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    • 2. 发明申请
    • TURBINE ROTOR
    • 涡轮转子
    • US20120183406A1
    • 2012-07-19
    • US13256151
    • 2010-08-10
    • Toyotaka YoshidaKatsuyuki OsakoTakao YokoyamaMotoki Ebisu
    • Toyotaka YoshidaKatsuyuki OsakoTakao YokoyamaMotoki Ebisu
    • F01D5/30
    • F01D5/048F01D5/026F01D5/063F05D2230/232F05D2250/14F05D2250/293F05D2260/941
    • Providing a turbine rotor in which the rotational inertia of the turbine rotor can be reduced without changing the geometry of the blade part, whereas the turbine rotor is provided with the rear side surface so that the stress concentration appearing at the root part regarding the hub part on the rear surface side is constrained in order that the strength and the durability of the turbine rotor can be enhanced. A turbine rotor that comprises a hub part 9 connected to a rotor shaft 19 and a plurality of blade parts 11 formed around the outer periphery of the hub part 9, the hub part and the blade parts being integrated into one piece, wherein the diameter of the hub part 9 around the rotation axis L of the rotor shaft 19 gradually increases along the rotation axis direction toward a rear side surface 7 on an end side regarding the rotation axis direction; an annular recess 21 is formed annularly around the rotation axis as a rotation center line, on the side of the rear side surface 7 of the hub part 9; the cross-section of the annular recess whose plane includes the rotation axis is configured with a part of the major arc C of an oval shape or an egg shape, the major arc C being formed so that the oval shape or the egged shape is divided by the major axis b as a symmetrical axis of the oval shape or the egged shape; and, the major axis b is placed in the rear side surface 7.
    • 提供一种涡轮转子,其中可以在不改变叶片部分的几何形状的情况下减小涡轮转子的旋转惯性,而涡轮转子设置有后侧表面,使得在根部处出现的关于轮毂部分的应力集中 在后表面侧受到限制,以提高涡轮转子的强度和耐久性。 涡轮转子,其包括连接到转子轴19的毂部9和围绕毂部9的外周形成的多个叶片部11,轮毂部和叶片部一体地形成为一体,其中, 转子轴19的旋转轴线L周围的轮毂部9沿着旋转轴线方向朝向相对于旋转轴方向的端侧的后方侧面7逐渐增大; 环形凹部21在轮毂部9的后侧面7侧以旋转中心线为中心环绕旋转轴线形成, 平面包括旋转轴的环形凹部的横截面被构造为椭圆形或卵形的主弧C的一部分,主弧C被形成为使得椭圆形状或形状被划分 通过长轴b作为椭圆形或对称形状的对称轴; 长轴b位于后侧表面7中。
    • 4. 发明申请
    • Exhaust turbo-supercharger
    • 排气涡轮增压器
    • US20070089414A1
    • 2007-04-26
    • US11581582
    • 2006-10-17
    • Takao YokoyamaSeiichi IbarakiKatsuyuki OsakoMotoki Ebisu
    • Takao YokoyamaSeiichi IbarakiKatsuyuki OsakoMotoki Ebisu
    • F02B33/44
    • F02C7/24F01D9/026F05D2220/40F05D2240/12F05D2250/323F05D2260/94
    • An exhaust turbo-supercharger having a high efficiency is provided. The exhaust turbo-supercharger includes therein an exhaust turbine housing including a spiral channel and a turbine-accommodating chamber connected to an innermost peripheral part of the spiral channel; an exhaust turbine provided in the turbine-accommodating chamber so that the axial line of the exhaust turbine is parallel to that of the spiral channel; a shaft that is concentrically connected to one side of the exhaust turbine in the axial line direction; a bearing housing disposed at the side of the exhaust turbine in the axial line direction so as to be adjacent to the exhaust turbine housing; a bearing that is provided in the bearing housing and that rotatably supports the shaft around the axial line; and a heat shield component interposed between the exhaust turbine housing and the bearing housing. The heat shield component constitutes a part disposed near the entrance of the turbine-accommodating chamber, the part being a part of the inner wall surface of the spiral channel. The part composed of the heat shield component, the part being a part of the inner wall surface of the spiral channel, forms a protruding part protruding toward the inside of the channel relative to an upstream part.
    • 提供了具有高效率的排气涡轮增压器。 排气涡轮增压器包括:排气涡轮机壳体,其包括螺旋通道和连接到螺旋通道的最内周边部分的涡轮容纳室; 设置在所述涡轮机容纳室中的排气涡轮机,使得所述排气涡轮机的轴线与所述螺旋通道的轴线平行; 同轴地连接在所述排气涡轮机的轴线方向的一侧的轴; 轴承壳体,设置在所述排气涡轮机的轴线方向的一侧,以与所述排气涡轮机壳体相邻; 轴承,其设置在所述轴承壳体中并且可旋转地支撑所述轴围绕所述轴线; 以及插入在所述排气涡轮壳体和所述轴承壳体之间的隔热部件。 隔热部件构成设置在涡轮容纳室的入口附近的部分,该部分是螺旋通道的内壁表面的一部分。 由隔热部件构成的部分,作为螺旋形通道的内壁面的一部分,形成相对于上游部向通道内侧突出的突出部。
    • 6. 发明申请
    • STRUCTURE OF RADIAL TURBINE SCROLL
    • 径向涡轮机滚动结构
    • US20110008162A1
    • 2011-01-13
    • US12867272
    • 2009-10-14
    • Takao YokoyamaKatsuyuki OsakoMotoki Ebisu
    • Takao YokoyamaKatsuyuki OsakoMotoki Ebisu
    • F01D25/24
    • F01D9/026F05D2220/40F05D2260/94F05D2260/941
    • A structure of a radial turbine scroll avoids a gas flow heading from a radially outer side toward a radially inner side in the vicinity of a tongue portion so as to restrain turbine performance from deteriorating and also reduces, to a maximum, thermal stress caused by the formation of the tongue portion. In the structure of a radial turbine scroll, an operating gas is led to flow in the radial direction from a spiral scroll formed in a turbine casing into turbine moving blades of a turbine rotor, which is positioned on the inner side of the scroll, so as to act on the turbine moving blades, and then led to flow outside in an axial direction, thereby rotatively driving the turbine rotor, wherein the scroll 4 has a partition plate 20 formed to have a length of a certain range on a line of a tongue portion formed on the inner periphery of a gas inlet portion or has a reduced height between scroll side walls at an outlet portion of a tongue portion 21 formed on the inner periphery of a gas inlet portion of the scroll, thereby avoiding a gas flow heading from the radially outer side to the radially inner side in the vicinity of the tongue portion.
    • 径向涡轮机涡旋件的结构避免了在舌部附近从径向外侧朝向径向内侧的气流,以便抑制涡轮机性能的劣化,并且还最大程度地降低了由 形成舌部。 在径向涡轮机涡旋件的结构中,工作气体被导向从形成在涡轮机壳体中的螺旋形涡旋件沿径向流动到位于涡旋体内侧的涡轮机转子的涡轮机动叶片中,因此 作用在涡轮机动叶片上,然后导向轴向外侧流动,从而旋转地驱动涡轮转子,其中涡卷4具有形成为在一条线上具有一定范围的长度的分隔板20 舌部形成在气体入口部分的内周上,或者在形成在涡旋件的气体入口部分的内周上的舌部21的出口部分处的涡旋侧壁之间具有减小的高度,从而避免气体流向 从舌部附近的径向外侧到径向内侧。
    • 7. 发明授权
    • Exhaust turbo-supercharger
    • 排气涡轮增压器
    • US07802429B2
    • 2010-09-28
    • US11581582
    • 2006-10-17
    • Takao YokoyamaSeiichi IbarakiKatsuyuki OsakoMotoki Ebisu
    • Takao YokoyamaSeiichi IbarakiKatsuyuki OsakoMotoki Ebisu
    • F02B33/44
    • F02C7/24F01D9/026F05D2220/40F05D2240/12F05D2250/323F05D2260/94
    • An exhaust turbo-supercharger having a high efficiency is provided. The exhaust turbo-supercharger includes therein an exhaust turbine housing including a spiral channel and a turbine-accommodating chamber connected to an innermost peripheral part of the spiral channel; an exhaust turbine provided in the turbine-accommodating chamber so that the axial line of the exhaust turbine is parallel to that of the spiral channel; a shaft that is concentrically connected to one side of the exhaust turbine in the axial line direction; a bearing housing disposed at the side of the exhaust turbine in the axial line direction so as to be adjacent to the exhaust turbine housing; a bearing that is provided in the bearing housing and that rotatably supports the shaft around the axial line; and a heat shield component interposed between the exhaust turbine housing and the bearing housing. The heat shield component constitutes a part disposed near the entrance of the turbine-accommodating chamber, the part being a part of the inner wall surface of the spiral channel. The part composed of the heat shield component, the part being a part of the inner wall surface of the spiral channel, forms a protruding part protruding toward the inside of the channel relative to an upstream part.
    • 提供了具有高效率的排气涡轮增压器。 排气涡轮增压器包括:排气涡轮机壳体,其包括螺旋通道和连接到螺旋通道的最内周边部分的涡轮容纳室; 设置在所述涡轮机容纳室中的排气涡轮机,使得所述排气涡轮机的轴线与所述螺旋通道的轴线平行; 同轴地连接在所述排气涡轮机的轴线方向的一侧的轴; 轴承壳体,设置在所述排气涡轮机的轴线方向的一侧,以与所述排气涡轮机壳体相邻; 轴承,其设置在所述轴承壳体中并且可旋转地支撑所述轴围绕所述轴线; 以及插入在所述排气涡轮壳体和所述轴承壳体之间的隔热部件。 隔热部件构成设置在涡轮容纳室的入口附近的部分,该部分是螺旋通道的内壁表面的一部分。 由隔热部件构成的部分,作为螺旋形通道的内壁面的一部分,形成相对于上游部向通道内侧突出的突出部。
    • 8. 发明授权
    • Turbine rotor
    • 涡轮转子
    • US09260971B2
    • 2016-02-16
    • US13256151
    • 2010-08-10
    • Toyotaka YoshidaKatsuyuki OsakoTakao YokoyamaMotoki Ebisu
    • Toyotaka YoshidaKatsuyuki OsakoTakao YokoyamaMotoki Ebisu
    • F01D5/04F01D5/02F01D5/06
    • F01D5/048F01D5/026F01D5/063F05D2230/232F05D2250/14F05D2250/293F05D2260/941
    • Providing a turbine rotor in which the rotational inertia of the turbine rotor can be reduced without changing the geometry of the blade part, whereas the turbine rotor is provided with the rear side surface so that the stress concentration appearing at the root part regarding the hub part on the rear surface side is constrained in order that the strength and the durability of the turbine rotor can be enhanced. A turbine rotor that comprises a hub part 9 connected to a rotor shaft 19 and a plurality of blade parts 11 formed around the outer periphery of the hub part 9, the hub part and the blade parts being integrated into one piece, wherein the diameter of the hub part 9 around the rotation axis L of the rotor shaft 19 gradually increases along the rotation axis direction toward a rear side surface 7 on an end side regarding the rotation axis direction; an annular recess 21 is formed annularly around the rotation axis as a rotation center line, on the side of the rear side surface 7 of the hub part 9; the cross-section of the annular recess whose plane includes the rotation axis is configured with a part of the major arc C of an oval shape or an egg shape, the major arc C being formed so that the oval shape or the egged shape is divided by the major axis b as a symmetrical axis of the oval shape or the egged shape; and, the major axis b is placed in the rear side surface 7.
    • 提供一种涡轮转子,其中可以在不改变叶片部分的几何形状的情况下减小涡轮转子的旋转惯性,而涡轮转子设置有后侧表面,使得在根部处出现的关于轮毂部分的应力集中 在后表面侧受到限制,以提高涡轮转子的强度和耐久性。 涡轮转子,其包括连接到转子轴19的毂部9和围绕毂部9的外周形成的多个叶片部11,轮毂部和叶片部一体地形成为一体,其中, 转子轴19的旋转轴线L周围的轮毂部9沿着旋转轴线方向朝向相对于旋转轴方向的端侧的后方侧面7逐渐增大; 环形凹部21在轮毂部9的后侧面7侧以旋转中心线为中心环绕旋转轴线形成, 平面包括旋转轴的环形凹部的横截面被构造为椭圆形或卵形的主弧C的一部分,主弧C被形成为使得椭圆形状或形状被划分 通过长轴b作为椭圆形或对称形状的对称轴; 长轴b位于后侧表面7中。
    • 9. 发明授权
    • Structure of radial turbine scroll
    • 径向涡轮机涡旋结构
    • US08591177B2
    • 2013-11-26
    • US12867272
    • 2009-10-14
    • Takao YokoyamaKatsuyuki OsakoMotoki Ebisu
    • Takao YokoyamaKatsuyuki OsakoMotoki Ebisu
    • F04D29/66
    • F01D9/026F05D2220/40F05D2260/94F05D2260/941
    • In a radial turbine scroll, an operating gas is led to flow in the radial direction from a spiral scroll formed in a turbine casing into turbine moving blades of a turbine rotor, which is positioned on the inner side of the scroll, so as to act on the turbine moving blades, and then led to flow outside in an axial direction, thereby rotatively driving the turbine rotor, wherein the scroll 4 has a partition plate 20 a length of a certain range on a line of a tongue portion formed on the inner periphery of a gas inlet portion or has a reduced height between scroll side walls at an outlet portion of a tongue portion 21 formed on the inner periphery of a gas inlet portion of the scroll.
    • 在径向涡轮机涡旋件中,工作气体被导向从形成在涡轮机壳体中的螺旋形涡旋件沿径向流动到位于涡旋体内侧的涡轮机转子的涡轮机动叶片中,以便作用 在涡轮机动叶片上,然后在轴向方向上流向外部,从而旋转地驱动涡轮转子,其中涡卷4具有在内部形成的舌部的线上的一定范围的长度的隔板20 气体入口部分的周边或在形成在涡旋件的气体入口部分的内周上的舌部21的出口部分处的涡旋侧壁之间的高度减小。