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    • 5. 发明申请
    • MICROSYSTEMS FOR COMPRESSING OR FOR CONVERTING A PRESSURE DIFFERENCE INTO A DISPLACEMENT
    • 用于压缩或将压力差变换为位移的微结构
    • US20130259715A1
    • 2013-10-03
    • US13988783
    • 2011-11-16
    • Thierry Hilt
    • Thierry Hilt
    • F04B7/00
    • F04B7/00B60C23/04F04C18/023F04C23/02F04C25/00F04C2230/10F04C2240/401F04C2240/81F04C2270/15
    • A microsystem for converting pressure difference in fluid into mechanical displacement includes input and output nozzles, two interleaved parts, one of which is mobile part, between which the fluid flows. During displacement, the parts define an expanding fluid pocket that moves from the input nozzle to the output nozzle. The microsystem also includes top and bottom planes between which the mobile part is mounted for displacement relative to each plane, an overhanging distal portion along which the fluid flows, and a proximal portion mechanically linked to a plane via a link allowing only longitudinal translation of the proximal portion, and a reinforcement including a first side fastened to one of the planes and, a second side that is either fastened to or in sliding contact with the overhanging distal portion of the mobile part to limit its deformation in a transverse direction perpendicular to the longitudinal direction.
    • 用于将流体中的压差转换为机械位移的微系统包括输入和输出喷嘴,两个交错部分,其中一个是流体流动的流动部分。 在位移期间,部件限定了从输入喷嘴移动到输出喷嘴的膨胀流体袋。 微系统还包括顶平面和底平面,移动部件之间相对于每个平面安装移动部件,流体流过的悬伸远端部分,以及通过链接机械地连接到平面的近端部分,仅允许纵向平移 近端部分和包括紧固到所述平面中的一个的第一侧面的加强件,以及紧固到所述可移动部件的所述突出远端部分或与所述移动部件的所述突出远端部分滑动接触的第二侧,以限制其在垂直于所述移动部件的横向方向上的变形 纵向。
    • 6. 发明申请
    • MICROSYSTEMS FOR CONVERTING PRESSURES AND COMPRESSION
    • 转换压力和压缩的微观结构
    • US20120068474A1
    • 2012-03-22
    • US13321977
    • 2010-05-25
    • Thierry Hilt
    • Thierry Hilt
    • H02K7/18H05K7/20B23P15/00F01C1/063F02B53/00
    • F04C18/023B60C23/041F04C23/02F04C25/00F04C2230/10F04C2240/401F04C2240/81F04C2270/15
    • The invention relates to a microsystem for converting a difference in pressures in a fluid into mechanical movement, this microsystem comprising:—an inlet nozzle (6) for compressed fluid and an outlet nozzle (8) for expanded fluid,—at least two arms (12, 14), at least one of which is hinged and between which flows the fluid in order to pass from the inlet nozzle to the outlet nozzle by moving these arms with respect to one another, the arms (12, 14) being designed and hinged such that, while they move, they define at least one pocket of fluid which is moved away from the inlet nozzle in order then to return to the outlet nozzle while at the same time increasing in volume, each of the arms (12, 14) being mechanically connected to a single plane (20).
    • 本发明涉及一种用于将流体中的压力差异转换为机械运动的微系统,该微系统包括: - 用于压缩流体的入口喷嘴(6)和用于膨胀流体的出口喷嘴(8), - 至少两个臂( 12,14),其中至少一个是铰接的,并且其间流动流体,以便通过相对于彼此移动这些臂而从入口喷嘴通过出口喷嘴,臂(12,14)被设计和 铰链使得当它们移动时,它们限定至少一个流体袋,其从入口喷嘴移开,然后返回到出口喷嘴,同时体积增加,每个臂(12,14) )机械连接到单个平面(20)。
    • 8. 发明申请
    • Scroll-type fluid machine
    • 滚动式流体机
    • US20060182645A1
    • 2006-08-17
    • US10565842
    • 2004-07-26
    • Yoshitaka ShibamotoRyogo Kato
    • Yoshitaka ShibamotoRyogo Kato
    • F01C1/02F04C2/00F01C1/063F04C18/00F03C2/00F03C4/00
    • F04C23/008F04C18/023F04C18/0269F04C23/001F04C29/0057F04C2240/50F04C2250/102F25B1/10
    • A fixed scroll (40) is provided which is made up of a first stationary-side member (41) and a second stationary-side member (46). The first stationary-side member (41) has a first stationary-side wrap (42) and a first outer peripheral part (43) encompassing the first stationary-side wrap (42). The second stationary-side member (46) has a second stationary-side wrap (47), a second outer peripheral part (48), and a third flat-plate part (49). The second stationary-side wrap (47) is formed integrally with the third flat-plate part (49). An orbiting scroll (50) is provided which has a first flat-plate part (51), a first movable-side wrap (53), a second flat-plate part (52), and a second movable-side wrap (54). The first movable-side wrap (53) is formed integrally with the first flat-plate part (51). The second movable-side wrap (54) is formed integrally with the second flat-plate part (52). A bearing part (64) is formed in the back surface of the first flat-plate part (51), and an eccentric part (21) of a drive shaft (20) is inserted into the bearing part (64).
    • 设置有由第一静止侧构件(41)和第二固定侧构件(46)构成的固定涡旋盘(40)。 第一固定侧部件41具有第一静止侧卷绕部42和围绕第一固定侧卷绕部42的第一外周部43。 第二固定侧部件46具有第二静止侧卷绕部47,第二外周部48和第三平板部49。 第二固定侧保持件47与第三平板部49一体形成。 本发明提供一种具有第一平板部分(51),第一可移动侧包裹物(53),第二平板部分(52)和第二可移动侧包裹物(54)的绕动涡盘(50) 。 第一可动侧保持件53与第一平板部51一体形成。 第二可动侧保持件54与第二平板部52一体形成。 轴承部分(64)形成在第一平板部分(51)的后表面中,驱动轴(20)的偏心部分(21)插入轴承部分(64)中。
    • 9. 发明申请
    • Hybrid compressor apparatus
    • 混合式压缩机装置
    • US20030133809A1
    • 2003-07-17
    • US10340805
    • 2003-01-13
    • Shigeki Iwanami
    • F04B049/00
    • F04C18/023F04C18/3442F04C25/00F04C29/0085F04C2240/45
    • The hybrid compressor apparatus is composed of a compressor in which fluid is compressed by varying a volumetric capacity of a compression space provided between a first compression member and a second compression member, which are movable independently of each other, according to rotation of the first compression member relative to the second compression member, a motor rotatable upon receipt of power of an external electric source, and a driven member rotatably driven by motive force transmitted from an external driving source. The first compression member is connected with the driven member and the second compressor is connected with the motor. If maximum discharge amount is required for the compressor, the motor is driven separately by a control device when the driven member drives the first compression member so that the second compression member is rotated in a direction opposite to that of the first compression member.
    • 混合式压缩机装置由压缩机组成,其中通过根据第一压缩机的旋转改变设置在第一压缩构件和第二压缩构件之间的压缩空间的容积来压缩流体,压缩空间可相互独立地移动 相对于第二压缩构件的构件,可以接收外部电源的动力而旋转的马达,以及由外部驱动源传递的动力可旋转地驱动的从动构件。 第一压缩构件与从动构件连接,第二压缩机与电动机连接。 如果压缩机需要最大排出量,则当从动构件驱动第一压缩构件使得第二压缩构件沿与第一压缩构件的方向相反的方向旋转时,由控制装置单独驱动电动机。