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    • 11. 发明公开
    • TWO FUNCTIONAL THERMAL DRIVING TRAVELING-WAVE THERMO-ACOUSTIC REFRIGERATION SYSTEM
    • THERMOAKUSTISCHE DOPPELFUNKTIONS-KÄLTEANLAGEMITWÄRMEANTRIEBSANSTEUERUNG
    • EP2781856A1
    • 2014-09-24
    • EP12763287.5
    • 2012-03-31
    • Lihan Thermoacoustic Technologies (Shenzhen) Co., Ltd
    • LUO, ErcangHU, JianyingWU, ZhanghuaYU, GuoyaoLI, Haibing
    • F25B9/00
    • F25B9/145F25B2309/1403F25B2309/1407F25B2309/1409F25B2309/1425F25B2309/1426
    • The present invention discloses a heat-actuated double-acting traveling-wave thermoacoustic refrigeration system, comprising at least three elementary units, wherein each elementary unit comprises a thermoacoustic engine, a thermoacoustic refrigerator, and a resonance device; the thermoacoustic engine and the thermoacoustic refrigerator comprise a main heat exchanger, a heat regenerator, a non-normal-temperature heat exchanger, a thermal buffer tube, and an auxiliary heat exchange in sequence; the resonance device comprises a sealed housing in which it is equipped with a moving part being in a reciprocating motion, wherein the moving part separates the housing into at least two chambers; the main heat exchanger and auxiliary heat exchanger of each thermoacoustic engine and thermoacoustic refrigerator respectively connects to chambers of different housing, forming a dual-loop structure of gas medium flow. In heating the non-normal-temperature heat exchanger of the thermoacoustic engine to produce acoustic power, thermoacoustic energy conversion is induced inside the thermoacoustic engine and the thermoacoustic refrigerator. Therefore, it is possible to produce refrigeration effect with heat input solely. The system can be applied in areas with abundant thermal energy and absence of electricity, thus being capable of a more extensive range of application.
    • 本发明公开了一种热致动双作用行波热声制冷系统,其包括至少三个基本单元,其中每个基本单元包括热声发动机,热声冰箱和谐振装置; 热声发动机和热声冷冻机依次包括主热交换器,热再生器,非常温热交换器,热缓冲管和辅助热交换器; 所述共振装置包括密封壳体,其中所述壳体配备有以往复运动的运动部件,其中所述运动部件将所述壳体分成至少两个腔室; 每个热声发动机和热声冰箱的主热交换器和辅助热交换器分别连接到不同壳体的腔室,形成气体介质流的双循环结构。 在加热热声发动机的非常温热交换器以产生声功率时,在热声发动机和热声冰箱内引起热声能转换。 因此,可以仅通过热输入产生制冷效果。 该系统可应用于热能充足,无电力的区域,能够应用范围更广。
    • 15. 发明公开
    • Load bearing means in cryostat systems
    • 低温恒温器系统中的承载装置
    • EP0905435A2
    • 1999-03-31
    • EP98116962.6
    • 1998-09-08
    • OXFORD MAGNET TECHNOLOGY LIMITED
    • Stautner, Wolfgang
    • F17C13/00F17C3/08
    • F17C3/085F17C2203/0687F17C2221/017F17C2227/0353F17C2270/0509F25B9/10F25B9/145F25B2309/1425F25D19/006
    • The various components, namely the different vessels contained within each other for housing the superconducting magnet, or the liquid comprising a cryostat or storage tank for cryogenic liquids are generally either suspended or supported by each other. Thus, a support/suspension system has various tasks, besides carrying the magnet or shield loads, it also keeps the position of the cold mass during shipping and also fixes the internal clearances between the radiation shields during installation as well as repeated cooldown. The various constraints put onto these suspension systems result in an increased input of heat into the cryostat depending on the overall size of cryostat and superconducting magnet system.
      Various parts of the cryogenic components such as radiation shields have to be cooled, either by means of using liquids or by using forced convection cooling, or by other external means such as conventional GM-cryocoolers.
      The present invention therefore provides a new type of support or suspension system which combines the two functions mentioned above, namely supporting or suspending and cooling, and applies these to the pulse tube cooler. The pulse tubes (22-38) could be arranged in series or in parallel, could be single or multi-staged or feature an additional liquefying stage and suspend or support a superconducting magnet or HTS conductor within a cryostat. The pulse tube being either a suspension or support member could also simultaneously cool the shields 26 connected to it and at the same time carry shield or magnet loads.
    • 各种部件,即包含在彼此内用于容纳超导磁体的不同容器,或包括用于低温液体的低温恒温器或储罐的液体通常彼此悬挂或支撑。 因此,支撑/悬挂系统除了承载磁体或屏蔽载荷之外还具有各种任务,它还在运输期间保持冷质量的位置并且还在安装期间固定辐射屏蔽之间的内部间隙以及反复冷却。 根据低温恒温器和超导磁体系统的总体尺寸,放置在这些悬架系统上的各种约束导致热量输入到低温恒温器的输入增加。 必须通过使用液体或使用强制对流冷却或通过诸如常规GM-低温机的其他外部手段来冷却低温部件的各个部分,例如辐射屏蔽层。 因此,本发明提供了一种新型的支撑或悬挂系统,其组合了上述两种功能,即支撑或悬挂和冷却,并将其应用于脉管冷却器。 脉冲管(22-38)可以串联或并联布置,可以是单级或多级的,或者具有额外的液化阶段并且在超低温恒温器内悬挂或支撑超导磁体或HTS导体。 作为悬架或支撑构件的脉冲管也可以同时冷却与其连接的屏蔽件26,并且同时承载屏蔽或磁体负载。
    • 17. 发明公开
    • Pulse tube regrigerator
    • Stossrohrkühler。
    • EP0625683A1
    • 1994-11-23
    • EP94303474.4
    • 1994-05-16
    • DAIDO HOXAN INC.
    • Shaowei, Zhu
    • F25B9/14
    • F25B9/145F25B2309/1418F25B2309/1421F25B2309/1424F25B2309/1425
    • A high pressure valve (12) and low pressure valve (13) are positioned at the hot end of the pulse tube (7) and bi-directional valves (10,15) are positioned between the high pressure reservoir (12) and the tube (7) and the low pressure reservoir (13) and the tube (7), respectively. A high pressure gas source (21) and a low pressure gas (22) source are connected to the cold end of the tube through valves (1,2).
      A rotary pulse tube refrigerator comprising pulse tubes (2') located around the circumference of a pulse tube frame (8') a rotatable valve core (16') at the cold end of the pulse tubes, a high pressure gas inlet (32') and a low pressure gas outlet (47') on the valve core at the same circumference as the pulse tubes which can communicate with the cold ends of the pulse tubes, in which a moving seal between the end of the pulse tube frame and the valve core is maintained and a gas reservoir (5') is provided at the hot ends of the pulse tubes (2').
    • 高压阀(12)和低压阀(13)位于脉冲管(7)的热端,双向阀(10,15)位于高压储存器(12)和管 (7)和低压储存器(13)和管(7)。 高压气源(21)和低压气体(22)源通过阀(1,2)连接到管的冷端。 一种旋转脉冲管制冷器,包括位于脉冲管框架(8')周围的脉冲管(2'),脉冲管冷端处的可旋转阀芯(16'),高压气体入口(32' )和阀芯上的低压气体出口(47')在与可与脉冲管的冷端连通的脉冲管的相同圆周处,其中脉冲管框架的端部与 保持阀芯,并且在脉冲管(2')的热端设置有气体储存器(5')。
    • 19. 发明公开
    • THERMO-ACOUSTIC HEATING DEVICE
    • THERMOAKUSTISCHEERWÄRMUNGSVORRICHTUNG
    • EP3062038A1
    • 2016-08-31
    • EP14855495.9
    • 2014-10-17
    • Isuzu Motors Limited
    • OZAKI ShouYAMAMOTO Yasushi
    • F25B9/00
    • F25B9/145F25B27/02F25B2309/1403F25B2309/1405F25B2309/1409F25B2309/1425
    • Provided is a thermoacoustic heating device capable of effectively utilizing streaming. In this thermoacoustic heating device (10), a prime mover (22) is provided in a first pipeline (11) that forms a loop line, and a heating device (23) is provided in a second pipeline (12) that similarly forms another loop line. The first and second pipelines (11, 12) are connected to each other via a branch pipeline (13). The thermoacoustic heating device (10) is configured such that a branch pipeline (13a) on the prime mover (22) side and the pipeline (12) on the heating device (23) side are positioned adjacent to each other, and a low-temperature side heat exchanger (28) of the heating device (23) is integrally formed with or held in contact with the branch pipeline (13a) on the prime mover (22) side.
    • 提供能够有效地利用流的热声加热装置。 在这种热声加热装置(10)中,原动机(22)设置在形成环线的第一管道(11)中,并且加热装置(23)设置在第二管道(12)中,类似地形成另一管 循环线。 第一和第二管道(11,12)经由分支管道(13)彼此连接。 热声加热装置(10)被构造成使得原动机(22)侧的分支管道(13a)和加热装置(23)侧的管道(12)彼此相邻定位, 加热装置(23)的温度侧热交换器(28)与原动机(22)侧的分支管道(13a)整体形成或保持接触。