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公开(公告)号:US20140298851A1
公开(公告)日:2014-10-09
申请号:US14356961
申请日:2012-10-08
IPC分类号: F25D17/06
CPC分类号: F25D17/06 , F25D13/06 , F25D13/062
摘要: A contact freezer (10) combining the techniques of plate freezing and impingement freezing. One or more cooling modules (11) are disposed sequentially with a continuous conveyor (14) for carrying a food product. Each cooling module (11) includes a refrigerated plate (16) disposed underneath and supporting the conveyor (14). The food product is simultaneously cooled using the impingement freezing technique. A cooling coil (19) is disposed above the conveyor (14). One or more fans (22) disposed below the cooling coil (19) circulate air downwardly through the cooling coil (19) and through an array of diverters (23) so that high speed cooled air is directed onto the food product. The contact freezer (10) may also include a pre-chilling section (12) with a refrigerated plate (24) but without impingement freezing elements.
摘要翻译: 接触冷冻机(10)结合板冷冻和冲击冷冻的技术。 一个或多个冷却模块(11)依次设置有用于承载食品的连续输送机(14)。 每个冷却模块(11)包括布置在下面并支撑输送机(14)的冷藏板(16)。 使用冲击冷冻技术同时冷却食品。 冷却盘管(19)设置在输送机(14)的上方。 设置在冷却盘管(19)下方的一个或多个风扇(22)将空气向下循环通过冷却盘管(19)并通过一系列转向器(23),使得高速冷却的空气被引导到食品上。 接触冷冻器(10)还可以包括具有冷藏板(24)但没有冲击冷冻元件的预冷段(12)。
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公开(公告)号:US08304403B2
公开(公告)日:2012-11-06
申请号:US12797760
申请日:2010-06-10
申请人: Mark E. Salvati , Heather Finlay , Bang-Chi Chen , Lalgudi S. Harikrishnan , Ji Jiang , James A. Johnson , Muthoni G. Kamau , R. Michael Lawrence , Jianqing Li , John Lloyd , Michael M. Miller , Zulan Pi , Jennifer X. Qiao , Richard A. Rampulla , Jacques Y. Roberge , Tammy C. Wang , Yufeng Wang , Wu Yang
发明人: Mark E. Salvati , Heather Finlay , Bang-Chi Chen , Lalgudi S. Harikrishnan , Ji Jiang , James A. Johnson , Muthoni G. Kamau , R. Michael Lawrence , Jianqing Li , John Lloyd , Michael M. Miller , Zulan Pi , Jennifer X. Qiao , Richard A. Rampulla , Jacques Y. Roberge , Tammy C. Wang , Yufeng Wang , Wu Yang
IPC分类号: A61K31/695 , A61K31/17 , A61K31/165 , A61K31/426 , A61K31/4468 , A61K31/50 , A61K31/535 , C07C273/00 , C07D277/20 , C07D211/98 , C07D239/02 , C07D205/08
CPC分类号: C07C275/26 , C07C211/29 , C07C215/08 , C07C217/58 , C07C229/36 , C07C229/38 , C07C233/09 , C07C233/13 , C07C233/18 , C07C233/56 , C07C233/60 , C07C233/66 , C07C233/73 , C07C233/78 , C07C235/20 , C07C235/34 , C07C235/48 , C07C235/74 , C07C237/06 , C07C237/08 , C07C251/38 , C07C255/13 , C07C255/57 , C07C255/60 , C07C271/16 , C07C271/20 , C07C271/44 , C07C275/24 , C07C311/04 , C07C311/17 , C07C317/44 , C07C323/57 , C07C2601/02 , C07C2601/04 , C07C2601/08 , C07C2601/14 , C07D205/08 , C07D207/10 , C07D207/16 , C07D207/26 , C07D207/273 , C07D207/325 , C07D207/38 , C07D209/18 , C07D209/20 , C07D209/42 , C07D209/48 , C07D211/38 , C07D211/58 , C07D213/38 , C07D213/40 , C07D213/82 , C07D231/14 , C07D231/40 , C07D239/26 , C07D249/04 , C07D249/06 , C07D249/08 , C07D249/14 , C07D257/04 , C07D257/06 , C07D261/04 , C07D261/08 , C07D261/14 , C07D261/18 , C07D263/34 , C07D271/06 , C07D271/10 , C07D271/113 , C07D277/48 , C07D277/58 , C07D277/60 , C07D285/06 , C07D285/135 , C07D295/155 , C07D303/48 , C07D307/22 , C07D307/24 , C07D307/33 , C07D307/68 , C07D307/79 , C07D307/85 , C07D311/58 , C07D317/46 , C07D319/20 , C07D333/20 , C07D333/24 , C07D333/38 , C07D333/68 , C07D333/70 , C07D471/04 , C07F7/081
摘要: Compounds of formula Ia and Ib and wherein A, B, C and R1 are described herein.
摘要翻译: 式Ia和Ib化合物,其中A,B,C和R 1在本文中描述。
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公开(公告)号:US07888376B2
公开(公告)日:2011-02-15
申请号:US11559930
申请日:2006-11-15
申请人: Mark E. Salvati , Heather Finlay , Lalgudi S. Harikrishnan , Ji Jiang , James A. Johnson , Muthoni G. Kamau , R. Michael Lawrence , Michael M. Miller , Jennifer X. Qiao , Tammy C. Wang , Yufeng Wang , Wu Yang
发明人: Mark E. Salvati , Heather Finlay , Lalgudi S. Harikrishnan , Ji Jiang , James A. Johnson , Muthoni G. Kamau , R. Michael Lawrence , Michael M. Miller , Jennifer X. Qiao , Tammy C. Wang , Yufeng Wang , Wu Yang
IPC分类号: C07D213/56 , A61K31/44
CPC分类号: C07D417/06 , C07D213/40 , C07D213/61 , C07D277/28 , C07D401/04 , C07D401/12 , C07D405/06 , C07D405/12 , C07D417/12
摘要: Compounds of formula Ia and Ib wherein A, B, C and R1 are described herein.
摘要翻译: 其中A,B,C和R 1的化合物在此描述。
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公开(公告)号:US07761358B2
公开(公告)日:2010-07-20
申请号:US12420484
申请日:2009-04-08
IPC分类号: G06Q40/00
CPC分类号: G06Q20/04 , G06Q20/0425 , G06Q40/00
摘要: A real time financial instrument image exchange system and method deliver a digital image of a financial instrument (for example, a bank check) very quickly through an image exchange network to a payor institution by promptly forwarding the digital image when it is created at a depositing institution. This may expedite pay or return decisions to be made by payor institutions, which may enable banks to truncate checks, to reduce fraud and its costs, and to facilitate compliance with banking regulations. Such image capture, as well as related data capture, and real-time transfer enable emulation to an item processing system of the payor institution whereby the payor's item processing system processes the image and data as if it did the original capture actually performed at the depositing institution.
摘要翻译: 实时金融工具图像交换系统和方法通过图像交换网络将金融工具的数字图像(例如,银行支票)提供给付款机构,在数字图像创建时立即转发数字图像 机构。 这可能会加快付款机构的付款或退款决定,这可能会使银行截断支票,减少欺诈及其成本,并有助于遵守银行法规。 这样的图像捕获以及相关的数据捕获和实时传输使得能够对付款机构的物品处理系统进行仿真,由此付款人的物品处理系统处理图像和数据,就好像它在存款中实际执行原始捕获一样 机构。
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公开(公告)号:US07173419B1
公开(公告)日:2007-02-06
申请号:US11536797
申请日:2006-09-29
申请人: Mark B Johnson , Michael M Miller
发明人: Mark B Johnson , Michael M Miller
IPC分类号: G01R33/02
CPC分类号: G01R33/022
摘要: Magnetic field sensors, each generating an electrical output signal in proportion to the local magnetic field, are lithographically fabricated on a semiconductor substrate with a small spatial separation. The lateral dimension of the sensors and the separation length are the order of the minimum lithographic feature size. Comparing the electrical signals of the sensors results in a measurement of the local magnetic field gradient. Large field gradients, that vary on a small spatial scale, may be associated small magnetic structures such as microscopic magnetic particles. Detection of a field gradient can be used to infer the presence of a magnetic particle.
摘要翻译: 每个产生与局部磁场成比例的电输出信号的磁场传感器在具有小的空间间隔的半导体衬底上进行光刻制造。 传感器的横向尺寸和分离长度是最小光刻特征尺寸的顺序。 比较传感器的电信号可以测量局部磁场梯度。 在小空间尺度上变化的大场梯度可以与小的磁性结构例如微观磁性颗粒相关联。 可以使用场梯度的检测来推断磁性颗粒的存在。
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公开(公告)号:US20090198606A1
公开(公告)日:2009-08-06
申请号:US12420484
申请日:2009-04-08
IPC分类号: G06Q40/00
CPC分类号: G06Q20/04 , G06Q20/0425 , G06Q40/00
摘要: A real time financial instrument image exchange system and method deliver a digital image of a financial instrument (for example, a bank check) very quickly through an image exchange network to a payor institution by promptly forwarding the digital image when it is created at a depositing institution. This may expedite pay or return decisions to be made by payor institutions, which may enable banks to truncate checks, to reduce fraud and its costs, and to facilitate compliance with banking regulations. Such image capture, as well as related data capture, and real-time transfer enable emulation to an item processing system of the payor institution whereby the payor's item processing system processes the image and data as if it did the original capture actually performed at the depositing institution.
摘要翻译: 实时金融工具图像交换系统和方法通过图像交换网络将金融工具的数字图像(例如,银行支票)提供给付款机构,在数字图像创建时立即转发数字图像 机构。 这可能会加快付款机构的付款或退款决定,这可能会使银行截断支票,减少欺诈及其成本,并有助于遵守银行法规。 这样的图像捕获以及相关的数据捕获和实时传输使得能够对付款机构的物品处理系统进行仿真,由此付款人的物品处理系统处理图像和数据,就好像它在存款中实际执行原始捕获一样 机构。
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公开(公告)号:US07242188B1
公开(公告)日:2007-07-10
申请号:US11470128
申请日:2006-09-05
申请人: Mark B Johnson , Michael M Miller
发明人: Mark B Johnson , Michael M Miller
CPC分类号: G01R33/022
摘要: Magnetic field sensors, each generating an electrical output signal in proportion to the local magnetic field, are lithographically fabricated on a semiconductor substrate with a small spatial separation. The lateral dimension of the sensors and the separation length are the order of the minimum lithographic feature size. Comparing the electrical signals to the sensors results in a measurement of the local magnetic field gradient. Large field gradients, that vary on a small spatial scale, may be associated small magnetic structures such as microscopic magnetic particles. Detection of a field gradient can be used to infer the presence of a magnetic particle.
摘要翻译: 每个产生与局部磁场成比例的电输出信号的磁场传感器在具有小的空间间隔的半导体衬底上进行光刻制造。 传感器的横向尺寸和分离长度是最小光刻特征尺寸的顺序。 将电信号与传感器进行比较可以测量局部磁场梯度。 在小空间尺度上变化的大场梯度可以与小的磁性结构例如微观磁性颗粒相关联。 可以使用场梯度的检测来推断磁性颗粒的存在。
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公开(公告)号:US06844202B2
公开(公告)日:2005-01-18
申请号:US10226049
申请日:2002-08-23
申请人: Gary A. Prinz , Michael M. Miller
发明人: Gary A. Prinz , Michael M. Miller
IPC分类号: G01N33/58 , G01N15/10 , G01N27/72 , G01N33/543 , G01R33/09 , G11C11/15 , G01N33/553
CPC分类号: G11C11/15 , G01N27/745 , G01N33/54326
摘要: A magnetic sensing element detects the presence of magnetic particles in a binding assay. The magnetic sensing element has at least one planar layer of electrically conductive ferromagnetic material that has an initial state in which the material has a circular magnetic moment within the plane of the layer. The magnetic sensing element has molecules of a first specific binding member attached to it. The device also includes a fluid test medium to which the magnetic sensing element is exposed during the course of a binding assay. The fluid test medium includes magnetizable particles that become immobilized during the assay in relation to the amount of analyte in the test medium. The relative size of the magnetic particle and the magnetic sensing element and the location of the molecules of the first specific binding member on the magnetic sensing element are selected so that when the magnetic particle becomes immobilized with respect to the magnetic sensing element, the radial fringing field of the magnetic particle causes the magnetic moment of at least one layer of electrically conductive ferromagnetic material to shift from circular to radial, thereby causing a detectable change in the electrical resistance of the magnetic sensing element.
摘要翻译: 磁感应元件在结合测定中检测磁性颗粒的存在。 磁传感元件具有至少一个导电铁磁材料的平面层,其具有初始状态,其中该材料在该层的平面内具有圆形磁矩。 磁传感元件具有连接到其上的第一特定结合构件的分子。 该装置还包括流体测试介质,磁性感测元件在结合测定过程中暴露于其中。 流体测试介质包括在测定期间相对于测试介质中的分析物的量变得固定的可磁化颗粒。 选择磁性粒子和磁感应元件的相对尺寸以及第一特定结合件在磁感应元件上的分子的位置,使得当磁性颗粒相对于磁敏元件固定时,径向条纹 磁性颗粒的磁场使得至少一层导电铁磁材料的磁矩从圆形向径向移动,从而导致磁感测元件的电阻的可检测变化。
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公开(公告)号:US06468809B1
公开(公告)日:2002-10-22
申请号:US09497754
申请日:2000-02-04
申请人: Gary A. Prinz , Michael M. Miller
发明人: Gary A. Prinz , Michael M. Miller
IPC分类号: G01N33553
CPC分类号: G11C11/15 , G01N27/745 , G01N33/54326
摘要: A magnetic sensing element detects the presence of magnetic particles in a binding assay. The magnetic sensing element has at least one planar layer of electrically conductive ferromagnetic material that has an initial state in which the material has a circular magnetic moment within the plane of the layer. The magnetic sensing element has molecules of a first specific binding member attached to it. The device also includes a fluid test medium to which the magnetic sensing element is exposed during the course of a binding assay. The fluid test medium includes magnetizable particles that become immobilized during the assay in relation to the amount of analyte in the test medium. The relative size of the magnetic particle and the magnetic sensing element and the location of the molecules of the first specific binding member on the magnetic sensing element arc selected so that when the magnetic particle becomes immobilized with respect to the magnetic sensing element, the radial fringing field of the magnetic particle causes the magnetic moment of at least one layer of electrically conductive ferromagnetic material to shift from circular to radial, thereby causing a detectable change in the electrical resistance of the magnetic sensing element.
摘要翻译: 磁感应元件在结合测定中检测磁性颗粒的存在。 磁传感元件具有至少一个导电铁磁材料的平面层,其具有初始状态,其中该材料在该层的平面内具有圆形磁矩。 磁传感元件具有连接到其上的第一特定结合构件的分子。 该装置还包括流体测试介质,磁性感测元件在结合测定过程中暴露于其中。 流体测试介质包括在测定期间相对于测试介质中的分析物的量变得固定的可磁化颗粒。 选择磁性粒子和磁性感测元件的相对尺寸以及磁性感测元件上的第一特定结合构件的分子的位置,使得当磁性颗粒相对于磁敏元件固定时,径向条纹 磁性颗粒的磁场使得至少一层导电铁磁材料的磁矩从圆形向径向移动,从而导致磁感测元件的电阻的可检测变化。
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公开(公告)号:US5061742A
公开(公告)日:1991-10-29
申请号:US524010
申请日:1990-05-16
申请人: Michael M. Miller
发明人: Michael M. Miller
CPC分类号: C08J3/03 , C08G81/025 , C08J2387/00
摘要: Stable aqueous acrylic resin dispersions are made from a dispersion in water of the reaction product of a carboxylic acid containing acrylic resin and a diglycidyl ether of a polyoxyalkylene glycol.
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