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    • 3. 发明授权
    • Scroll fluid machine having multistage compressing part
    • 具有多级压缩部件的滚动流体机械
    • US06659743B2
    • 2003-12-09
    • US10091599
    • 2002-03-07
    • Hideyuki KimuraAtsushi Unami
    • Hideyuki KimuraAtsushi Unami
    • F04C1804
    • F04C23/001F04C18/0269F04C29/04
    • The present invention has an object of offering a scroll fluid machine having a multi-stage compressing part which is characterized in that volumes of a sealed spaces is less scattering thereof corresponding to the given angle rotational amount of the revolving scroll driving shaft. In a scroll fluid machine having a multi-stage compressing part which further compresses fluid, which have been compressed by a front stage compressing part and cooled, with a back-stage compressing part, a scroll fluid machine having a multi-stage compressing part which is characterized in that a reduction ratio &Dgr;Y of a volume of a compression chamber is smaller in a back compressing part than in a front compressing part, &Dgr;Y being expressed by &Dgr;Y={A(n−1)−An}/A(n−1), where A is the volume of a compression chamber defined by a scroll wrap and a scroll mirror plane, A(n−1) is the volume of a compression chamber at the rotational angle &Dgr;&ohgr;(n−1), An is the volume of a compression chamber at the rotational angle &Dgr;&ohgr;n and &Dgr;&ohgr; is the rotational angle of the driving shaft 16 of a revolving scroll.
    • 本发明的目的是提供一种具有多级压缩部件的涡旋流体机械,其特征在于,与旋转涡旋盘驱动轴的给定角度旋转量相对应的密封空间的体积较少散开。 在具有多段压缩部件的涡旋流体机械中,该多级压缩部件进一步压缩由前级压缩部件压缩并被后级压缩部件冷却的流体,该涡旋流体机械具有多级压缩部件,该多级压缩部件具有多级压缩部件, 其特征在于,在背压缩部分中压缩室的体积的减速比DeltaY比在前压缩部中小,DeltaY由DeltaY = {A(n-1)-An} / A(n- 1),其中A是由涡卷和涡旋面平面限定的压缩室的体积,A(n-1)是旋转角度Deltaomega(n-1)处的压缩室的体积,An是 旋转角度Deltaomegan和Deltaomega处的压缩室的体积是旋转涡卷的驱动轴16的旋转角度。
    • 7. 发明授权
    • Scroll expansion machine with air flow passage around outer periphery of sealing surface
    • 滚动式膨胀机具有围绕密封面外周的气流通道
    • US08562317B2
    • 2013-10-22
    • US13149247
    • 2011-05-31
    • Tamotsu FujiokaAtsushi Unami
    • Tamotsu FujiokaAtsushi Unami
    • F01C1/02F03C2/00F04C2/00
    • F01C1/0215F01C11/008F01C21/06F04C2240/30F04C2240/50F04C2240/60F04C2280/04
    • The rotating shaft is connected to the generator; the high-pressure steam s is introduced to the expansion chamber b through the guide passage; when the energy of the high-pressure steam s during expansion process revolves the revolving scroll, the generator regenerates electric power. The connecting housing is provided with the inlet opening and the outlet opening; the ventilation blades are fitted to the rotating shaft. When the ventilation blades rotate, the outside air is introduced (inside of the housing) from and through the inlet opening; the air passes by the air opening and the backside of the revolving scroll, and is discharged through the outlet opening. Thus, by the approach that the air passage is formed inside of the connecting housing and the scroll housing, the high-pressure steam s is prevented from being directed toward the backside of the revolving scroll.
    • 旋转轴连接到发电机; 高压蒸汽通过引导通道被引入膨胀室b; 当膨胀过程中高压蒸汽的能量转动回转涡卷时,发电机再生电力。 连接壳体设有入口和出口; 通风叶片安装在旋转轴上。 当通风叶片旋转时,外部空气从入口开口引入(壳体内部); 空气通过旋转涡卷的空气开口和后侧,并通过出口开口排出。 因此,通过在连接壳体和涡旋壳体内部形成空气通路的方式,防止高压蒸汽朝向回转涡卷的背面。
    • 8. 发明授权
    • Waste heat utilizing device for air compressor
    • 空气压缩机余热利用装置
    • US08943853B2
    • 2015-02-03
    • US13587156
    • 2012-08-16
    • Tamotsu FujiokaAtsushi Unami
    • Tamotsu FujiokaAtsushi Unami
    • F25B1/00F01K23/06F25B9/06
    • F25B9/06F01K25/08
    • A waste heat utilization device for an air compressor includes: a discharge path of an oil free air compressor; a circulation path along which a low boiling point medium circulates; an evaporator provided on the circulation path to heat and evaporate the low boiling point medium using the potential heat of the compressed air; and a preheater provided on an upstream side of the evaporator to preheat the low boiling point medium using the potential heat of the compressed air. A scroll type expansion machine is rotated by the low boiling point medium evaporated by the evaporator and increased in pressure, and power is generated by a power generator connected to a rotary shaft of the scroll type expansion machine. The low boiling point medium discharged from the scroll type expansion machine is then cooled and condensed by a condenser.
    • 一种空气压缩机的余热利用装置,具备:无油空气压缩机的排出路径; 低沸点介质循环的循环路径; 设置在循环路径上的蒸发器,以利用压缩空气的潜热来加热和蒸发低沸点介质; 以及预热器,其设置在蒸发器的上游侧,以使用压缩空气的潜热来预热低沸点介质。 涡旋式膨胀机由被蒸发器蒸发的低沸点介质旋转,并且压力增加,并且通过连接到涡旋式膨胀机的旋转轴的发电机产生动力。 然后从涡旋式膨胀机排出的低沸点介质通过冷凝器冷却和冷凝。