公开(公告)号：US08029250B2

公开(公告)日：2011-10-04

申请号：US12345563

申请日：2008-12-29

Applicant: Benjamin M. Rush ,  Christopher V. Reggiardo ,  Arthur E. Anderson, III

Inventor： Benjamin M. Rush ,  Christopher V. Reggiardo ,  Arthur E. Anderson, III

IPC: F01B23/08

CPC classification number: F04B35/00 ,  A61M5/14216 ,  A61M5/14244 ,  A61M2205/0266 ,  A61M2205/0288 ,  A61M2205/3317 ,  A61M2205/702 ,  F03G7/065 ,  F04B9/00 ,  F04B9/02 ,  F04B17/00 ,  F04B23/02 ,  F04B35/04 ,  F04B49/065 ,  F04B2201/0201 ,  F05C2251/08 ,  G01F11/021

Abstract: A portable pumping system provides insulin or other drugs to a user. A shape memory element is used to actuate the pump and an intelligent system controls the actuator in order to minimize stresses within the system and provide accurate and reliable dosage delivery. The control system utilizes various types of feedback to monitor and optimize the position of the pumping mechanisms. Physical design aspects also minimize stress and the combination of the physical design aspects and the intelligent operation of the system results in a lightweight and cost effective pump that may be used in a disposable fashion if desired.

公开(公告)号：US07993108B2

公开(公告)日：2011-08-09

申请号：US11106155

申请日：2005-04-13

Applicant: Benjamin M. Rush ,  Christopher V. Reggiardo ,  Arthur E. Anderson, III

Inventor： Benjamin M. Rush ,  Christopher V. Reggiardo ,  Arthur E. Anderson, III

IPC: F04B23/08

CPC classification number: F04B35/00 ,  A61M5/14216 ,  A61M5/14244 ,  A61M2205/0266 ,  A61M2205/0288 ,  A61M2205/3317 ,  A61M2205/702 ,  F03G7/065 ,  F04B9/00 ,  F04B9/02 ,  F04B17/00 ,  F04B23/02 ,  F04B35/04 ,  F04B49/065 ,  F04B2201/0201 ,  F05C2251/08 ,  G01F11/021

Abstract: A portable pumping system provides insulin or other drugs to a user. A shape memory element is used to actuate the pump and an intelligent system controls the actuator in order to minimize stresses within the system and provide accurate and reliable dosage delivery. The control system utilizes various types of feedback to monitor and optimize the position of the pumping mechanisms. Physical design aspects also minimize stress and the combination of the physical design aspects and the intelligent operation of the system results in a lightweight and cost effective pump that may be used in a disposable fashion if desired.

公开(公告)号：US20110103974A1

公开(公告)日：2011-05-05

申请号：US12911684

申请日：2010-10-25

Applicant: Craig Lamascus ,  Lloyd Wentworth

Inventor： Craig Lamascus ,  Lloyd Wentworth

IPC: F04B49/06

CPC classification number: F04B47/02 ,  F04B49/065 ,  F04B49/20 ,  F04B2201/0201

Abstract: A method of operating an oil well comprises applying through a regenerative variable frequency drive AC electrical energy from a power grid to an AC electric motor to operate a drive mechanism of an oil well pump. The motor speed is regulated in a manner to optimize fluid production and maximize the operational life of the drive mechanism, decreasing motor speed by transferring the electrical energy to the power grid and increasing motor speed by transferring the electrical energy from the power grid to the motor. The drive mechanism has a predetermined stroke cycle and, over the course of each stroke cycle, the motor is operated at different regulated speeds initiated when the drive mechanism is at a predetermined position.

Abstract translation: 一种操作油井的方法包括通过再生可变频率驱动AC电能从电网施加到AC电动机以操作油井泵的驱动机构。 电机速度被调节以优化流体生产并且最大化驱动机构的使用寿命，通过将电能转移到电网来降低电动机速度并通过将电能从电网传递到电动机来提高电动机速度 。 驱动机构具有预定的行程周期，并且在每个行程周期的过程中，当驱动机构处于预定位置时，马达以不同的调节速度运行。

公开(公告)号：US07828972B2

公开(公告)日：2010-11-09

申请号：US12251615

申请日：2008-10-15

Applicant: Young-Bog Ham ,  Sang-Jin Park ,  Tae-Woo Kong

Inventor： Young-Bog Ham ,  Sang-Jin Park ,  Tae-Woo Kong

IPC: B01D61/08 ,  B01D61/06

CPC classification number: F04F13/00 ,  B01D61/06 ,  C02F1/441 ,  C02F2103/08 ,  C02F2303/10 ,  F04B7/0241 ,  F04B9/1176 ,  F04B2201/0201 ,  F04B2203/0903 ,  F16K11/0743 ,  Y02A20/131 ,  Y02E10/28 ,  Y02W10/30

Abstract: Disclosed is a self-reciprocating energy recovery device utilized in driving of a seawater pump by self-reciprocating a piston of a power recovery chamber and recovering energy not using an electronic drive unit but using the hydraulic power of concentrated water. The self-reciprocating energy recovery device including a pair of power recovery chambers having pistons therein respectively, a high-pressure concentrated supply pipe, a low-pressure concentrated discharge pipe, and a high-pressure seawater discharge pipe to enable the power recovery chambers to recover hydraulic power supplied through the high-pressure concentrated water supply pipe and utilize the hydraulic power in driving of a seawater pump.

Abstract translation: 公开了一种自动往复能量回收装置，其用于通过自动往复运动动力回收室的活塞来驱动海水泵，并回收不使用电子驱动单元但使用集中水的液压动力的能量。 自动往复能量回收装置包括分别具有活塞的一对动力回收室，高压集中供给管，低压浓缩排出管和高压海水排出管，能够使动力回收室 恢复通过高压集中供水管供给的液压动力，利用水力驱动海水泵。

公开(公告)号：US07744354B2

公开(公告)日：2010-06-29

申请号：US10527395

申请日：2003-07-10

Applicant: Dietmar Erich Bernhard Lilie

Inventor： Dietmar Erich Bernhard Lilie

IPC: F04B17/00

CPC classification number: F04B39/1066 ,  F04B35/045 ,  F04B39/122 ,  F04B2201/0201

Abstract: The present invention relates to a fluid pump and a fluid-transfer plate and a sensor for a fluid pump, particularly applicable to linear compressors, for detecting the position of the respective piston and preventing the latter from colliding with the fluid-transfer plate upon variations in the compressor operation conditions, or even variations in the feed voltage. The objectives of the present invention are achieved by means of a fluid pump (1) comprising a piston (2) that is axially displaceable within a cylinder (3), the cylinder (3) comprising a cylinder closing fluid-transfer plate (40), the piston (2) being displaced toward the fluid-transfer plate (40) and capturing a gas or fluid from a low-pressure environment (11), and the fluid pump (11) comprising a sensor assembly (98), which includes an inductive sensor (8) associated with the fluid-transfer plate (40). The objectives of the present invention are also achieved by means of a fluid-transfer plate (40) particularly applicable to a fluid pump (1) and that comprises a valve plate (4) provided with a though-bore (10) for associating a protector (9) that cooperates with the cavity (10), the protector (9) comprising at least one sensor cavity (8′) for associating an inductive sensor (8). An inductive sensor (8) is also foreseen, which is applicable to the fluid pump (1).

Abstract translation: 本发明涉及一种用于检测相应活塞的位置的流体泵，流体传送板和用于流体泵的传感器，特别适用于线性压缩机，并防止其在变化时与流体传递板碰撞 在压缩机运行条件下，甚至是进给电压的变化。 本发明的目的通过一种流体泵（1）实现，流体泵（1）包括在气缸（3）内可轴向移动的活塞（2），气缸（3）包括气缸闭合流体传递板（40） ，活塞（2）朝向流体传递板（40）移动并从低压环境（11）捕获气体或流体，并且包括传感器组件（98）的流体泵（11）包括 与所述流体传递板（40）相关联的感应传感器（8）。 本发明的目的还通过特别适用于流体泵（1）的流体传递板（40）来实现，并且包括设有通孔（10）的阀板（4），用于将一个 保护器（9），其与空腔（10）配合，所述保护器（9）包括用于关联感应传感器（8）的至少一个传感器腔（8'）。 还可以预见到一种适用于流体泵（1）的电感式传感器（8）。

公开(公告)号：US20090280015A1

公开(公告)日：2009-11-12

申请号：US12297274

申请日：2007-04-17

Applicant: Dietmar Erich Bernhard Lillie ,  Egidio Berwanger ,  Raul Bosco, JR. ,  Emerson Moreira ,  Davi Luis Goergen ,  Fabricio Caldeira Possamai

Inventor： Dietmar Erich Bernhard Lillie ,  Egidio Berwanger ,  Raul Bosco, JR. ,  Emerson Moreira ,  Davi Luis Goergen ,  Fabricio Caldeira Possamai

IPC: F04B35/04

CPC classification number: F04B35/045 ,  F04B39/127 ,  F04B2201/0201

Abstract: The invention refers to a linear compressor, comprising: a shell (20); a cylinder (30) affixed to the shell (20) and defining a compression chamber (C); a piston (40) to be displaced in reciprocating movement in the interior of the compression chamber (C) during the operation of the compressor; a linear electric motor (50) mounted to the shell (20); and an actuating means (60) operatively coupling the piston (40) to the linear electric motor (50), in order to make the latter displace the piston (40) in a reciprocating movement in the interior of the compression chamber (C), the actuating means (60) being coupled to the piston (40) by an elastic means (70), so that the actuating means (60) and the piston (40) be displaced in phase opposition during the operation of the compressor.

Abstract translation: 本发明涉及一种线性压缩机，包括：壳体（20）; 固定到壳体（20）并限定压缩室（C）的圆筒（30）; 在所述压缩机的操作期间在所述压缩室（C）的内部中往复移动地移动的活塞（40） 安装到壳体（20）上的线性电动机（50）; 以及将活塞（40）可操作地联接到线性电动机（50）的致动装置（60），以便使其在压缩室（C）的内部中以往复运动方式使活塞（40）移动， 所述致动装置（60）通过弹性装置（70）联接到所述活塞（40），使得所述致动装置（60）和所述活塞（40）在所述压缩机的操作期间相对移位。

公开(公告)号：US07611331B2

公开(公告)日：2009-11-03

申请号：US10592217

申请日：2005-03-18

Applicant: Stefan Hoefling ,  Wilhelm Hofmann ,  Wolf-Michael Petzold

Inventor： Stefan Hoefling ,  Wilhelm Hofmann ,  Wolf-Michael Petzold

IPC: F04B49/00 ,  F04B35/02

CPC classification number: F04B9/1178 ,  F04B7/0241 ,  F04B15/023 ,  F04B2201/0201 ,  F04B2203/0903 ,  Y10S417/90

Abstract: A device and a method for controlling a two-cylinder thick matter pump comprising pistons that are actuated in a push-pull manner by means of a hydraulic reversible pump (6) and hydraulic drive cylinders controlled by said pump. To ensure a reliable operation of the pump the expected length of the stroke of the pistons (8, 8′) in the drive cylinders (5, 5′) is measured and recorded, the stroke time of each conveyance stroke is monitored and compared with the expected stroke duration, and the reversible pump (6) is respectively pivoted, reversing the flow, and/or the pipe switch (56) is reversed when the stroke time exceeds the expected stroke duration by a pre-determined value.

Abstract translation: 一种用于控制双缸厚料泵的装置和方法，包括通过液压可逆泵（6）以推拉方式致动的活塞和由所述泵控制的液压驱动缸。 为了确保泵的可靠运行，测量和记录驱动气缸（5,5'）中活塞（5,8'）的行程的预期长度，记录每个输送冲程的行程时间，并将其与 当行程时间超过预期行程持续时间预定值时，预期行程持续时间和可逆泵（6）分别枢转，反向流动和/或管道开关（56）反转。

公开(公告)号：US20090112156A1

公开(公告)日：2009-04-30

申请号：US12345571

申请日：2008-12-29

Applicant: Benjamin M. Rush ,  Christopher V. Reggiardo ,  Arthur E. Anderson, III

Inventor： Benjamin M. Rush ,  Christopher V. Reggiardo ,  Arthur E. Anderson, III

IPC: A61M1/00

CPC classification number: F04B35/00 ,  A61M5/14216 ,  A61M5/14244 ,  A61M2205/0266 ,  A61M2205/0288 ,  A61M2205/3317 ,  A61M2205/702 ,  F03G7/065 ,  F04B9/00 ,  F04B9/02 ,  F04B17/00 ,  F04B23/02 ,  F04B35/04 ,  F04B49/065 ,  F04B2201/0201 ,  F05C2251/08 ,  G01F11/021

Abstract: A portable pumping system provides insulin or other drugs to a user. A shape memory element is used to actuate the pump and an intelligent system controls the actuator in order to minimize stresses within the system and provide accurate and reliable dosage delivery. The control system utilizes various types of feedback to monitor and optimize the position of the pumping mechanisms. Physical design aspects also minimize stress and the combination of the physical design aspects and the intelligent operation of the system results in a lightweight and cost effective pump that may be used in a disposable fashion if desired.

公开(公告)号：US07477032B2

公开(公告)日：2009-01-13

申请号：US11520736

申请日：2006-09-14

Applicant: Hyen-young Choi ,  Kwang-woon Lee

Inventor： Hyen-young Choi ,  Kwang-woon Lee

IPC: H02P6/20

CPC classification number: F04B49/02 ,  F04B35/04 ,  F04B2201/0201 ,  F04B2201/0207 ,  F04B2201/0209 ,  F04B2203/0201

Abstract: A compressor having a sensorless motor and a driving method thereof. The compressor includes a sensorless motor having a rotation shaft connected to a rotator, a piston for performing a compression stroke and an intake stroke between a top dead center and a bottom dead center thereof, and a crank connecting the rotation shaft to the piston. The method includes forcibly aligning the rotator such that the rotator is positioned at a start position in the intake stroke of the piston, and accelerating rotation of the forcibly aligned rotator.

Abstract translation: 一种具有无传感器电动机的压缩机及其驱动方法。 压缩机包括：无转子马达，其具有连接到转子的旋转轴，用于执行压缩冲程的活塞和在其上死点和下止点之间的进气冲程，以及将旋转轴连接到活塞的曲柄。 该方法包括强制对准转子，使得转子位于活塞的进气冲程中的起始位置，并加速被强制对准的转子的旋转。

公开(公告)号：US07472639B2

公开(公告)日：2009-01-06

申请号：US11398712

申请日：2006-04-06

Applicant: Jong Rea Park

Inventor： Jong Rea Park

IPC: F01B31/12

CPC classification number: F04B35/045 ,  F04B2201/0201

Abstract: A compressor includes a sensor configured to detect a position of a piston; a sensor core configured to reciprocate within the sensor and with the piston; and a core supporting member configured to support the sensor core. The core supporting member is injection molded into the core supporting member, and the sensor core is insert molded into the core supporting member.

Abstract translation: 压缩机包括被配置为检测活塞的位置的传感器; 传感器芯构造成在所述传感器内和所述活塞之间往复运动; 以及构造成支撑传感器芯的芯支撑构件。 芯支撑构件被注塑成型芯支撑构件，并且传感器芯被插入模制到芯支撑构件中。