique connector adapter shutter door assembly retrofitable to many existing connector adapters or receptacles which becomes a part of the same by connectedly fitting or snapping into place. The shutter door assembly can be used as a safety device to prevent laser light from escaping when a connector is removed from an adapter or receptacle. Because of the ease with which the shutter door assembly can be retrofitted to existing adapters, it is possible to selectively install the shutter door assembly only when a safety hazard is present. Also the shutter door assembly can be used to shield a connector end to prevent foreign matter, such as dust and dirt, from entering the connector. The shutter door assembly is a molded one-piece structure and has inwardly hinged doors permitting one hand connector insertion and withdrawal. The streamline design of the shutter door assembly takes very little space when in use making it desirable for typical space constrained applications.
    • 一个新的独特的连接器适配器快门门组件可以改装成许多现有的连接器适配器或插座,通过连接适配或固定到位,成为其一部分。 快门门组件可以用作安全装置,以防止当连接器从适配器或插座移除时激光脱离。 由于快门门组件可以轻松地改装到现有的适配器,因此只有在存在安全隐患时才能选择性地安装快门门组件。 还可以使用挡板门组件来屏蔽连接器端部,以防止异物(例如灰尘和污物)进入连接器。 快门门组件是模制的一体式结构,并且具有允许单手连接器插入和退出的向内铰链门。 快门门组件的流线型设计在使用时占用很小的空间,因此对于典型的空间有限的应用来说是理想的。