公开(公告)号：US08888898B1

公开(公告)日：2014-11-18

申请号：US13561780

申请日：2012-07-30

Applicant: Jeremy Rice ,  Jeffrey Spaulding

Inventor： Jeremy Rice ,  Jeffrey Spaulding

IPC: B01D19/00

CPC classification number: F28D15/0283 ,  F25B45/00 ,  F28F2265/18

Abstract: A two-phase working fluid, having a liquid phase and a gas phase, is purged of non-condensable gas prior to being used to charge a closed thermal management system, improving the heat transfer performance of the thermal management system. The liquid phase of the two-phase working fluid is exposed to conditions that cause non-condensable gas to separate from the two-phase working fluid. The non-condensable gas is vented, and two-phase working fluid that vaporizes under the conditions is captured.

Abstract translation: 在用于对封闭的热管理系统进行充电之前，具有液相和气相的两相工作流体被清除不可冷凝的气体，从而提高热管理系统的传热性能。 两相工作流体的液相暴露于使不可冷凝气体与两相工作流体分离的条件下。 排出不可冷凝气体，捕获在这种条件下汽化的两相工作流体。

公开(公告)号：US20080047324A1

公开(公告)日：2008-02-28

申请号：US11776128

申请日：2007-07-11

Applicant: Dean Davis ,  Kenneth Gallaher ,  Eugene Kesselhuth ,  Jeffrey Spaulding

Inventor： Dean Davis ,  Kenneth Gallaher ,  Eugene Kesselhuth ,  Jeffrey Spaulding

IPC: G01N1/22 ,  G01N30/72

CPC classification number: H01J49/04 ,  G01N2001/2261 ,  Y10T436/25875

Abstract: The present invention is a method and apparatus for sampling a high-temperature gaseous process stream containing components with high boiling points. The sampling system is especially suited for instruments having extremely low pressure chambers, such as mass spectrometers. The invention reduces the condensation of high boiling point components of the sample in the sampling system without the necessity of maintaining extremely high temperatures. The gaseous sample is passed through an orifice from the high temperature stream into a lower-temperature zone of the sampling system where a low pressure is maintained by a vacuum pump. The low pressure reduces the boiling point of the sample components so they may be maintained in a gas phase without excessive heating. The low pressure sample is then introduced into an instrument chamber through a sample introduction valve.

Abstract translation: 本发明是用于对含有高沸点成分的高温气态工艺流进行取样的方法和装置。 采样系统特别适用于具有极低压力室的仪器，如质谱仪。 本发明减少了采样系统中样品的高沸点组分的冷凝，而不需要保持极高的温度。 气态样品通过孔从高温流进入采样系统的低温区，其中真空泵保持低压。 低压降低了样品组分的沸点，因此它们可以保持在气相中而不会过度加热。 然后将低压样品通过样品引入阀引入仪器室。

公开(公告)号：US20050158876A1

公开(公告)日：2005-07-21

申请号：US10785304

申请日：2004-02-24

Applicant: Dean Davis ,  Jeffrey Spaulding ,  Eugene Kesselhuth

Inventor： Dean Davis ,  Jeffrey Spaulding ,  Eugene Kesselhuth

IPC: G01N1/00 ,  G01N1/22 ,  H01J49/04

CPC classification number: H01J49/04 ,  G01N2001/2261 ,  Y10T436/25875

Abstract: The present invention is a method and apparatus for sampling a high-temperature gaseous process stream containing components with high boiling points. The sampling system is especially suited for instruments having extremely low pressure chambers, such as mass spectrometers. The invention reduces the condensation of high boiling point components of the sample in the sampling system without the necessity of maintaining extremely high temperatures. The gaseous sample is passed through an orifice from the high temperature stream into a lower-temperature zone of the sampling system where a low pressure is maintained by a vacuum pump. The low pressure reduces the boiling point of the sample components so they may be maintained in a gas phase without excessive heating. The low pressure sample is then introduced into an instrument chamber through a sample introduction valve.

Abstract translation: 本发明是用于对含有高沸点成分的高温气态工艺流进行取样的方法和装置。 采样系统特别适用于具有极低压力室的仪器，如质谱仪。 本发明减少了采样系统中样品的高沸点组分的冷凝，而不需要保持极高的温度。 气态样品通过孔从高温流进入采样系统的低温区，其中真空泵保持低压。 低压降低了样品组分的沸点，因此它们可以保持在气相中而不会过度加热。 然后将低压样品通过样品引入阀引入仪器室。

公开(公告)号：US08773854B2

公开(公告)日：2014-07-08

申请号：US13093609

申请日：2011-04-25

Applicant: Jeremy Rice ,  Bill Dailey ,  Jeffrey Spaulding

Inventor： Jeremy Rice ,  Bill Dailey ,  Jeffrey Spaulding

IPC: H05K7/20 ,  F28D15/00

CPC classification number: H05K7/20809 ,  F25B21/02 ,  F28D15/0233 ,  F28D15/04 ,  F28D15/043 ,  G06F1/20 ,  G06F2200/201 ,  H01L23/427 ,  H01L2924/0002 ,  H05K7/20 ,  H05K7/20245 ,  H05K7/20309 ,  H05K7/20318 ,  H05K7/20327 ,  H05K7/20336 ,  H05K7/20672 ,  H05K7/20727 ,  H05K7/20736 ,  H05K7/20818 ,  H01L2924/00

Abstract: A thermosiphon system includes a condenser and an evaporator fluidically coupled to the condenser by a condensate line. The evaporator includes a housing having an opening to the condensate line, a wick located in the housing, and a flow restrictor located in the housing configured to restrict flow of a working fluid from the condensate line onto a portion of the wick.

Abstract translation: 热虹吸系统包括冷凝器和通过冷凝管线与冷凝器流体耦合的蒸发器。 蒸发器包括具有到冷凝物管线的开口的壳体，位于壳体中的芯，以及位于壳体中的限流器，该限流器被构造成限制工作流体从冷凝物管线流到油绳的一部分上。

公开(公告)号：US20120268877A1

公开(公告)日：2012-10-25

申请号：US13093609

申请日：2011-04-25

Applicant: Jeremy Rice ,  Bill Dailey ,  Jeffrey Spaulding

Inventor： Jeremy Rice ,  Bill Dailey ,  Jeffrey Spaulding

IPC: G06F1/16 ,  F28D15/04

CPC classification number: H05K7/20809 ,  F25B21/02 ,  F28D15/0233 ,  F28D15/04 ,  F28D15/043 ,  G06F1/20 ,  G06F2200/201 ,  H01L23/427 ,  H01L2924/0002 ,  H05K7/20 ,  H05K7/20245 ,  H05K7/20309 ,  H05K7/20318 ,  H05K7/20327 ,  H05K7/20336 ,  H05K7/20672 ,  H05K7/20727 ,  H05K7/20736 ,  H05K7/20818 ,  H01L2924/00

Abstract: A thermosiphon system includes a condenser and an evaporator fluidically coupled to the condenser by a condensate line. The evaporator includes a housing having an opening to the condensate line, a wick located in the housing, and a flow restrictor located in the housing configured to restrict flow of a working fluid from the condensate line onto a portion of the wick

Abstract translation: 热虹吸系统包括冷凝器和通过冷凝管线与冷凝器流体耦合的蒸发器。 蒸发器包括具有到冷凝物管线的开口的壳体，位于壳体中的芯，以及位于壳体中的限流器，其构造成限制工作流体从冷凝物管线流到芯部的一部分上

公开(公告)号：US20110141269A1

公开(公告)日：2011-06-16

申请号：US12639266

申请日：2009-12-16

Applicant: Stephen Michael Varga ,  Charles Jeffrey Spaulding

Inventor： Stephen Michael Varga ,  Charles Jeffrey Spaulding

IPC: H04N7/18

CPC classification number: G01N21/8903

Abstract: Various embodiments are directed to apparatuses for inspecting an on-line product web moving relative to the apparatus in a machine direction. The apparatuses may comprise a line-scan camera defining a field of view and positioned such that the field of view includes a portion of the product web. A camera control system may be in electronic communication with the camera and may be configured to receive from the web velocity sensor web velocity data indicating a velocity of the product web and convert the web velocity data to a line trigger signal. The line trigger signal may indicate a temporal frequency of camera image captures necessary to achieve a constant machine direction pixel resolution. Additionally, the camera control system may be configured to receive product position data and generate a frame trigger signal considering the product position data. The frame trigger signal may indicate a break between image frames.

Abstract translation: 各种实施例涉及用于检查在机器方向上相对于设备移动的在线产品卷筒的装置。 所述装置可以包括定义视场的行扫描照相机，并且定位成使得视野包括产品卷筒纸的一部分。 相机控制系统可以与相机电子通信，并且可以被配置为从网页速度传感器web接收指示产品卷筒纸的速度的速度数据，并将卷筒纸速度数据转换成线路触发信号。 行触发信号可以指示实现恒定的机器方向像素分辨率所需的摄像机图像捕获的时间频率。 此外，相机控制系统可以被配置为接收产品位置数据并且考虑产品位置数据生成帧触发信号。 帧触发信号可以指示图像帧之间的间隔。