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    • 3. 发明申请
    • METHOD OF PROTECTING LAMINATION STACKS OF A COMPONENT OF AN ELECTRIC MACHINE AND COMPONENT OBTAINED BY THE METHOD
    • 保护电机组件的层压板和方法获得的组件的方法
    • US20160226332A1
    • 2016-08-04
    • US15005273
    • 2016-01-25
    • Yvon BAUCÉEduardo CARRASCOErwan SALAHUN
    • Yvon BAUCÉEduardo CARRASCOErwan SALAHUN
    • H02K5/12H02K15/02H02K15/12H02K7/09
    • A method of protecting ferromagnetic lamination stacks of a component of an electric machine, comprises the following steps: creating a component module by arranging a laminations stack of ferromagnetic sheets into a housing, (b) protecting locations of the component module where coating is unwanted, (c) inserting the component module into a hermetic chamber receiving an ionized gas, (d) polarizing the component module to submit a fixed electric potential to the component module, (e) depositing a thin layer of protective coating on the laminations stack of ferromagnetic sheets through a method of Plasma Enhanced Chemical Vapor Deposition (PECVD) at a temperature lower than 150° C., (f) monitoring the deposition homogeneity and deposition thickness of the thin layer of protective coating until desired thickness, and (g) rectifying the surface of the thin layer of protective coating to have a uniform protective layer.
    • 一种保护电机部件的铁磁层压叠层的方法包括以下步骤:通过将铁磁片层叠叠置在壳体中来形成部件模块,(b)保护部件模块的不需要涂层的位置, (c)将组件模块插入接收离子化气体的密封室中,(d)使组件模块偏振以向组件模块提供固定电位,(e)在铁磁层叠叠层上沉积薄层的保护涂层 在低于150℃的温度下通过等离子体增强化学气相沉积(PECVD)的方法制备薄片,(f)监测保护涂层的薄层的沉积均匀性和沉积厚度直到所需厚度,和(g) 表面的薄层保护涂层具有均匀的保护层。
    • 4. 发明申请
    • ROTOR ASSEMBLY WITH PERMANENT MAGNETS AND METHOD OF MANUFACTURE
    • 具有永久磁铁的转子总成及其制造方法
    • US20150171675A1
    • 2015-06-18
    • US14571563
    • 2014-12-16
    • Eduardo CARRASCOUlrich SCHROEDER
    • Eduardo CARRASCOUlrich SCHROEDER
    • H02K1/27H02K15/00H02K1/30
    • H02K1/274H02K1/278H02K1/28H02K1/30H02K15/00H02K15/03H02K2213/03Y10T29/49009
    • A permanent magnet rotor assembly comprises a cylindrically shaped shaft having an outer surface, a plurality of permanent magnets constituting portions of annular segments and an outer retaining cylindrical sleeve surrounding the plurality of permanent magnets. The assembly further comprises a cylindrical magnet housing mounted on the cylindrically shaped shaft for supporting the plurality of permanent magnets. The cylindrical magnet housing is formed of a magnetic material. The retaining cylindrical sleeve is preloaded by a resultant interference fit IF2 which is defined by the following formula: IF2=−ØY+√{square root over (((ØY+IF1)̂2+ØŶ2−ØX̂2))}. where ØY is an external diameter of the plurality of permanent magnets, ØX is an internal diameter of the cylindrical magnet housing, and IF1 is a primary interference fit between an external diameter of the cylindrically shaped shaft and the internal diameter of the cylindrical magnet housing.
    • 永磁转子组件包括具有外表面的圆柱形轴,构成环形段部分的多个永磁体和围绕多个永磁体的外保持圆柱形套筒。 组件还包括安装在圆柱形轴上用于支撑多个永磁体的圆柱形磁体壳体。 圆柱形磁体壳体由磁性材料形成。 保持圆柱形套筒由合成的干涉配合IF2预加载,IF2由以下公式定义:IF2 =-ØY+√{(((YY + IF1)2 +ØŶ2-ØX2))的平方根。 其中ØY是多个永磁体的外径,ØX是圆柱形磁体壳体的内径,IF1是圆柱形轴的外径和圆柱形磁体壳体的内径之间的主要过盈配合。
    • 5. 发明申请
    • ROTOR SENSOR TARGET FOR MAGNETIC BEARINGS
    • 用于磁性轴承的转子传感器目标
    • US20150177024A1
    • 2015-06-25
    • US14572849
    • 2014-12-17
    • Eduardo CARRASCO
    • Eduardo CARRASCO
    • G01D5/14
    • G01D5/14F16C32/0446G01D5/20
    • A rotor sensor target for magnetic bearings, the rotor sensor target comprising a ring-shaped assembly of magnetic material mounted on a generally ring-shaped assembly of non-magnetic material. The magnetic and non-magnetic ring shaped assemblies are coaxially arranged and mounted on a shaft having a longitudinal axis of rotation X′-X. The generally ring-shaped assembly of non-magnetic material comprises at least one ring-shaped slit having the longitudinal axis X′-X and may be made of a cheaper material, such as aluminum. The ring-shaped slit provides flexibility which permits operation over a wide range of temperatures without risking of damaging the ring-shaped assembly of magnetic material.
    • 一种用于磁性轴承的转子传感器靶,转子传感器靶包括安装在非磁性材料的大致环形组件上的磁性材料的环形组件。 磁性和非磁性环形组件同轴地布置并安装在具有纵向旋转轴线X'-X的轴上。 非磁性材料的大致环形组件包括具有纵向轴线X'-X的至少一个环形狭缝,并且可以由较便宜的材料例如铝制成。 环形狭缝提供灵活性,其允许在宽范围的温度下操作,而不会损坏磁性材料的环形组件。
    • 6. 发明申请
    • COMPACT TURBOMACHINE WITH MAGNETIC BEARINGS AND AUXILIARY BEARINGS
    • 紧凑型涡轮机,带有磁性轴承和辅助轴承
    • US20150275911A1
    • 2015-10-01
    • US14224401
    • 2014-03-25
    • Eduardo CARRASCOEric HELENE
    • Eduardo CARRASCOEric HELENE
    • F04D29/058F04D25/06F04D17/10
    • F04D29/058F04D17/10F04D25/06F04D29/048F04D29/051F04D29/059F04D29/622F16C32/0442
    • A turbo-machine for compressing or expanding a fluid comprises a housing (201), a rotary shaft (203), an electric machine (207), an impeller (202) mounted at an end of the rotary shaft (203), radial magnetic bearings (208), an axial magnetic bearing (210), an axial detector (240), radial detectors (209), a control circuit, and auxiliary bearings (290). An auxiliary bearing (290) is integrated within a stator portion (211, 212) of the axial magnetic bearing (210) and this stator portion (211, 212) of the axial magnetic bearing (210) is located opposite a rotor armature (220) of the axial magnetic bearing (210). The rotor armature (220) is made of iron or of a material which is adapted to be attracted in a magnetic field and is constituted by a rear face (221) of the impeller (202).
    • 用于压缩或膨胀流体的涡轮机包括壳体(201),旋转轴(203),电机(207),安装在旋转轴(203)的端部处的叶轮(202),径向磁 轴承(208),轴向磁轴承(210),轴向检测器(240),径向检测器(209),控制回路和辅助轴承(290)。 辅助轴承(290)集成在轴向磁轴承(210)的定子部分(211,212)内,并且轴向磁性轴承(210)的该定子部分(211,212)位于与转子衔铁(220)相对的位置 )的轴向磁轴承(210)。 转子电枢(220)由铁或适于被吸引在磁场中并由叶轮(202)的后表面(221)构成的材料制成。