公开(公告)号：US20050232762A1

公开(公告)日：2005-10-20

申请号：US10829114

申请日：2004-04-20

申请人： Jason Smoke ,  Cristopher Frost ,  Richard Kocher ,  Jeff Guymon ,  Ly Nguyen

发明人： Jason Smoke ,  Cristopher Frost ,  Richard Kocher ,  Jeff Guymon ,  Ly Nguyen

IPC分类号： F01D9/02 ,  F04D29/44 ,  F04D29/62

CPC分类号： F04D29/444 ,  F01D9/026 ,  F04D29/624 ,  F05D2220/40 ,  F05D2250/52

摘要： A compressor scroll housing for use in conjunction with turbo-machinery, particularly applicable in aircraft. The scroll housing can include a plurality of scroll vanes arrayed around the scroll housing. Scroll vanes, integrally formed with the scroll housing, carry stress load on the scroll housing, including the load from fluid pressure within the scroll and carcass loading from the engine. The plurality of scroll vanes adapted for guiding flow of fluid from an inlet to an outlet while supporting the scroll housing. Chord length and cross sectional area of each scroll vane can be sized to maintain an equal stress in all scroll vanes. A method of making the scroll housing for use with an impeller connected to an engine is disclosed, as well as a method of operating turbo-machinery including supporting a load on the scroll housing with scroll vanes while maintaining an equal stress on each scroll vane.

摘要翻译： 一种与涡轮机械结合使用的压缩机涡旋壳体，特别适用于飞机。 涡旋壳体可以包括围绕涡旋壳体排列的多个涡旋叶片。 与涡旋壳体一体形成的涡旋叶片在涡旋壳体上承受应力负荷，包括来自涡卷内的流体压力的负载和来自发动机的胎体负载。 多个涡旋叶片适于在支撑涡旋壳体的同时引导流体从入口到出口的流动。 每个涡旋叶片的弦长和横截面面积的尺寸可以确保在所有涡旋叶片中保持相等的应力。 公开了一种制造与连接到发动机的叶轮一起使用的涡旋壳体的方法，以及一种操作涡轮机械的方法，包括在涡轮叶片上支撑负载，同时在每个涡旋叶片上保持相等的应力。

公开(公告)号：US08087874B2

公开(公告)日：2012-01-03

申请号：US12394588

申请日：2009-02-27

申请人： Brian Jardine ,  Brian Koch ,  Jeff Guymon ,  Craig White

发明人： Brian Jardine ,  Brian Koch ,  Jeff Guymon ,  Craig White

IPC分类号： F01D5/30

CPC分类号： F01D9/047 ,  F01D9/065 ,  F01D21/02 ,  F01D21/045 ,  F05D2230/80 ,  F05D2270/09 ,  F05D2270/304

摘要： A retention structure includes a center body including an outer surface, an enclosed end, an open end, and a contact section, the outer surface adapted to define a first portion of a flowpath, and the contact section extending radially outwardly from a centerline and located on the enclosed end and configured to reduce a radial and a torsional component of a first load that exceeds a first threshold applied to the contact section, when the turbine rotates and applies the first load to the contact section and an energy absorber coupled to the center body, disposed adjacent to the contact section, and having an outer surface adapted to define a second portion of the flowpath, the energy absorber further adapted to collapse, when the turbine rotates and contacts the energy absorber and applies a second load that exceeds a second threshold to the energy absorber.

摘要翻译： 保持结构包括包括外表面，封闭端，开口端和接触部分的中心体，所述外表面适于限定流路的第一部分，并且所述接触部分从中心线径向向外延伸并且定位 并且构造成当涡轮机旋转并且将第一负载施加到接触部分并且耦合到中心的能量吸收器时，减小超过施加到接触部分的第一阈值的第一负载的径向和扭转分量 本体，邻近接触部分设置，并且具有适于限定流路的第二部分的外表面，所述能量吸收器还适于在涡轮旋转并接触能量吸收器并施加超过第二部分的第二负载时折叠 能量吸收器的阈值。

公开(公告)号：US20100221115A1

公开(公告)日：2010-09-02

申请号：US12394588

申请日：2009-02-27

申请人： Brian Jardine ,  Brian Koch ,  Jeff Guymon ,  Craig White

发明人： Brian Jardine ,  Brian Koch ,  Jeff Guymon ,  Craig White

IPC分类号： F01D5/30

CPC分类号： F01D9/047 ,  F01D9/065 ,  F01D21/02 ,  F01D21/045 ,  F05D2230/80 ,  F05D2270/09 ,  F05D2270/304

摘要： A retention structure includes a center body including an outer surface, an enclosed end, an open end, and a contact section, the outer surface adapted to define a first portion of a flowpath, and the contact section extending radially outwardly from a centerline and located on the enclosed end and configured to reduce a radial and a torsional component of a first load that exceeds a first threshold applied to the contact section, when the turbine rotates and applies the first load to the contact section and an energy absorber coupled to the center body, disposed adjacent to the contact section, and having an outer surface adapted to define a second portion of the flowpath, the energy absorber further adapted to collapse, when the turbine rotates and contacts the energy absorber and applies a second load that exceeds a second threshold to the energy absorber.

摘要翻译： 保持结构包括包括外表面，封闭端，开口端和接触部分的中心体，所述外表面适于限定流路的第一部分，并且所述接触部分从中心线径向向外延伸并且定位 并且构造成当涡轮机旋转并且将第一负载施加到接触部分并且耦合到中心的能量吸收器时，减小超过施加到接触部分的第一阈值的第一负载的径向和扭转分量 本体，邻近接触部分设置，并且具有适于限定流路的第二部分的外表面，所述能量吸收器还适于在涡轮旋转并接触能量吸收器并施加超过第二部分的第二负载时折叠 能量吸收器的阈值。

公开(公告)号：US20130051974A1

公开(公告)日：2013-02-28

申请号：US13218224

申请日：2011-08-25

申请人： Kin Poon ,  Jeff Howe ,  Michael T. Todd Barton ,  Frank Mignano ,  Mahmoud Mansour ,  Nick Nolcheff ,  Scott Taylor ,  Steve Trzcinski ,  Ardeshir Riahi ,  Jeff Guymon ,  Alan Hemmingson ,  Alex Mirzamoghadam

发明人： Kin Poon ,  Jeff Howe ,  Michael T. Todd Barton ,  Frank Mignano ,  Mahmoud Mansour ,  Nick Nolcheff ,  Scott Taylor ,  Steve Trzcinski ,  Ardeshir Riahi ,  Jeff Guymon ,  Alan Hemmingson ,  Alex Mirzamoghadam

IPC分类号： F04D27/02 ,  F01D5/08

CPC分类号： F01D25/14 ,  F04D29/162 ,  F04D29/4206

摘要： Gas turbine engines and methods for cooling components thereof with mid-impeller bleed (MIB) cooling air having a pressure are provided. The gas turbine engine has a compressor comprising an impeller body and an impeller shroud at least partially surrounding the impeller body. The impeller shroud has a plurality of MIB openings disposed therein. At least one edge treatment is provided thereto. The edge treatment substantially preserves pressure of the cooling air during entrance into and discharge out of the MIB opening. The plurality of MIB openings may be extended MIB openings in a thickened impeller shroud. The centerline of the MIB openings may be oriented to be substantially aligned with an averaged local absolute flow velocity vector of the cooling air at the inlet section of the MIB opening in order to extract cooling air in a direction that has a vector component in a tangential, an axial, and a radial flow direction.

摘要翻译： 提供了燃气涡轮发动机及其具有中间叶轮排出（MIB）冷却空气的组件的组件的压力。 燃气涡轮发动机具有压缩机，该压缩机包括至少部分地围绕叶轮本体的叶轮本体和叶轮护罩。 叶轮护罩具有设置在其中的多个MIB开口。 向其提供至少一个边缘处理。 边缘处理在进入和排出MIB开口时基本上保持冷却空气的压力。 多个MIB开口可以在增厚的叶轮护罩中延伸MIB开口。 MIB开口的中心线可以被定向为与MIB开口的入口部分处的冷却空气的平均局部绝对流速矢量基本对齐，以便沿着具有向心分量的向量分量的方向提取冷却空气 ，轴向和径向流动方向。