公开(公告)号：US20170130725A1

公开(公告)日：2017-05-11

申请号：US15257670

申请日：2016-09-06

Applicant: FLUID HANDLING LLC.

Inventor： Paul J. Ruzica

IPC: F04D25/06 ,  H02K11/00 ,  H02K7/00 ,  H02K5/132

CPC classification number: F04D25/0686 ,  H02K5/132 ,  H02K7/003 ,  H02K11/0094

Abstract: A submersible pump is provided featuring: a motor; run/start capacitors having run/start capacitor connectors; a housing having a motor housing portion and a run/start capacitor housing portion separated by a housing wall, the motor housing portion having a motor housing chamber to receive/contain the motor and oil for immersing the motor in an oil bath, the run/start housing portion having a run/start housing chamber, the housing wall having connection ports to allow sealed connections between electrical components in the motor housing portion and the run/start capacitor housing portion; a removable motor housing cover to couple/close the motor housing portion; a removable run/start capacitor housing cover to couple/close the run/start capacitor housing portion; and a capacitive cup having a side wall portion and a bottom wall portion, to be removeably arranged in the run/start capacitor housing chamber, the bottom wall portion to mount the run/start capacitors to be contained/surrounded by the side wall portion, the bottom wall portion having corresponding connection ports to allow the sealed connections between the run/start capacitor connectors and the electrical components in the motor housing portion in order to couple the run/start capacitors to the motor.

公开(公告)号：US20160356276A1

公开(公告)日：2016-12-08

申请号：US15173781

申请日：2016-06-06

Applicant: Fluid Handling LLC.

Inventor： Andrew A. CHENG ,  James J. GU ,  Kyle D. Schoenheit

IPC: F04D15/00 ,  F04D29/22 ,  F04D13/02

Abstract: The present invention provides a numerical affinity pump sensorless conversion signal processing technique, e.g. based upon processing the pump differential pressure, flow rate and power at pump maximum speed published by pump manufacturers, as well as the pump affinity law in order to obtain instant pump differential pressures and flow rate directly and numerically. The sensorless converter technique may be applied to any form of pump characteristics distributions simple or complicated, since there is no need to reconstruct and to solve any pump and system characteristics equations. As a result, the computation accuracy is significantly improved.

Abstract translation: 本发明提供了数字亲和泵无传感器转换信号处理技术，例如， 基于泵制造商公布的泵压差，流量和​​泵浦最大转速下的功率以及泵的亲和力定律，以便直接和数字地获得即时泵压差和流量。 无传感器转换器技术可以应用于任何形式的泵特性分布简单或复杂，因为不需要重构和解决任何泵和系统特性方程。 结果，显着提高了计算精度。

公开(公告)号：US20160290408A1

公开(公告)日：2016-10-06

申请号：US14816643

申请日：2015-08-03

Applicant: Fluid Handling LLC.

Inventor： Stephen W. WALTZ ,  Bruce M. BURKELMAN ,  James R. ROBERTS ,  Joel E. SWANSON

IPC: F16D1/04

CPC classification number: F16D1/04 ,  F16D1/0864

Abstract: A vertical in-line split couple pump includes a motor shaft having a motor shaft collar; a pump shaft having a pump shaft collar with a pump shaft angled collar surface oblique to an axis of the motor and pump shafts; and a coupler having coupler halves that attach together, that have a couple groove to receive the motor shaft collar, and have a couple angled groove to receive the pump shaft collar. The couple angled groove has a couple angled groove surface oblique to the axis. The coupler halves respond to a force that moves them together to couple the pump and motor shaft together, moves the pump shaft angled collar surface in relation to the couple angled groove surface, causing the pump shaft to move upwardly towards the motor shaft along the axis, to provide a way to jack-up and recouple the pump shaft and any impeller attached thereto by one mechanic.

Abstract translation: 垂直的在线分体式联动泵包括具有电动机轴环的电动机轴; 泵轴具有泵轴套环，其具有与电动机和泵轴的轴线倾斜的泵轴倾斜的套环表面; 以及耦合器，其具有连接在一起的耦合器半部，其具有耦合的凹槽以接收电动机轴环，并且具有耦合的成角度的凹槽以接收泵轴环。 双股倾斜槽具有与轴线倾斜的一对倾斜的槽形表面。 耦合器一半响应于将它们一起移动到一起以将泵和电动机轴联接在一起的力，使泵轴相对于耦合的倾斜槽表面移动泵轴角度的套环表面，使得泵轴沿着轴线向着电动机轴向上移动 ，以提供一种通过一个技工将泵轴和任何附着在其上的叶轮起重和补充的方式。

公开(公告)号：US09170137B2

公开(公告)日：2015-10-27

申请号：US14164423

申请日：2014-01-27

Applicant: Fluid Handling LLC

Inventor： Stanley P. Evans ,  Florin Rosca ,  Mahesh Nair ,  Amit Welekar

IPC: G01F1/42 ,  G01F1/40 ,  G01F1/44 ,  G01F15/00 ,  F16K5/06

CPC classification number: G01F1/42 ,  F16K5/0605 ,  G01F1/40 ,  G01F1/44 ,  G01F15/005 ,  Y10T137/6035

Abstract: A valve is provided having a valve housing/body configured to be arranged in, or form part of, a piping having a fluid flow, and configured with a pressure tap arranged at a location along the piping to allow pressure of the fluid flow of the piping to be measured, and also having a rotatable orifice plate configured to rotate in the valve body/housing on an axis of rotation positioned at a different location along the piping than the pressure tap for rotating between a first rotatable position for providing a normal fluid flow operation and a second rotatable position substantially perpendicular to the fluid flow for providing a direct flow measurement of the fluid flow determined based on signaling sensed by the pressure tap sensor containing information about a measured pressure at the pressure tap when the orifice plate is in the second rotatable position.

Abstract translation: 阀被设置有具有阀壳体/主体，其被构造成布置在具有流体流动的管道中或形成其一部分，并且配置有设置在沿着管道的位置处的压力分配器，以允许流体流动的压力 要测量的管道，并且还具有可旋转的孔板，所述孔板构造成沿着沿着管道的位于不同位置的旋转轴线在阀体/壳体中旋转，而不是压力抽头，用于在用于提供正常流体的第一可旋转位置之间旋转 流动操作和基本上垂直于流体流动的第二可旋转位置，用于提供基于由压力抽头传感器感测到的信号确定的流体流量的直接流量测量，该压力抽头传感器包含当孔板处于 第二可旋转位置。

公开(公告)号：US20150041700A1

公开(公告)日：2015-02-12

申请号：US14452990

申请日：2014-08-06

Applicant: Fluid Handling LLC.

Inventor： Nimesh Pratapbhai KARIA ,  Girish Subhash MUKKAWAR ,  Navalkishor Birdhilal AGRAWAL ,  Brijeshkumar Kantilal MEGHPARA

IPC: F16K25/00

CPC classification number: F16K25/005 ,  E03B7/00 ,  G01F23/56 ,  H01H35/40 ,  H01H2239/036

Abstract: A low water cut-off switch assembly features a two-part base assembly having a lower base part and an upper base part. The lower base part is made from a metallic material, configured to be adapted on piping having a fluid flow, and also configured with a central orifice to receive a paddle arm that pivots on an axis in response to the fluid flow in the piping. The upper base part is made from a non-metallic material, configured with a corresponding central orifice to receive the paddle arm, and configured with a channel to receive a pivot arm to mount and allow the paddle arm to pivot on the axis in order to actuate an ON/OFF switch in response to the fluid flow. The non-metallic material of the upper base part has a substantially lower coefficient of heat transfer than the metallic material of the lower base part, so as to substantially reduce condensation build-up in the low water cut-off switch, e.g., especially when the low water cut-off switch is used in applications exposed to temperatures below freezing, including chiller applications.

Abstract translation: 低断水开关组件具有两部分的底部组件，其具有下基部和上基部。 下部基部由金属材料制成，其构造成适于具有流体流动的管道，并且还配置有中心孔口，以接收响应于管道中的流体流动在轴线上枢转的桨叶臂。 上部基部由非金属材料制成，配置有相应的中心孔以接纳桨臂，并且构造成具有通道以接收枢转臂以安装并允许桨臂在轴线上枢转，以便 响应于流体流动致动ON / OFF开关。 上基部的非金属材料具有比下基部的金属材料低得多的传热系数，从而大大减少了在低截水开关中的凝结积聚，特别是当 低阻水开关用于暴露于低于冰点的温度的应用中，包括冷却器应用。

公开(公告)号：US20140311254A1

公开(公告)日：2014-10-23

申请号：US14164423

申请日：2014-01-27

Applicant: Fluid Handling LLC

Inventor： Stanley P. EVANS ,  Florin ROSCA ,  Mahesh NAIR ,  Amit WELEKAR

IPC: G01F1/42

CPC classification number: G01F1/42 ,  F16K5/0605 ,  G01F1/40 ,  G01F1/44 ,  G01F15/005 ,  Y10T137/6035

Abstract: A valve is provided having a valve housing/body configured to be arranged in, or form part of, a piping having a fluid flow, and configured with a pressure tap arranged at a location along the piping to allow pressure of the fluid flow of the piping to be measured, and also having a rotatable orifice plate configured to rotate in the valve body/housing on an axis of rotation positioned at a different location along the piping than the pressure tap for rotating between a first rotatable position for providing a normal fluid flow operation and a second rotatable position substantially perpendicular to the fluid flow for providing a direct flow measurement of the fluid flow determined based on signaling sensed by the pressure tap sensor containing information about a measured pressure at the pressure tap when the orifice plate is in the second rotatable position.

Abstract translation: 阀被设置有具有阀壳体/主体，其被构造成布置在具有流体流动的管道中或形成其一部分，并且配置有设置在沿着管道的位置处的压力分配器，以允许流体流动的压力 要测量的管道，并且还具有可旋转的孔板，所述孔板构造成沿着沿着管道的位于不同位置的旋转轴线在阀体/壳体中旋转，而不是压力抽头，用于在用于提供正常流体的第一可旋转位置之间旋转 流动操作和基本上垂直于流体流动的第二可旋转位置，用于提供基于由压力抽头传感器感测到的信号确定的流体流量的直接流量测量，该压力抽头传感器包含当孔板处于 第二可旋转位置。

公开(公告)号：US20140288716A1

公开(公告)日：2014-09-25

申请号：US14187817

申请日：2014-02-24

Applicant: Fluid Handling LLC.

Inventor： Andrew A. CHENG ,  Graham A. SCOTT ,  James J. GU

IPC: G05D7/06

CPC classification number: F04D15/0066 ,  F04D15/0088

Abstract: The present invention provides apparatus featuring a signal processor or processing module that may be configured at least to: process signaling containing information about an equilibrium point of pump differential pressure and system pressure formulated in a hydronic domain by utilizing pump and system characteristic curve equations so as to yield system pressure and flow rate at any particular load and time in a pump hydronic system, including using a multi-dimensional sensorless conversion technique; and determine equivalent hydronic system characteristics associated with the pump differential pressure and flow rate to their corresponding motor power and speed reconstructed and remapped by using a discrete numerical approach, based at least partly on the signaling received. The signal processor or processing module may provide corresponding signaling containing information about the system pumping flow rate and pressure determined.

Abstract translation: 本发明提供一种具有信号处理器或处理模块的装置，该信号处理器或处理模块至少可被配置为：通过利用泵和系统特性曲线方程来处理包含关于泵压差平衡点和系统压力信息的信号的信号， 以在泵液压系统中的任何特定负载和时间产生系统压力和流量，包括使用多维无传感器转换技术; 并且至少部分地基于接收到的信令，并且通过使用离散数值方法来确定与泵差压和流速相关联的与其相应的电动机功率和速度重建和重新映射的等效的液压系统特性。 信号处理器或处理模块可以提供相应的信号，其包含关于所确定的系统泵送流量和压力的信息。

公开(公告)号：US20250075900A1

公开(公告)日：2025-03-06

申请号：US18822679

申请日：2024-09-03

Applicant: Fluid Handling LLC

Inventor： Prajapati Darshit KANUBHAI ,  Bhatia Indresh ISHWARLAL ,  James GU ,  Vinh TRUONG

IPC: F22B37/46 ,  F22B35/18 ,  G01F23/02 ,  G01F23/80 ,  G01F25/20

Abstract: A low water cutoff (LWCO) device having a probe features a signal processor or processing module configured to receive signaling containing information about a difference in conductance between samples of a foam/unstable fluid line for a predetermined foam difference count that are measured on at least one test channel and sensed by the probe arranged inside a boiler, including a steam or hot water boiler or burner; and provide corresponding signaling containing information to turn OFF the boiler, based upon the signaling received.

公开(公告)号：US12162653B2

公开(公告)日：2024-12-10

申请号：US17885881

申请日：2022-08-11

Applicant: Avantor Fluid Handling LLC

Inventor： Tat M. Yuen

IPC: B65D47/26 ,  B65D47/32 ,  F16K11/22 ,  F16K27/06

Abstract: An aseptic closure system for attaching to a container including an upper section and a lower section that are removably attached to one another. Each section includes a valve housing with a rotary valve mounted in a bore extending through the valve housing. The upper section has an inlet port and an outlet port, each with a conduit providing fluid communication through the port to an interior of the upper valve housing. The lower section is adapted to mount to a container. The lower valve housing includes two conduits that permit fluid communication through the lower valve housing to an interior of the lower section. The rotation of the rotary valves closes off flow through the conduits in the respective housings.

公开(公告)号：US12123526B2

公开(公告)日：2024-10-22

申请号：US18238793

申请日：2023-08-28

Applicant: Avantor Fluid Handling LLC

Inventor： Tat M. Yuen

IPC: F16L29/00

CPC classification number: F16L29/002 ,  F16L29/007 ,  F16L2201/44 ,  Y10T137/87933

Abstract: A coupler for aseptically coupling and controlling fluid communication between at least two components. The coupler includes a first connector housing with an inner concave surface. A first connector extends from the top of the first connector housing and is adapted to connect to a first component. A first connector conduit extends through the first connector and into the first connector housing so as to define a fluid passageway to an inner opening on the inner surface of the first connector housing. A rotary valve is located within an inner cavity of the first connector housing and includes at least two rotary valve segments. The rotary valve segments are configured to rotate within the cavity. At least one of the rotary valve segments includes a fluid conduit extending through the at least one rotary valve segment.