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公开(公告)号:US11946565B2
公开(公告)日:2024-04-02
申请号:US17558349
申请日:2021-12-21
发明人: Kevin Doyle , William Weiss
IPC分类号: F16K37/00 , G01F1/115 , G01F15/00 , F16K1/48 , F16K31/04 , F16K31/50 , G01F1/075 , G05D7/06 , G05D16/20
CPC分类号: F16K37/005 , G01F1/115 , G01F15/005 , F16K1/48 , F16K31/04 , F16K31/508 , F16K37/0033 , G01F1/075 , G05D7/0635 , G05D16/20
摘要: A valve assembly includes a first housing that defines an inlet and a fluid output chamber. A second housing is engaged to the first housing and a cover is engaged to the second housing. A valve member is positioned within the first housing. An actuator is positioned between the second housing and the cover and is attached to the valve member through an engagement located within the first housing. A flow rate sensor, as a component of the valve assembly, may be positioned downstream of the inlet and the fluid output chamber.
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公开(公告)号:US20220341203A1
公开(公告)日:2022-10-27
申请号:US17324069
申请日:2021-05-18
发明人: Kevin Doyle , William Weiss
IPC分类号: E04H4/12
摘要: A manifold can determine a turnover scheme including a target turnover schedule of target turnover levels, based on an operation schedule and efficiency setting for a fluid distribution. Each target turnover level can correspond to a volume of fluid to be cycled through the fluid distribution system over a period of time. The manifold can operate respective valves and a supply device based on a target turnover level and determine a current turnover level from a flowrate detected by a flow sensor for at least one of the valves. The manifold can receive a current usage of the fluid distribution system and determine a required turnover level. An override status for the turnover scheme can be based on the efficiency setting and a comparison of the current, target, and the required turnover levels, and the manifold can operate respective valves and the supply device based on the override status.
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公开(公告)号:US11579637B2
公开(公告)日:2023-02-14
申请号:US17327488
申请日:2021-05-21
发明人: Kevin Doyle , William Weiss
摘要: A fluid distribution manifold may receive a first required flow rate for a first flow of fluid that flows to a fluid handling device or a reservoir. A first operation state may be determined for a first valve assembly that regulates the first flow, the manifold may operate the first valve assembly based on the first operation state, and a first position tracker may be incremented based on the first operation. Based on a value of a cycle tracker, the manifold may identify a second valve assembly in an operation cycle and access a second control input that includes a second required flow rate for a second flow of fluid regulated by the second valve assembly. The manifold may cause the second valve assembly to operate based on at least one of a second operation state and a change in the second actual flow rate resulting from the first operation.
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公开(公告)号:US20240229490A1
公开(公告)日:2024-07-11
申请号:US18542549
申请日:2023-12-15
发明人: Kevin Doyle , William Weiss , Troy Renken
CPC分类号: E04H4/1245 , E04H4/16
摘要: Systems and methods for smart valve control of pool and spa components and operations are provided. A smart valve system is provided which includes a multiplexed communications link between the smart valve system and a pool/spa control system which allows for a plurality of relays of the pool/spa control system to control a plurality of valves of the smart valve system using a single data communications cable connected between the smart valve system and the pool/spa control system. The smart valve system allows for calibration and control of a pumping system, such as a variable speed pumping system. The smart valve system optimizes operation and heat transfer of a solar heater in fluid communication with the smart valve system. The smart valve system allows for control and optimization of a pool cleaner in fluid communication with the smart valve system. The smart valve system allows for control and optimization of a gas heater in fluid communication with the smart valve system. The smart valve system detects dirty filter conditions, and assists a priming operation of a pump, detects low pool water conditions and automatically remedies such conditions, and detects and mitigates pump cavitation. In still further embodiments, the smart valve system controls fluid flow to a chlorinator.
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公开(公告)号:US11698647B2
公开(公告)日:2023-07-11
申请号:US17327543
申请日:2021-05-21
发明人: Kevin Doyle , William Weiss
CPC分类号: G05D7/0652 , E04H4/12 , F16K27/003 , F16K27/0263 , F16K27/12 , F16L41/03 , G01F1/05
摘要: A housing assembly for a manifold includes a first housing with an inlet and a plurality of outlets, a second housing, and a valve retainer engaged with the first and second housings. The valve retainer includes a retention plate defined between first and second surfaces, a plurality of slot walls extending from the first surface, and a protruding edge that extends from a flanged lip and surrounds the plurality of slot walls. The retention plate defines a plurality of slots corresponding to the plurality of slot walls. The first housing may define a groove that receives the protruding edge, and the second housing may include a rim that engages the flanged lip of the valve retainer. Valve housings including first and second mating structures separated by wall segments may be positioned in outlets of the first housing and corresponding slots of the valve retainer.
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6.发明授权公开(公告)号:US11579636B2
公开(公告)日:2023-02-14
申请号:US17324079
申请日:2021-05-18
发明人: Kevin Doyle , William Weiss
IPC分类号: G05D7/06 , G05B13/04 , E04H4/12 , F16K31/02 , G05B13/02 , G05B19/418 , G05B23/02 , G05B15/02
摘要: A system and method for controlling operations of a fluid distribution may include a first manifold receiving a next mode of operation for the fluid distribution system. The first manifold may calculate first and second flow requirements for the first and second manifolds that may respectively include a first and second total flowrates from the first and second manifolds. The first manifold may determine required operation states for valves of the first manifold and the second manifold for the next mode based on the first and second flow requirements. The first manifold may be controllably operated to cause the second manifold and a supply device of the fluid distribution system to operate in the required operation states and provide first and second flow requirements. The first manifold may direct the second manifold to independently balance individual outlet flowrates of the second manifold while continuing to provide the second flow requirements.
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公开(公告)号:US20220269293A1
公开(公告)日:2022-08-25
申请号:US17327543
申请日:2021-05-21
发明人: Kevin Doyle , William Weiss
摘要: A housing assembly for a manifold includes a first housing with an inlet and a plurality of outlets, a second housing, and a valve retainer engaged with the first and second housings. The valve retainer includes a retention plate defined between first and second surfaces, a plurality of slot walls extending from the first surface, and a protruding edge that extends from a flanged lip and surrounds the plurality of slot walls. The retention plate defines a plurality of slots corresponding to the plurality of slot walls. The first housing may define a groove that receives the protruding edge, and the second housing may include a rim that engages the flanged lip of the valve retainer. Valve housings including first and second mating structures separated by wall segments may be positioned in outlets of the first housing and corresponding slots of the valve retainer.
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公开(公告)号:US20240061450A1
公开(公告)日:2024-02-22
申请号:US18382223
申请日:2023-10-20
发明人: Kevin Doyle , William Weiss
IPC分类号: G05D7/06
CPC分类号: G05D7/0623
摘要: A first valve of a manifold for a fluid distribution system (“FDS”) regulates fluid flow to a first fluid handling device (“FHD”). A second valve of the manifold may communicate with a second FHD, reservoir, or recirculation line. A target flow condition for the manifold may be determined by a manifold control system (“MCS”) based on a device setting received from the first FHD. The MCS may determine an operation of the FDS based on the target flow condition, fluid flowrate, and supply device operational state. The operation may include the MCS controlling the supply device, first valve, and/or second valve to change the flowrate. The MCS may continuously operate a valve to maintain the target flow condition once exhibited. Fluid distribution systems, systems and methods for turning over an FDS including a manifold, and systems and methods for controlling operations of an FDS including multiple manifolds are also provided.
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公开(公告)号:US11579635B2
公开(公告)日:2023-02-14
申请号:US17324064
申请日:2021-05-18
发明人: Kevin Doyle , William Weiss
IPC分类号: G05D7/06 , G05B13/04 , E04H4/12 , F16K31/02 , G05B13/02 , G05B19/418 , G05B23/02 , G05B15/02
摘要: A first valve of a manifold for a fluid distribution system may regulate a fluid flow to a first fluid handling device (“FHD”). A second valve of the manifold may communicate with a second FHD, a reservoir, or a recirculation line. A target flow condition for the manifold may be determined by a manifold control system (“MCS”) based on a device setting received for the first FHD. The MCS may determine a fluid distribution system operation for obtaining the target flow condition based on the target flow condition, a flowrate of the fluid flow, and an operational state of a supply device. The operation may include the MCS controlling at least one of the supply device, the first valve, and the second valve to change the flowrate. The MCS may continuously operate at least one manifold valve to maintain the target flow condition once exhibited by the manifold.
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公开(公告)号:US20220290777A1
公开(公告)日:2022-09-15
申请号:US17558349
申请日:2021-12-21
发明人: Kevin Doyle , William Weiss
摘要: A valve assembly includes a first housing that defines an inlet and a fluid output chamber. A second housing is engaged to the first housing and a cover is engaged to the second housing. A valve member is positioned within the first housing. An actuator is positioned between the second housing and the cover and is attached to the valve member through an engagement located within the first housing. A flow rate sensor, as a component of the valve assembly, may be positioned downstream of the inlet and the fluid output chamber.
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