公开(公告)号：US08591147B2

公开(公告)日：2013-11-26

申请号：US12951531

申请日：2010-11-22

Applicant: Marcus Quigley ,  Philip Reidy

Inventor： Marcus Quigley ,  Philip Reidy

IPC: E03F1/00

CPC classification number: E03F7/00 ,  E03F1/00 ,  E03F5/10 ,  E03F2201/20 ,  Y10T137/0318 ,  Y10T137/402 ,  Y10T137/7287

Abstract: In a water storage system with water conduits, water pumps, drain valves, discharge valves, for storing a first volume of water, a method of maximizing water availability monitors a second volume of water within the system. Data regarding forecasted precipitation predicted to occur at some point in the future, including a predicted duration, intensity and volume are received and an expected time-dependent volume of water to be added to the system during the forecasted precipitation is estimated. If at least one of: a first sum of the predicted volume and the second volume and a second sum of the expected time-dependent volume and the second volume is greater than the first volume then the water pumps, drain valves, and discharge valves are controlled to discharge water until each of the first and second sums is not greater than the first volume.

Abstract translation: 在具有水管道的水存储系统中，用于存储第一体积水的水泵，排水阀，排放阀，最大化水可用性的方法监测系统内的第二体积的水。 预测未来预计出现的降水预报数据，包括预测的持续时间，强度和体积，并预测在预测的降水期间将加入到系统中的时间依赖水量。 如果以下中的至少一个：预测体积和第二体积的第一和和预期的时间依赖体积和第二体积的第二和大于第一体积，则水泵，排水阀和排出阀是 被控制为排出水，直到第一和第二和中的每一个不大于第一体积。

公开(公告)号：US20110120561A1

公开(公告)日：2011-05-26

申请号：US12951531

申请日：2010-11-22

Applicant: Marcus Quigley ,  Philip Reidy

Inventor： Marcus Quigley ,  Philip Reidy

IPC: F15D1/00

CPC classification number: E03F7/00 ,  E03F1/00 ,  E03F5/10 ,  E03F2201/20 ,  Y10T137/0318 ,  Y10T137/402 ,  Y10T137/7287

Abstract: A combined water storage and detention (CWSD) system for maximizing storm water control and availability for use. The CWSD system includes a plurality of water conduits, remotely controllable water pumps, water storage drain valves, auxiliary bypass discharge valves, and, in pertinent part, a storage/detention system for storing/retaining a first volume of storm and sewer drain water, a sensing device for estimating a second volume of storm and sewer drain water within the storage/detention system, the second volume being less than or equal to the first volume, a precipitation forecast device for forecasting an expected time-dependent volume of water being added to or to be added to the system, and a controller that is structured and arranged to control the operating states of the plurality of controllable water pumps, water storage draining valves, and auxiliary bypass discharge valves. Preferably, the precipitation forecast device provides weather precipitation parameter data from a network source such as the World Wide Web, the Internet, a local area network (LAN), and a wide area network (WAN) and the sensing device is adapted to determine at least one of whether the second volume is below a pre-established minimum storage volume and whether the second volume is above a pre-established maximum storage volume.

Abstract translation: 综合储水和拘留（CWSD）系统，最大限度地利用雨水控制和可用性。 CWSD系统包括多个水管道，可远程控制的水泵，储水排放阀，辅助旁通排放阀，并且在相关部分中包括用于存储/保留第一体积的风雨和下水道排水的储存/ 用于估计存储/拘留系统内的第二容积的暴雨和下水道排水的传感装置，第二容积小于或等于第一容积;用于预测预期的随时间依赖的水量的降水预报装置 以及控制器，其被构造和布置成控制多个可控水泵，储水排放阀和辅助旁通排放阀的操作状态。 优选地，降水预报装置从诸如万维网，因特网，局域网（LAN）和广域网（WAN）的网络源提供天气降水参数数据，并且感测装置适于在 第二卷是否低于预先建立的最小存储卷以及第二卷是否高于预先建立的最大存储卷的最少的一个。