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    • 51. 发明申请
    • FLUID DRAINAGE SYSTEM AND METHODS
    • 流体排水系统和方法
    • US20150305257A1
    • 2015-10-29
    • US14617252
    • 2015-02-09
    • Virid Services, LLC
    • Jon Lips
    • A01G25/16G05B15/02G05D7/06
    • A01G25/16A01G25/00F16L55/07G05B15/02G05D7/0623G05D7/0635Y10T137/0318Y10T137/1298Y10T137/1353Y10T137/1963
    • A method for operating a fluid drainage control system to drain a fluid from a fluid dispensation system is provided. The method includes determining a first ambient air temperature, determining if the first ambient air temperature is less than a predetermined drain set point temperature, isolating the fluid dispensation system from a fluid supply source by closing a supply valve located inside a temperature controlled area in response to the first ambient air temperature being less than the predetermined drain set point temperature, and draining the fluid from the fluid dispensation system by opening a drain valve subsequent to closing the supply valve. The method further includes determining a second ambient air temperature, determining if the second ambient air temperature is greater than a predetermined operation set point temperature, closing the drain valve in response to the second ambient air temperature being greater than the predetermined operation set point temperature, and opening the supply valve subsequent to closing the drain valve.
    • 提供了一种用于操作流体排出控制系统以从流体分配系统排出流体的方法。 该方法包括确定第一环境空气温度,确定第一环境空气温度是否小于预定的排水设定点温度,通过关闭位于温度受控区域内的供应阀来响应流体分配系统与流体供应源的隔离 到第一环境空气温度小于预定排水设定点温度,并且在关闭供应阀之后打开排放阀,从流体分配系统排出流体。 该方法还包括确定第二环境空气温度,确定第二环境空气温度是否大于预定操作设定点温度,响应于第二环境空气温度大于预定操作设定点温度来关闭排水阀, 并且在关闭排水阀之后打开供给阀。
    • 52. 发明申请
    • FLUID DRAINAGE SYSTEM AND METHODS
    • 流体排水系统和方法
    • US20110226800A1
    • 2011-09-22
    • US12724927
    • 2010-03-16
    • Jon Lips
    • Jon Lips
    • G01F15/00
    • A01G25/16A01G25/00F16L55/07G05B15/02G05D7/0623G05D7/0635Y10T137/0318Y10T137/1298Y10T137/1353Y10T137/1963
    • A method for operating a fluid drainage control system to drain a fluid from a fluid dispensation system is provided. The method includes determining a first ambient air temperature, determining if the first ambient air temperature is less than a predetermined drain set point temperature, isolating the fluid dispensation system from a fluid supply source by closing a supply valve located inside a temperature controlled area in response to the first ambient air temperature being less than the predetermined drain set point temperature, and draining the fluid from the fluid dispensation system by opening a drain valve subsequent to closing the supply valve. The method further includes determining a second ambient air temperature, determining if the second ambient air temperature is greater than a predetermined operation set point temperature, closing the drain valve in response to the second ambient air temperature being greater than the predetermined operation set point temperature, and opening the supply valve subsequent to closing the drain valve.
    • 提供了一种用于操作流体排出控制系统以从流体分配系统排出流体的方法。 该方法包括确定第一环境空气温度,确定第一环境空气温度是否小于预定的排水设定点温度,通过关闭位于温度受控区域内的供应阀来响应流体分配系统与流体供应源的隔离 到第一环境空气温度小于预定排水设定点温度,并且在关闭供应阀之后打开排放阀,从流体分配系统排出流体。 该方法还包括确定第二环境空气温度,确定第二环境空气温度是否大于预定操作设定点温度,响应于第二环境空气温度大于预定操作设定点温度来关闭排水阀, 并且在关闭排水阀之后打开供给阀。
    • 55. 发明授权
    • Freeze protection apparatus for solar collectors
    • 太阳能集热器防冻装置
    • US4280478A
    • 1981-07-28
    • US960399
    • 1978-11-13
    • Eugene F. DuvalDavid P. BagshawMichael A. KastGilbert M. MastersHarry T. Whitehouse
    • Eugene F. DuvalDavid P. BagshawMichael A. KastGilbert M. MastersHarry T. Whitehouse
    • F16K49/00F24J2/40F24J3/02
    • F24J2/402Y02E10/40Y10T137/1298
    • A freeze protection system allows the working fluid contained in the communicating tubes of the solar collector to drain from both the input and output tubes of the collector when a first predetermined temperature of the working fluid is detected and to fill the collector via both the input and output tubes when a second predetermined temperature is detected. The invention includes valve mechanisms, of the spool valve variety, that communicate the working fluid to be heated to the collector and therefrom to a storage tank, a valve actuator and a sensor. The actuator moves a valve element from a first position for communicating working fluid to be heated from a source to the input tube of the collector and for communicating heated working fluid from the output tube of the collector to a storage facility to a second position for interrupting fluid communication from the source to the collector and for communicating both the input and output tubes of the collector to a drainpipe--draining the collector of working fluid--when the first predetermined temperature level is detected by the sensor. Upon detection of the second predetermined temperature level the sensor causes the actuator to return the valve element to the first position via an intermediate position that closes the drainpipe and temporarily communicates the working fluid to both the input and output tubes of the collector.
    • 当检测到工作流体的第一预定温度时,防冻系统允许包含在太阳能收集器的连通管中的工作流体从集电器的输入和输出管排出,并且通过输入和 当检测到第二预定温度时,输出管。 本发明包括滑阀类型的阀机构,其将待加热的工作流体与收集器连通,从而连接到储罐,阀致动器和传感器。 致动器将阀元件从第一位置移动,用于将待加热的工作流体从源极传递到收集器的输入管,并且用于将加热的工作流体从收集器的输出管传递到存储设备到第二位置,以中断 从源到集电器的流体连通,并且当传感器检测到第一预定温度水平时,用于将收集器的输入和输出管连通到排水管 - 排出工作流体的收集器。 在检测到第二预定温度水平时,传感器使致动器经由关闭排水管并且将工作流体临时连接到收集器的输入和输出管的中间位置而将阀元件返回到第一位置。