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    • 1. 发明授权
    • Non-contact vane-type fluid displacement machine with rotor and vane
positioning
    • 非接触式叶片式流体置换机,带转子和叶片定位
    • US5560741A
    • 1996-10-01
    • US268074
    • 1994-06-28
    • Thomas C. Edwards
    • Thomas C. Edwards
    • F01C21/08F01C21/10F04C18/344F04C29/02F01C1/344
    • F01C21/0809F01C21/0881F01C21/10F04C18/3442F04C29/023F04C29/026F04C2230/60F05C2225/04
    • A non-contact vane-type fluid-displacement machine includes a stator housing having an annular interior surface defining an interior bore and a rotor supported in an eccentric position in the interior bore of the stator housing relative to the annular interior surface thereof to undergo rotation relative to the stator housing about a central rotational axis. The rotor has a plurality of slots radially defined therein relative to the rotational axis. The machine also has a plurality of vanes disposed in the radial slots of the rotor. The vane is mounted to the rotor to undergo reciprocable movement in a radial direction relative to the rotational axis of the rotor such that an outer tip portion of the vane is maintained in a non-contacting substantially sealed relationship with the annular interior surface of the stator housing. Improved features of the machine, which relate to rotor and vane positioning, include a pair of thin compliant lubricous discs employed at opposite ends of the rotor, trepanned formations on the rotor end surfaces balancing the pressure on the vanes carried in slots of the rotor, and the vanes on the rotors being self-forming self-dimensioning composite assemblies.
    • 非接触式叶片型流体排放机器包括定子壳体,该定子壳体具有限定内孔的环形内表面和在定子壳体的内孔中相对于其环形内表面支撑在偏心位置的转子,以经历旋转 相对于定子壳体围绕中心旋转轴线。 转子具有相对于旋转轴线在其中径向限定的多个槽。 机器还具有设置在转子的径向槽中的多个叶片。 叶片安装到转子上以相对于转子的旋转轴线在径向方向上进行往复运动,使得叶片的外部末端部分保持与定子的环形内表面非接触基本上密封的关系 住房。 涉及转子和叶片定位的机器的改进的特征包括在转子的相对端处使用的一对薄的顺应性润滑盘,在转子端面上的平铺结构,平衡转子槽中承载的叶片上的压力, 并且转子上的叶片是自成型自尺寸复合组件。
    • 2. 发明授权
    • Vane type compressor having elliptical stator with doubly-offset rotor
    • 具有双偏转转子的椭圆形定子的叶片型压缩机
    • US4410305A
    • 1983-10-18
    • US271399
    • 1981-06-08
    • Wayne C. ShankThomas C. Edwards
    • Wayne C. ShankThomas C. Edwards
    • F01C1/344F01C1/352F01C21/08F01C21/10F04C18/344F04C18/00
    • F01C21/0836F01C21/106F04C18/3441
    • A rotary compressor having a housing defining a chamber with a curved outer wall of substantially elliptical profile containing a rotor of cylindrical shape having a plurality of vanes profiled to fit the chamber and radially slidable in grooves in the rotor to define enclosed compartments between them. Each vane has a pair of axially extending stubshafts having rollers respectively mounted thereon. Roller tracks formed in the end walls of the chamber accommodate the rollers for guiding the vanes so that the outer edges of the vanes follow the outer wall of the chamber in closely spaced engagement. Inlet and outlet ports located in the curved outer wall of the chamber closely straddle a reference region. The rotor has its axis laterally offset from the chamber for engagement at the reference region for sealing between the ports, the rotor axis being offset toward the outlet port and being spaced along both the major and minor axes of the elliptical profile by sufficient amounts that each vane undergoes but a single in and out stroke during each revolution of the rotor notwithstanding the elliptical nature of the chamber. In the preferred construction the rollers ride in grooves having radially opposed walls formed in the respective end walls of the chamber, with the radially inward wall having substantially constant radial clearance with respect to the contained rollers thereby to determine the amount that each vane can move radially inward under starting conditions and in the face of "slugging".
    • 一种具有壳体的旋转压缩机,该壳体具有大致椭圆形轮廓的弯曲外壁,该外壁具有圆柱形形状的转子,该转子具有多个叶片,该多个叶片成形为适合该腔室,并可在该转子中的槽中径向滑动以在它们之间限定封闭的隔室。 每个叶片具有一对轴向延伸的短轴,其中分别安装有辊。 形成在室的端壁中的滚子轨道容纳用于引导叶片的辊,使得叶片的外边缘以紧密间隔的接合跟随室的外壁。 位于腔室的弯曲外壁中的入口和出口紧密地跨越参考区域。 转子的轴线与腔室横向偏移,用于在参考区域处接合以便在端口之间进行密封,转子轴线朝向出口端口偏移,并且沿着椭圆形轮廓的主轴和短轴间隔足够的量, 尽管转子的椭圆形性质,叶片在转子转动过程中经历了单一的进出行程。 在优选的结构中,辊子沿着形成在腔室的相应端壁中的径向相对壁的凹槽中,径向向内的壁相对于所容纳的辊具有基本上恒定的径向间隙,从而确定每个叶片能径向移动的量 在起步条件下,面对“s ging”的情况。
    • 3. 发明授权
    • Rotary machine of canted vane type having centering ball
    • 具有定心球的倾斜叶片式旋转机
    • US4384833A
    • 1983-05-24
    • US116155
    • 1980-01-28
    • Wayne C. ShankThomas C. Edwards
    • Wayne C. ShankThomas C. Edwards
    • F01C3/06F01C1/00F01C11/00F04C18/00F04C23/00
    • F01C3/06
    • A rotary machine having a cavity in the form of a doubly truncated sphere having a rotor of hollow construction mounted therein, the cavity being symmetric about a vane axis which is canted with respect to the rotor axis. The rotor includes an integral Saturn-like ring extending symmetrically about its axis dividing the cavity into first and second sides each of annular wedge shape having thick and thin portions arranged in complementary fashion. The rotor has four radial slots aligned with the shaft axis to divide the rotor into 90 degree sectors, the slots being occupied by first and second blades with each blade defining a pair of vanes which separate the sides of the cavity into successive chambers which vary cyclically in volume as the shaft rotates. A relatively thin auxiliary shaft extends axially through the hollow of the rotor. An auxiliary centering ball is telescoped over the auxiliary shaft at the point of intersection of the axes. For engaging the ball the blades have at their centers respective C-shaped recesses facing mutually inwardly in overlapping relation, each recess being radially dimensioned to snugly embrace the ball in the longitudinal dimension thereby to keep the blades centered in positions of equalized radial clearance with respect to the wall of the cavity. In the preferred embodiment the recesses are so formed that the ball is held relatively captive in the plane of each blade so that each blade is positioned in the endwise direction by the companion blade.
    • 一种具有双截面球体形式的空腔的旋转机器,其具有安装在其中的中空结构的转子,所述腔体相对于相对于转子轴线倾斜的叶片轴线对称。 转子包括一体的土星状环,其围绕其轴线对称地延伸,将空腔分成第一和第二侧,每个环形楔形具有以互补的方式布置的厚而薄的部分。 转子具有与轴轴对准的四个径向槽,以将转子分成90度的扇形,这些槽由第一和第二叶片占据,每个叶片限定一对叶片,将一个叶片的侧面分隔成连续的室,其循环变化 当轴旋转时体积。 相对薄的辅助轴轴向延伸穿过转子的中空。 辅助定心球在轴的交点处在辅助轴上伸缩。 为了接合球,叶片在它们的中心处具有相互重叠的相互向内的相对应的C形凹槽,每个凹槽的径向尺寸被设计成在纵向尺寸上紧密地包围球体,从而将叶片保持在相对于径向间隙相等的位置的中心位置 到空腔的墙壁。 在优选实施例中,凹部被形成为使得球保持相对于每个刀片的平面内,使得每个刀片通过配对刀片沿着端向方向定位。
    • 5. 发明授权
    • Controlled-clearance sealing compressor devices
    • 控制间隙密封压缩机装置
    • US07740460B2
    • 2010-06-22
    • US11219481
    • 2005-09-02
    • Thomas C. Edwards
    • Thomas C. Edwards
    • F01C19/00
    • F04C18/3441F01C21/0836F04C2240/20
    • A controlled-clearance sealing compressor device that provides precision rotor centering directly with respect to the stator housing, vane centering with respect to rotor (not the stator) and the dynamic balance design of the gliders required for practical single and dual vane devices. The devices uses roller bearings to control the radial position of the vane and control rods or pins are used to control axial positioning of the vane, its ‘centralization’ with respect to the rotor and the endplates. The positive displacement rotary vane compressors and vacuum pumps have friction reduction, efficiency enhancement and exceedingly long operating life as a result of the non-contact gas sealing of the process gas within the rotary vane compressors and vacuum pumps. In an embodiment the positive displacement compressing device is used in transportation vehicles.
    • 一种控制间隙密封压缩机装置,其提供相对于定子壳体直接定心的精密转子定心,相对于转子(而不是定子)定心的叶片以及实际的单和双叶片装置所需的滑翔机的动平衡设计。 这些装置使用滚子轴承来控制叶片的径向位置,并且控制杆或销用于控制叶片的轴向定位,其相对于转子和端板的“集中”。 由于旋转叶片式压缩机和真空泵内的工艺气体的非接触式气体密封,正排量旋转叶片式压缩机和真空泵具有摩擦降低,效率提高和极长的使用寿命。 在一个实施例中,正排量压缩装置用于运输车辆。
    • 6. 发明授权
    • Power unit for converting heat to power
    • 用于将热量转换成电力的功率单元
    • US4738111A
    • 1988-04-19
    • US804400
    • 1985-12-04
    • Thomas C. Edwards
    • Thomas C. Edwards
    • F01K25/10F01K13/00F01K25/08F01K11/00
    • F01K25/08F01K13/00
    • A modular, frame-mounted power unit for converting heat from a low-grade energy source to electric power. Heat from a source is supplied to the power unit in the form of hot fluid circulated through a heat exchanger associated with a boiler. Liquid refrigerant in the boiler is vaporized and passes through the stages of an organic Rankine cycle, the expansion stage being carried out in a rotary, positive displacement expander. The condensing stage is carried out in a condenser associated with a cold heat exchanger which is connected to a supply of cooling fluid through cooling lines. The output shaft of the expander is connected to drive an electric power generator and individual fluid feed pumps for returning liquid refrigerant from the condenser to the boiler and for circulating hot and cold fluids through the hot and cold heat exchangers, respectively. A cylindrical refrigerant boiler and cylindrical condenser pass through and are mounted to two vertical plates, on which are mounted the expander, power generator, fluid circulating pumps, and feed pumps.
    • 一种模块化的框架式电源装置,用于将低能量电源的热量转换为电力。 来自源的热量以通过与锅炉相关联的热交换器循环的热流体的形式供应到动力单元。 锅炉中的液体制冷剂蒸发并通过有机兰金循环的阶段,膨胀阶段在旋转的正位移膨胀机中进行。 冷凝阶段在与冷热交换器相连的冷凝器中进行,冷却热交换器通过冷却管线连接到冷却流体供应。 连接膨胀机的输出轴,驱动发电机和单独的流体供给泵,用于将液体制冷剂从冷凝器返回到锅炉,并分别通过热和冷热交换器循环热和冷流体。 圆柱形制冷剂锅炉和圆柱形冷凝器通过并安装在两个垂直板上,其上安装有膨胀机,发电机,流体循环泵和进料泵。
    • 7. 发明授权
    • Closed loop air conditioning system including pressurization by blockage
and aspiration
    • 闭环空调系统,包括通过堵塞和抽吸加压
    • US4175397A
    • 1979-11-27
    • US948973
    • 1978-10-05
    • Thomas C. EdwardsAmir L. Ecker
    • Thomas C. EdwardsAmir L. Ecker
    • B60H1/00B60H1/32F24F5/00F24F11/00F25B9/00F25B23/00F25D9/00
    • F24F11/00B60H1/00007B60H1/3205B60H1/3211F24F5/0085F25B9/004B60H2001/3241B60H2001/3248B60H2001/3255B60H2001/3269B60H2001/3275F24F11/0012F24F2005/0025F24F2011/0041F24F2011/0043F24F2011/0073F24F2203/021F24F2221/56
    • An air conditioning system for an enclosed space including a jointly driven compressor and expander of the positive displacement type each having an inlet port and an outlet port with a primary heat exchanger connected between the compressor outlet port and expander inlet port and a secondary heat exchanger connected between the expander outlet port and the compressor inlet port to complete a closed loop having a charge of air and with one of the heat exchangers being thermally coupled to the enclosed space. Ambient air is injected into the closed loop to raise the pressure in the secondary heat exchanger to substantially above the atmospheric level to increase the heat rate of the system. Alternatively air is bled from the loop to reduce the pressure in the secondary heat exchanger thereby to decrease the heat rate of the system. In one embodiment of the invention a blocking valve in the path of the air stream flowing through the secondary heat exchanger is momentarily closed to create a vacuum at the compressor inlet port and an injector valve at the compressor inlet port is coincidentally opened so that ambient air is injected by the process of aspiration. While the system may be manually controlled, it is one of the features of the invention that injection and bleeding are under the automatic and corrective control of a temperature pressure sensing device so that the heat rate of the system is varied automatically in accordance with the requirements of an enclosed space for automatic maintenance of a present condition. The system is usable in a refrigerating mode, making use of the absorption of heat in the secondary heat exchanger or in the heat pump mode utilizing the dissipation of heat in the primary heat exchanger, with automatic control of space temperature in both of the modes.
    • 一种用于封闭空间的空调系统,包括共同驱动的压缩机和正排量的膨胀机,每个具有入口端口和出口,其中连接有压缩机出口和膨胀器入口之间的主要热交换器和连接在第二热交换器 在膨胀器出口和压缩机入口之间,以完成具有空气的闭合回路,并且其中一个热交换器热耦合到封闭空间。 将环境空气注入到闭环中以将次级热交换器中的压力升高到大气水平以上,以增加系统的热量。 或者,空气从环路排出,以降低二次热交换器中的压力,从而降低系统的热量。 在本发明的一个实施例中,流过二次热交换器的空气流路径中的阻塞阀暂时关闭,以在压缩机入口处产生真空,并且压缩机入口处的喷射器阀巧合地打开,使得环境空气 通过吸气过程注射。 虽然系统可以手动控制,但是本发明的特征之一是注射和渗流在温度感测装置的自动和校正控制下,使得系统的热量根据要求自动变化 的封闭空间用于自动维护现状。 该系统可利用在二次热交换器中的热量吸收或利用热交换器中的热耗散的热泵模式中的两种模式中的空间温度的自动控制来使用。
    • 8. 发明授权
    • Air conditioning system having compressor-expander in pressurized closed
loop system with solar assist and thermal storage
    • 具有压缩机 - 膨胀器的空调系统在加压闭环系统中具有太阳能辅助和热存储
    • US4064705A
    • 1977-12-27
    • US733751
    • 1976-10-26
    • Thomas C. EdwardsAmir L. Ecker
    • Thomas C. EdwardsAmir L. Ecker
    • F24F5/00F25B9/00F25B29/00F25B13/00
    • F25B9/00F24F5/00F24F5/0046F24F5/0085F25B29/00F25B2400/14
    • An air conditioning system for an enclosed space, capable of operating as a heat pump in the winter and as a refrigerator in the summer, of the type employing a unitary compressor and expander having a common rotor with vanes defining enclosed compartments for positive compression and expansion of air. An indoor heat exchanger and outdoor heat exchanger are provided with one being connected between the outlet port of the compressor and the inlet port of the expander and the other being connected from the outlet port of the expander to the inlet port of the compressor thereby to complete a loop which is charged with air. Valves are interposed for effectively interchanging the connections of the heat exchangers so that the indoor heat exchanger is used for warming in winter and cooling in summer. The outdoor heat exchanger is in the form of a solar-directed panel having a heat absorption surface and air passages for convection cooling. Means are provided for exposing the heat absorption surface and closing the air passages in the winter and for shielding the absorption surface and opening the air passages in the summer. A cold storage device is provided to serve as a heat source and to freeze water during the winter and with the melting of the resulting ice augmenting cooling effect during the summer. A heat storage device is also used to store heat during a winter day for release during the winter night. The loop is pressurized with air, the pressure being correctively varied by thermostatic control to vary the heat rate, thereby to maintain a set temperature both winter and summer in the enclosed space. The air in the loop is preferably moistened and a regenerator is optionally provided to increase the capacity of the system under extreme temperature conditions.
    • 一种用于封闭空间的空调系统,能够在冬天作为热泵和夏季作为冰箱运行,采用单一压缩机和膨胀器的类型,其具有共同的转子,叶片限定用于正压缩和膨胀的封闭隔室 的空气。 室内热交换器和室外热交换器设置有一个连接在压缩机的出口和膨胀机的入口之间,另一个从膨胀机的出口连接到压缩机的入口,从而完成 一个充满空气的回路。 插入阀有效地交换热交换器的连接,使得室内热交换器在冬季用于升温和夏季的冷却。 室外热交换器是具有吸热表面的太阳能定向板和用于对流冷却的空气通道的形式。 提供了用于在冬季暴露吸热表面并关闭空气通道并且用于屏蔽吸收表面并在夏季打开空气通道的装置。 提供冷藏装置作为热源,并在冬季期间冻结水,并在夏季融化所产生的冰增加冷却效果。 一个储热装置也用于在冬天的一个冬季保存热量,以便在冬天的夜晚释放。 环路用空气加压,通过恒温控制校正压力,以改变热量,从而在封闭空间内保持冬季和夏季的设定温度。 循环中的空气优选地被润湿,并且可选地提供再生器以在极端温度条件下增加系统的容量。
    • 9. 发明授权
    • Heat pump-refrigeration system with water injection and regenerative
heat exchanger
    • US4017285A
    • 1977-04-12
    • US627114
    • 1975-10-30
    • Thomas C. Edwards
    • Thomas C. Edwards
    • F24F5/00F25B9/00F25B29/00F25B13/00
    • F24F5/0085F24F5/00F25B29/00F25B9/00Y02B30/52
    • An air conditioning system for a living space capable of operating as a heat pump or refrigerator employing a unitary compressor and expander having a common rotor with vanes defining enclosed compartments for positive compression of air in the compressor and positive expansion of air in the expander. A regenerative heat exchanger having thermally coupled air passages is employed in the system together with a non-regenerative primary heat exchanger which is located in the warm space. Air from the cool space is heated in the first passage of the regenerative heat exchanger, and moisture is injected, following which the air passes into the compressor inlet port. From the compressor outlet port wet air flows at high temperature and pressure to the primary heat exchanger located in the warm space where some of its heat is given up. Next the air flows through the second passage in the regenerative heat exchanger where its temperature is further lowered prior to being fed to the expander inlet port. Air from the expander outlet port, at low temperature and at atmospheric pressure, is discharged into the cool space, the net result being to increase the temperature differential between the spaces. When the system is used in the heat pump mode, the primary heat exchanger is located in the living space for heating the same, with the compressor-expander, initial air inlet, and final air outlet being located in the outside environment. In the preferred form of the invention a separate primary heat exchanger is located in the outside environment and transfer valves are provided to substitute the outside heat exchanger and for switching the initial air inlet and final air outlet into the living space for use of the system in the refrigeration mode. In an alternate form of the invention an auxiliary non-regenerative heat exchanger may be interposed between the final air outlet and initial air inlet. When the system is employed in the heat pump mode, provision is made for use of a solar heat absorber between the regenerative heat exchanger and the inlet port of the compressor.
    • 10. 发明申请
    • Controlled-Clearance Sealing Compressor Devices
    • 可控间隙密封压缩机
    • US20100304262A1
    • 2010-12-02
    • US12818628
    • 2010-06-18
    • Thomas C. Edwards
    • Thomas C. Edwards
    • H01M8/04F04C2/344F25B39/04
    • F04C18/3441F01C21/0836F04C2240/20
    • A controlled-clearance sealing compressor device that provides precision rotor centering directly with respect to the stator housing, vane centering with respect to rotor (not the stator) and the dynamic balance design of the gliders required for practical single and dual vane devices. The devices uses roller bearings to control the radial position of the vane and control rods or pins are used to control axial positioning of the vane, its ‘centralization’ with respect to the rotor and the endplates. The positive displacement rotary vane compressors and vacuum pumps have friction reduction, efficiency enhancement and exceedingly long operating life as a result of the non-contact gas sealing of the process gas within the rotary vane compressors and vacuum pumps. In an embodiment the positive displacement compressing device is used in transportation vehicles.
    • 一种控制间隙密封压缩机装置,其提供相对于定子壳体直接定心的精密转子定心,相对于转子(而不是定子)定心的叶片以及实际的单和双叶片装置所需的滑翔机的动平衡设计。 这些装置使用滚子轴承来控制叶片的径向位置,并且控制杆或销用于控制叶片的轴向定位,其相对于转子和端板的“集中”。 由于旋转叶片式压缩机和真空泵内的工艺气体的非接触式气体密封,正排量旋转叶片式压缩机和真空泵具有摩擦降低,效率提高和极长的使用寿命。 在一个实施例中,正排量压缩装置用于运输车辆。