会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Method of and valve for controlling flow in a hydronic system
    • 用于控制液压系统中的流量的方法和阀
    • US5472014A
    • 1995-12-05
    • US219203
    • 1994-03-29
    • Bengt A. Carlson
    • Bengt A. Carlson
    • G05D23/02F16K37/00
    • G05D23/023Y10T137/8275Y10T137/8326
    • Liquid flow through a conduit in a branch of a hydronic system provided with a balancing valve and, in series therewith, a metering valve to obtain a desired rate of flow in the branch is regulated by positioning immediately adjacent an accelerated-flow zone in the metering valve in the conduit a pitot having an upstream side directed upstream against a direction of flow through the conduit and a downstream side directed downstream in the flow direction. The metering valve is settable in a plurality of predetermined positions each corresponding to a respective flow cross section through the conduit. A differential pressure meter is connected to both sides of the pitot, the one of the predetermined valve positions is selected that gives a near full-range reading on the meter, and the metering valve is set in this selected one position. The pressure-differential reading on the meter is monitored and the balancing valve is adjusted to regulate flow therethrough until the read pressure corresponds to a level itself corresponding to the desired rate of flow in the branch.
    • 通过设置有平衡阀并与其串联的液压循环系统的分支中的导管的液体流动通过在计量中紧邻加速流动区域定位来调节,以便在分支中获得期望的流量 所述管道中的阀门具有上游侧的上游侧,流过所述导管的流动方向和沿流动方向指向下游的下游侧。 计量阀可设置在多个预定位置,每个预定位置对应于穿过导管的相应流动横截面。 差压计连接到皮托管的两侧,选择预定阀位之一,在仪表上给出接近全量程读数,并将计量阀置于该选定的一个位置。 监测仪表上的压力差读数,并调节平衡阀以调节其中的流量,直到读取压力对应于与分支中所需的流速相对应的水平。
    • 4. 发明授权
    • Pressure independent control valve
    • 压力独立控制阀
    • US06827100B1
    • 2004-12-07
    • US10049730
    • 2002-02-14
    • Bengt A. Carlson
    • Bengt A. Carlson
    • G05D701
    • G05D16/0655G05D7/0106Y10T137/7668Y10T137/7788
    • Simple APCV, ADPCV and PICV's are provided. The APCV's are referenced to the atmosphere and control the gauge pressure, either upstream or downstream. The ADPCV's are the same as the APCV's, differing in that they are not referenced to the atmosphere. They are instead referenced to a second point in the fluid flow system and control the differential pressure. The PICV's are control valves connected in series with ADPCV's and control the fluid flow rate through the valve independently of variations in the line pressure. A preferred APCV has a valve body (1) with connections for a single-phase fluid line and a flow passage between the inlet (2) and the outlet (3) of said fluid line, with an opening having a defined seat orifice (7) intersecting the flow passage. A moveable assembly, comprising a disk (5) or cup is connected to a pressure sensing member (4), having essentially the same effective surface area. The moveable assembly, is biased by a force, and is free to automatically move to any intermediate position between fully open and closed, producing a desired outlet pressure which minus the reference pressure, times the effective surface area of the disk or cup generates an opposing force equal to the biasing force.
    • 提供简单的APCV,ADPCV和PICV。 APCV参考大气层,控制压力表,上游或下游。 ADPCV与APCV相同,不同之处在于它们不参与气氛。 它们代替流体流动系统中的第二个点,并控制差压。 PICV是与ADPCV串联连接的控制阀,可以独立于管路压力的变化来控制通过阀门的流体流量。 优选的APCV具有阀体(1),其具有用于单相流体管线的连接和在所述流体管线的入口(2)和出口(3)之间的流动通道,具有限定的阀座孔口(7) )与流动通道相交。 包括盘(5)或杯的可移动组件连接到压力感测构件(4),具有基本上相同的有效表面积。 可移动组件被力偏压,并且自由地自动地移动到完全打开和关闭之间的任何中间位置,产生所需的出口压力减去参考压力,乘以盘或杯的有效表面积产生相对的 力等于偏置力。
    • 5. 发明授权
    • Torque amplifying apparatus and system
    • 扭矩放大装置和系统
    • US08327728B2
    • 2012-12-11
    • US12429406
    • 2009-04-24
    • Bengt A. Carlson
    • Bengt A. Carlson
    • G01C19/06
    • G01C19/06Y10T74/1218Y10T74/1225Y10T74/1282
    • Described is a torque amplifying device that is of centrifugal or gyroscopic type and has a unidirectional drive or drives. This device is used to control the body of a controlled object, such as an airplane, helicopter, land vehicle, cargo handling mechanism, earth moving machine or maritime device or vehicle. The torque amplifying devices are designed so that they supply a torque (momentum) to the body of the controlled object where it is connected. Thereby, the orientation or weight distribution of the body is controlled. The orientation is achieved without resorting to the physical properties of the surrounding environment (ground, water or air). Thus, it can apply a torque to this body in pitch, roll and/or yaw, so that it achieves the position or weight distribution the control system is calling for. The duration of the torque can be unlimited, until the conditions that produce it are intentionally changed.
    • 描述了一种具有离心或陀螺式并具有单向驱动或驱动的扭矩放大装置。 该装置用于控制受控对象的身体,例如飞机,直升机,陆上车辆,货物处理机构,移动机器或海事装置或车辆。 扭矩放大装置被设计成使得它们向其所连接的受控对象的主体提供扭矩(动量)。 由此,能够控制身体的取向或重量分布。 取向是在不利用周围环境(地面,水或空气)的物理性质的情况下实现的。 因此,它可以在俯仰,滚动和/或偏转中向该身体施加扭矩,使得其实现控制系统所要求的位置或重量分布。 扭矩的持续时间可以是无限的,直到产生它的条件被有意地改变为止。
    • 6. 发明授权
    • Control valve with detachable descrete curtain valve assembly
    • 带可拆卸式分离幕阀组件的控制阀
    • US07051994B2
    • 2006-05-30
    • US10186456
    • 2002-06-28
    • Bengt A. Carlson
    • Bengt A. Carlson
    • F16K7/18
    • F16K3/0245F16K7/18Y10S251/901
    • Valves, particularly useful for controlling flow of heat transfer fluids in various heating, air conditioning and ventilation systems, are provided. The valves are of the curtain valve type and operate at very low torque and provide easy assembly and repair. The valve or actuator has an adjustment for the flow coefficient. A disclosed valve comprises a valve body having an inside surface, an inlet port comprised of an opening through the inside surface and enabling fluid flow into the valve body, an outlet port comprised of an opening through the inside surface and enabling fluid flow from the valve body, and a curtain valve closure. The closure adjustably controls fluid flow through the outlet port and is of a modular design including a flexible diaphragm held in an insert positioned at least partially within the outlet port. The insert has at least one dimension larger than a mating surface on the internal surface of the valve body. In this manner the insert is secured without fasteners and properly oriented within the outlet port, facilitates easy assembly and enables the use of low-torque actuators. The valve can employ a radially- and axially-moveable shoe to assure tight close off.
    • 提供了用于控制各种加热,空调和通风系统中的传热流体流动的阀门。 阀门为闸阀类型,工作转矩非常低,易于组装和维修。 阀或致动器具有对流量系数的调整。 所公开的阀包括具有内表面的阀体,包括通过内表面的开口并使流体流入阀体的入口端口,出口端口包括通过内表面的开口,并使流体能够从阀门流出 车身和窗帘阀门关闭。 封闭件可调节地控制流过出口的流体流动并且是模块化设计,包括保持在至少部分地位于出口端口内的插入件中的柔性隔膜。 插入件具有比阀体内表面上的配合表面更大的至少一个尺寸。 以这种方式,插入件被固定而没有紧固件并且在出口端口内适当定向,便于组装,并且能够使用低扭矩致动器。 该阀可采用径向和轴向移动的鞋,以确保紧密关闭。
    • 7. 发明申请
    • TORQUE AMPLIFYING APPARATUS AND SYSTEM
    • 扭矩放大装置和系统
    • US20100000350A1
    • 2010-01-07
    • US12429406
    • 2009-04-24
    • Bengt A. Carlson
    • Bengt A. Carlson
    • G01C19/02
    • G01C19/06Y10T74/1218Y10T74/1225Y10T74/1282
    • A torque amplifying device that is of centrifugal or gyroscopic type and has a unidirectional drive or drives. This device is used to control the body of a controlled object.The controlled object can be an airplane, helicopter, land vehicle, cargo handling mechanism, earth moving machine or maritime device or vehicle.The torque amplifying devices are designed so that they supply a torque (momentum) to the body of the controlled object where it is connected. Thereby, the orientation or weight distribution of the body is controlled. The orientation is achieved without resorting to the physical properties of the surrounding environment (ground, water or air). Thus, it can apply a torque to this body in pitch, roll and/or yaw, so that it achieves the position or weight distribution the control system is calling for. The duration of the torque can be unlimited, until the conditions that produce it are intentionally changed.
    • 一种具有离心或陀螺式并具有单向驱动或驱动的扭矩放大装置。 该设备用于控制受控对象的主体。 受控对象可以是飞机,直升机,陆上车辆,货物处理机构,移动机器或海事装置或车辆。 扭矩放大装置被设计成使得它们向其所连接的受控对象的主体提供扭矩(动量)。 由此,能够控制身体的取向或重量分布。 取向是在不利用周围环境(地面,水或空气)的物理性质的情况下实现的。 因此,它可以在俯仰,滚动和/或偏转中向该身体施加扭矩,使得其实现控制系统所要求的位置或重量分布。 扭矩的持续时间可以是无限的,直到产生它的条件被有意地改变为止。
    • 8. 发明授权
    • Pressure independent control valve
    • 压力独立控制阀
    • US07451781B2
    • 2008-11-18
    • US11194636
    • 2005-08-01
    • Bengt A. Carlson
    • Bengt A. Carlson
    • G05D7/01
    • G05D16/0655Y10T137/7782Y10T137/7788
    • The invention provides valves of the type employing a differential pressure regulator and a characterized valve with a mechanism to enhance control of fluid flow independently of system pressure. The valves of the invention are especially suitable for HVAC applications, and provide operation with improved accuracy over a greater flow range with a reduced risk of hunting. In one preferred aspect, the invention provides improvements by the employment in the differential pressure regulator of a diaphragm with a cup arranged to provide a small leakage, thereby dampening the response of the regulator. In another aspect, a baffle is provided to protect the downstream side of a control disk forming part of the differential pressure regulator.
    • 本发明提供采用差压调节器的阀门和具有独立于系统压力的用于增强流体流动控制的机构的特征阀。 本发明的阀门特别适用于HVAC应用,并且在更大的流量范围内提供具有提高的捕猎风险的精度的操作。 在一个优选方面,本发明通过使用具有杯的隔膜的差压调节器来提供改进,其布置成提供小的泄漏,从而减弱调节器的响应。 在另一方面,提供挡板以保护形成差压调节器的一部分的控制盘的下游侧。
    • 9. 发明授权
    • Ball valve with adjustable flow coefficient
    • 具有流量系数可调的球阀
    • US06837480B1
    • 2005-01-04
    • US10049729
    • 2000-08-17
    • Bengt A. Carlson
    • Bengt A. Carlson
    • F16K5/06F16K5/10
    • F16K5/10F16K5/0605Y10T137/5196
    • A valve connected to a fluid pipe line and having a valve chamber and at least one inlet port (3) and one outlet port (4), the valve comprising a ball (5) mounted in the valve chamber between a pair of seats (8, 9), and having an exterior surface and two ends and a fluid passageway extending between the two ends, the ball (5) is turned by a stem (6) for selective adjustment between an open and a closed position, with the ball (5) and stem (6) having an axis of rotation perpendicular to the centerline between the inlet (3) and outlet (4) ports, and the ball (5) having the centerline for its fluid flow passageway at an angle different from perpendicular to the axis of rotation of the ball (5).
    • 一种连接到流体管线并具有阀室和至少一个入口(3)和一个出口(4)的阀,所述阀包括安装在阀室中的一对座(8)之间的球(5) ,9),并且具有外表面和两端以及在两端之间延伸的流体通道,球(5)由杆(6)转动,用于在打开和关闭位置之间选择性调节与球( 5)和杆(6)具有垂直于入口(3)和出口(4)端口之间的中心线的旋转轴线,并且球(5)具有其流体流动通道的中心线的角度不同于垂直于 球(5)的旋转轴线。
    • 10. 发明授权
    • Method of and valve for controlling flow in a hydronic system
    • 用于控制液压系统中的流量的方法和阀
    • US5313980A
    • 1994-05-24
    • US43831
    • 1993-04-06
    • Bengt A. Carlson
    • Bengt A. Carlson
    • G05D23/02F16K37/00
    • G05D23/023Y10T137/8275Y10T137/8326
    • Liquid flow through a conduit in a branch of a hydronic system provided with a balancing valve and, in series therewith, a metering valve to obtain a desired rate of flow in the branch is regulated by positioning immediately adjacent the metering valve in the conduit a pitot having an upstream side directed upstream against a direction of flow through the conduit and a downstream side directed downstream in the flow direction. The metering valve is settable in a plurality of predetermined positions each corresponding to a respective flow cross section through the conduit. A differential pressure meter is connected to both sides of the pitot, the one of the predetermined valve positions is selected that gives a near full-range reading on the meter, and the metering valve is set in this selected one position. The pressure-differential reading on the meter is monitored and the balancing valve is adjusted to regulate flow therethrough until the read pressure corresponds to a level itself corresponding to the desired rate of flow in the branch.
    • 通过设置有平衡阀并且与其串联的液压循环系统的分支中的导管的液体流动通过在管道中紧邻定量阀定位皮托管来调节,该计量阀在分支中获得期望的流速 具有上游侧朝向流过导管的流动方向的上游侧,以及沿流动方向指向下游的下游侧。 计量阀可设置在多个预定位置,每个预定位置对应于穿过导管的相应流动横截面。 差压计连接到皮托管的两侧,选择预定阀位之一,在仪表上给出接近全量程读数,并将计量阀置于该选定的一个位置。 监测仪表上的压力差读数,并调节平衡阀以调节其中的流量,直到读取压力对应于与分支中所需的流速相对应的水平。