公开(公告)号：EP1537333A1

公开(公告)日：2005-06-08

申请号：EP03795089.6

申请日：2003-09-11

Applicant: ARTEMIS INTELLIGENT POWER LTD.

Inventor： STEIN, Uwe, Bernhard, Pascal ,  CALDWELL, Niall, James ,  RAMPEN, William, Hugh, Salvin ,  ALMOND, Jonathan, Paul

IPC: F04B49/06 ,  F04B53/10 ,  F04B7/00

CPC classification number: F04B49/225 ,  F01B25/10 ,  F04B7/0076 ,  F04B49/065 ,  F04B49/12 ,  F04B49/243 ,  F04B53/1082 ,  F04B2201/02 ,  F04B2201/0807

Abstract: A fluid-working machine has a plurality of working chambers, e.g. cylinders ( 11 ), of cyclically changing volume, a high-pressure fluid manifold ( 14 ) and a low-pressure fluid manifold ( 16 ), at least one valve ( 13, 15 ) linking each working chamber to each manifold, and electronic sequencing means ( 20 ) for operating said valves in timed relationship with the changing volume of each chamber ( 11 ), wherein the electronic sequencing means is arranged to operate the valves of each chamber in one of an idling mode, a partial mode in which only part of the usable volume of the chamber is used, and a full mode in which all of the usable volume of the chamber ( 11 ) is used, and the electronic sequencing means ( 20 ) is arranged to select the mode of each chamber on successive cycles so as to infinitely vary the time averaged effective flow rate of fluid through the machine.

公开(公告)号：WO2010023142A1

公开(公告)日：2010-03-04

申请号：PCT/EP2009/060734

申请日：2009-08-19

Applicant: DUTCH RAINMAKER B.V. ,  OOSTERLING, Pieter

Inventor： OOSTERLING, Pieter

IPC: F04B35/00 ,  F03D9/00

CPC classification number: F04B35/00 ,  F03D9/17 ,  F03D9/25 ,  F03D9/28 ,  F04B2201/0807 ,  F05B2210/16 ,  Y02E10/725 ,  Y02E60/15 ,  Y02P80/158

Abstract: The invention concerns a turbine driving a power conversion means, the power conversion means comprising several power conversion units, preferably of approximately similar power conversion capacity, that have coupling means for coupling the power conversion units to the turbine, the turbine having measuring means for determining the rotation speed of the turbine and/or a flow speed of the turbine driving flow of wind or water and a control system for controlling the coupling means in dependence of the determined rotation speed and/or flow speed. In accordance with the invention the control system has means for activating and deactivating the coupling means for the different the power conversion units so that the power conversion units are used equally.

Abstract translation: 本发明涉及一种驱动功率转换装置的涡轮机，该功率转换装置包括多个功率转换单元，优选地具有大致相似的功率转换能力，其具有用于将功率转换单元耦合到涡轮机的耦合装置，该涡轮机具有用于确定 涡轮机的转速和/或风或水的涡轮机驱动流量的流速以及用于根据确定的转速和/或流速来控制联接装置的控制系统。 根据本发明，控制系统具有用于激活和去激活用于不同功率转换单元的耦合装置的装置，使得功率转换单元被均等地使用。

公开(公告)号：WO2019079176A1

公开(公告)日：2019-04-25

申请号：PCT/US2018/055870

申请日：2018-10-15

Applicant: CURAEGIS TECHNOLOGIES, INC.

Inventor： HEMINK, Douglas A.

IPC: F04B1/14 ,  F03C1/06 ,  F04B7/06 ,  F04B1/16 ,  F03C1/40 ,  F04B1/29 ,  F04B53/18 ,  F04B1/12

CPC classification number: F01B3/0079 ,  F01B3/0085 ,  F01B3/02 ,  F01B3/101 ,  F03C1/061 ,  F03C1/0613 ,  F03C1/0686 ,  F04B1/124 ,  F04B1/126 ,  F04B1/128 ,  F04B1/14 ,  F04B1/146 ,  F04B1/16 ,  F04B1/182 ,  F04B1/20 ,  F04B1/29 ,  F04B1/295 ,  F04B1/30 ,  F04B7/06 ,  F04B53/18 ,  F04B2201/0201 ,  F04B2201/0807 ,  F16H1/28

Abstract: A reciprocating piston type hydraulic machine comprises a rotatable piston (60) configured for a controlled rotation and reciprocation within a cylinder bore of the hydraulic machine along a cylinder bore axis; wherein the reciprocating piston type hydraulic machine is an axial piston machine comprising a rotating swash mechanism (40) configured for variable displacement, a stationary cylinder block (10), and a rotatable shaft (30) coupled to the rotating swash mechanism.

公开(公告)号：WO2010130495A1

公开(公告)日：2010-11-18

申请号：PCT/EP2010/053689

申请日：2010-03-22

Applicant: ROBERT BOSCH GMBH ,  FRIEDRICH, Christian

Inventor： FRIEDRICH, Christian

IPC: F04B23/06 ,  F04B49/03 ,  F04B49/24

CPC classification number: F04B23/06 ,  F04B49/03 ,  F04B49/243 ,  F04B2201/0807

Abstract: Die Erfindung betrifft eine Kolbenmaschine (1), insbesondere Flüssigkeitskolbenmaschine, mit mehreren Kolbeneinheiten (10, 11, 12), die geometrisch bedingt unterschiedlich große Fördervolumen (V 10 , V 11 , V 12 ) aufweisen und zur diskreten Einstellung eines Gesamtfördervolumens (V G ) der Kolbenmaschine (1) individuell abstellbar sind. Hierbei ist vorgesehen, dass das größere Fördervolumen (V 11 , V 12 ) einer der Kolbeneinheiten (11, 12) jeweils doppelt so groß ist wie das nächst kleinere Fördervolumen (V 10 , V 11 ) einer anderen der Kolbeneinheiten (10, 11).

Abstract translation: 本发明涉及一种活塞式发动机（1），特别是液体活塞机，与多个活塞单元（10，11，12），该几何形状取决于不同大流量（V10，V11，V12），并总共输送体积的活塞式发动机的（VG）的离散的设定（1 ）分别揭去。 据提供的更大的输送量（V11，V12）的活塞单元中的一个（11，12）在每种情况下的两倍的另一活塞单元（10,11）的下一个更小的流动体积（V10，V11）一样大。

公开(公告)号：US11841011B2

公开(公告)日：2023-12-12

申请号：US17260269

申请日：2018-12-20

Applicant: Gree Electric Appliances, Inc. of Zhuhai

Inventor： Yang Li ,  Xiaolin He ,  Wenbin Liu ,  Xiaona Zheng

IPC: F04B49/06 ,  F04B27/00 ,  F04B49/03 ,  F04B49/02 ,  F04B49/22 ,  F04B25/00 ,  F04B51/00 ,  F04B49/10 ,  F25B1/10 ,  F15B19/00

CPC classification number: F04B49/06 ,  F04B25/00 ,  F04B27/005 ,  F04B49/02 ,  F04B49/03 ,  F04B49/065 ,  F04B49/10 ,  F04B49/225 ,  F04B51/00 ,  F15B19/005 ,  F25B1/10 ,  F04B2201/0807 ,  F04B2201/0808 ,  F04B2207/703 ,  F25B2400/074

Abstract: The present disclosure provides a control method of a compressor and a refrigerant circulation system. The control method includes deciding whether a current working volume state of the compressor is matched with a control instruction after the compressor completes a change to a working volume according to the control instruction; determining that the compressor operates normally in a case where the current working volume state of the compressor is matched with the control instruction; and determining that the compressor operates in fault in a case where the current working volume state of the compressor is not matched with the control instruction.

公开(公告)号：US20170298928A9

公开(公告)日：2017-10-19

申请号：US14942567

申请日：2015-11-16

Applicant: Artemis Intelligent Power Limited

Inventor： Uwe Bernhard Pascal STEIN ,  Niall James CALDWELL ,  William Hugh Salvin RAMP EN ,  Jonathan Paul ALMOND

IPC: F04B49/22 ,  F04B49/06 ,  F04B49/12 ,  F01B25/10 ,  F04B7/00 ,  F04B49/24 ,  F04B53/10

CPC classification number: F04B49/225 ,  F01B25/10 ,  F04B7/0076 ,  F04B49/065 ,  F04B49/12 ,  F04B49/243 ,  F04B53/1082 ,  F04B2201/02 ,  F04B2201/0807

Abstract: A fluid-working machine has a plurality of working chambers, e.g., cylinders, of cyclically changing volume, a high-pressure fluid manifold and a low-pressure fluid manifold, at least one valve linking each working chamber to each manifold, and electronic sequencing means for operating said valves in timed relationship with the changing volume of each chamber, wherein the electronic sequencing means is arranged to operate the valves of each chamber in one of an idling mode, a partial mode in which only part of the usable volume of the chamber is used, and a full mode in which all of the usable volume of the chamber is used, and the electronic sequencing means is arranged to select the mode of each chamber on successive cycles so as to infinitely vary the time averaged effective flow rate of fluid through the machine.

公开(公告)号：US20170184330A1

公开(公告)日：2017-06-29

申请号：US15322993

申请日：2015-07-06

Applicant: GEA Bock GmbH

Inventor： Jörg KEUERLEBER

IPC: F25B31/02 ,  F04B39/12 ,  F25B41/04 ,  F04B49/03 ,  F25B9/00 ,  F04B53/10 ,  F04B39/00

CPC classification number: F25B31/023 ,  F04B39/0055 ,  F04B39/122 ,  F04B49/03 ,  F04B53/1077 ,  F04B2201/0807 ,  F25B9/008 ,  F25B41/04 ,  F25B2500/13

Abstract: A compressor (10), in particular a compressor for compressing a coolant, including one or more pistons (12), a cylinder block (16), and a compressor housing which at least partially houses the compressor (10), the piston(s) (12) being arranged in corresponding cylinder bores or cylinders (14) arranged at least partially in the cylinder block (16) and/or in the compressor housing so that they can move back and forth. The compressor (10) also includes an impedance tube (36) and an outlet (30) for releasing the coolant from the compressor, (10) in particular an outlet flange (32). Said compressor (10) has an associated high pressure volume (24), for one or more, in particular, for respectively two cylinders (14), and a common high pressure volume (26), in which the individual high pressure volumes (24) join, the common high pressure volume (26) being connected to the outlet (30) and the impedance tube (36) being arranged in the connection between the common high pressure volume (26) and the outlet (30) or the connection is created between the common high pressure volume (26) and the outlet (30). The invention also relates to a corresponding coolant circuit and to a corresponding air-conditioning system.

公开(公告)号：US20110123354A1

公开(公告)日：2011-05-26

申请号：US12929497

申请日：2011-01-28

Applicant: Uwe Bernhard Pascal Stein ,  Niall James Caldwell ,  William Hugh Salvin Rampen ,  Jonathan Paul Almond

Inventor： Uwe Bernhard Pascal Stein ,  Niall James Caldwell ,  William Hugh Salvin Rampen ,  Jonathan Paul Almond

IPC: F04B49/06

CPC classification number: F04B49/225 ,  F01B25/10 ,  F04B7/0076 ,  F04B49/065 ,  F04B49/12 ,  F04B49/243 ,  F04B53/1082 ,  F04B2201/02 ,  F04B2201/0807

Abstract: A fluid-working machine has a plurality of working chambers, e.g., cylinders, of cyclically changing volume, a high-pressure fluid manifold and a low-pressure fluid manifold, at least one valve linking each working chamber to each manifold, and electronic sequencing means for operating said valves in timed relationship with the changing volume of each chamber, wherein the electronic sequencing means is arranged to operate the valves of each chamber in one of an idling mode, a partial mode in which only part of the usable volume of the chamber is used, and a full mode in which all of the usable volume of the chamber is used, and the electronic sequencing means is arranged to select the mode of each chamber on successive cycles so as to infinitely vary the time averaged effective flow rate of fluid through the machine.

Abstract translation: 流体加工机具有循环变化的体积的多个工作室，例如圆柱体，高压流体歧管和低压流体歧管，至少一个将每个工作室连接到每个歧管的阀以及电子排序 用于以与每个室的变化的体积定时关系来操作所述阀的装置，其中所述电子排序装置被布置成以空转模式，部分模式中的仅一部分可用体积的部分模式操作每个室的阀 使用腔室的全部模式，并且使用该腔室的所有可用体积的全模式，并且电子排序装置被布置成在连续循环中选择每个腔室的模式，以便无限地改变时间平均有效流速 流体通过机器。

公开(公告)号：US20180128254A1

公开(公告)日：2018-05-10

申请号：US15566753

申请日：2016-05-09

Applicant: Carrier Corporation

Inventor： Alexander LIFSON ,  Paul J. FLANIGAN

IPC: F04B39/12 ,  F04B25/00 ,  F25B1/10 ,  F25B1/02 ,  F25B31/02 ,  F25B9/00

CPC classification number: F04B39/125 ,  F04B25/00 ,  F04B2201/0807 ,  F25B1/02 ,  F25B1/10 ,  F25B9/002 ,  F25B31/023 ,  F25B2400/074 ,  F25B2400/13

Abstract: A compressor (22) has: a case (32) defining: a first cylinder bank (70) having a plurality of cylinders (76, 77); a cylinder head (100); a suction port (26); a discharge port (28); and an economizer port (30); a plurality of pistons, each individually associated with a respective one of the cylinders; and a crankshaft (202) held by the case for rotation about a crankshaft axis and coupled to the pistons. The first cylinder bank cylinder head is divided into: a first suction chamber (130); a second suction chamber (132); and a single discharge chamber (128). The first cylinder bank first suction chamber is coupled to the suction port. The first cylinder bank second suction chamber is coupled to the economizer port. The first cylinder bank discharge chamber is coupled to the discharge port.

公开(公告)号：US20160169222A1

公开(公告)日：2016-06-16

申请号：US14942567

申请日：2015-11-16

Applicant: Artemis Intelligent Power Limited

Inventor： Uwe Bernhard Pascal STEIN ,  Niall James CALDWELL ,  William Hugh Salvin RAMP EN ,  Jonathan Paul ALMOND

IPC: F04B49/22 ,  F01B25/10 ,  F04B49/12

CPC classification number: F04B49/225 ,  F01B25/10 ,  F04B7/0076 ,  F04B49/065 ,  F04B49/12 ,  F04B49/243 ,  F04B53/1082 ,  F04B2201/02 ,  F04B2201/0807

Abstract: A fluid-working machine has a plurality of working chambers, e.g., cylinders, of cyclically changing volume, a high-pressure fluid manifold and a low-pressure fluid manifold, at least one valve linking each working chamber to each manifold, and electronic sequencing means for operating said valves in timed relationship with the changing volume of each chamber, wherein the electronic sequencing means is arranged to operate the valves of each chamber in one of an idling mode, a partial mode in which only part of the usable volume of the chamber is used, and a full mode in which all of the usable volume of the chamber is used, and the electronic sequencing means is arranged to select the mode of each chamber on successive cycles so as to infinitely vary the time averaged effective flow rate of fluid through the machine.

Abstract translation: 流体加工机具有循环变化的体积的多个工作室，例如圆柱体，高压流体歧管和低压流体歧管，至少一个将每个工作室连接到每个歧管的阀以及电子排序 用于以与每个室的变化的体积定时关系来操作所述阀的装置，其中所述电子排序装置被布置成以空转模式，部分模式中的仅一部分可用体积的部分模式操作每个室的阀 使用腔室的全部模式，其中使用所有腔室的可用体积的全模式，并且电子排序装置被布置成在连续循环中选择每个腔室的模式，以便无限地改变时间平均有效流速 流体通过机器。