A water filtration system incorporating a fluid flow meter has a modular turbine casing assembly in which a turbine is located between upstream and downstream casing elements of identical shape and formed to be stacked so as to trap the turbine in between. The turbine is magnetized and rotation of t
A water filtration system incorporating a fluid flow meter has a modular turbine casing assembly in which a turbine is located between upstream and downstream casing elements of identical shape and formed to be stacked so as to trap the turbine in between. The turbine is magnetized and rotation of the turbine is monitored electronically with a reed switch having a lead wire which is positioned proximate to the turbine to sense fluctuations in a magnetic field created by the turbine on rotation of the turbine. The reed switch housing itself is disposed at a location remote from the turbine. The system further includes processor for calculating an adjusted accumulated count data for low volumetric flow rates which are less than a predetermined threshold value. Advantageously, the invention can be used to reliably measure very low flow rates with very little power drawn.
대표청구항▼
1. Modular turbine casing assembly havingan upstream casing element, a downstream casing element, and a turbine located between said upstream and downstream casing elements, each said upstream and downstream casing elements having a cylindrical wall defining an internal shoulder at an upstream end,
1. Modular turbine casing assembly havingan upstream casing element, a downstream casing element, and a turbine located between said upstream and downstream casing elements, each said upstream and downstream casing elements having a cylindrical wall defining an internal shoulder at an upstream end, and a cooperating external shoulder at a downstream end so that said upstream and downstream casing elements may be stacked, each said upstream and downstream casing elements having a turbine locator consisting of a central hub and a number of radially extending ribs coupling the hub to a circumferential rim adjacent to said cylindrical wall, each hub having a spindle extending toward the upstream end of the casing element and an opposing dimple exposed to the downstream end of the casing element, the turbine having a central hub and a number of radially extending turbine blades coupling the hub to a peripheral collar of predetermined width, the central hub having an axially extending spindle on an upstream side and a recess on a downstream side adapted to cooperate with the dimple of the upstream casing element and the spindle of the downstream casing element respectively, the turbine being adapted to be magnetized so that rotation of the turbine can be monitored electronically, and the peripheral collar having a height and diameter adapted to locate inside the cylindrical wall of the downstream casing element so that the turbine may rotate freely between the upstream and downstream casing elements. 2. Modular turbine casing assembly according to claim 1 in which the peripheral outer collar has a pair of oppositely disposed pockets for receiving a pair of discrete magnets.3. Modular turbine casing assembly according to claim 1 in which the turbine locator is located at the downstream end of the associated cylindrical wall.4. Modular turbine casing assembly according to claim 1 in which the circumferential rim of the turbine locator has a width which is commensurate with the width of the peripheral collar of the turbine so that turbulence of any fluid flowing through the assembly is minimized.5. Modular turbine casing assembly according to claim 1 in which the radially extending ribs define openings therebetween which are adapted to maximize fluid flow over the turbine blades.6. A fluid flow conduit having a modular turbine casing assembly according to claim 1, the fluid flow conduit having ends adapted to be coupled to a fluid flow installation and the modular turbine assembly being disposed in the said fluid flow conduct to allow fluid to exit the turbine into a fluid stream, the fluid flow conduit further having electronic sensing means for counting the revolutions of the turbine.7. A fluid flow conduit according to claim 6 in which the electronic sensing means includes a reed switch mounted in a reed housing having lead wires for conducting electricity into and out of the reed switch, a selected one of said lead wires being positioned at a location proximate to said turbine to sense fluctuations in a magnetic field created by said turbine upon rotation thereof, said reed housing being disposed at a location remote from the turbine.8. A fluid flow conduit according to claim 6 having a fluid flow meter, the fluid flow meter having electronic sensing means for generating count data N corresponding to the revolutions of the turbine, the electronic sensing means including a reed switch mounted in a reed housing having lead wires for conducting electricity into and out of the reed switch, a selected one of said lead wires being positioned in a receiving groove formed in a head cover at a location proximate to said turbine to sense fluctuations in a magnetic field created by said turbine upon rotation thereof, said reed housing being disposed in the head cover at a location remote from the turbine;the fluid flow meter further having a lapsed time counter for generating a lapsed time data T; processing means for adjusting the count data N by multiplying N with a predetermined factor F, said factor F being equal to 1 when a threshold count rate is exceeded and F being greater than 1 when the count rate is below said threshold count rate; and output means for alerting a user when an adjusted accumulated count data ΣNF has exceeded a predetermined value selected to indicate that a pre-determined volume of fluid has been filtered or when the lapsed time data T has exceeded a predetermined period. 9. A water filtration system having a head cover removably coupled to a sump container for receiving filtration media therein, the head cover havinga first passage defining a raw water inlet and a second passage defining a clean water outlet, both said raw water inlet and said clean water outlets being in fluid communication with said sump container, and electronic sensing means for counting the revolutions of a magnetized turbine adapted to determine volumetric water flow through the water filtration system, the electronic sensing means including a reed switch mounted in a reed housing having lead wires for conducting electricity into and out of the reed switch, a selected one of said lead wires being positioned in a receiving groove formed in the head cover at a location proximate to said turbine to sense fluctuations in a magnetic field created by said turbine upon rotation thereof, said reed housing being disposed in the head cover at a location remote from the turbine. 10. A water filtration system according to claim 9 in which the reed switch is selected to have a small diameter lead wire of less than 0.020 inches to minimize any counter rotating effect on the magnetized turbine.11. A water filtration system having a head cover removably coupled to a sump container for receiving filtration media therein, the head cover havinga first passage defining a raw water inlet and a second passage defining a clean water outlet, both said raw water inlet and said clean water outlets being in fluid communication with said sump container, a modular turbine casing assembly disposed in said clean water outlet, the modular turbine casing assembly having an upstream casing element, a downstream casing element, and a turbine located between said upstream and downstream casing elements, each said upstream and downstream casing elements having a cylindrical wall defining an internal shoulder at an upstream end, and a cooperating external shoulder at a downstream end so that said upstream and downstream casing elements may be stacked, each said upstream and downstream casing elements having a turbine locator consisting of a central hub and a number of radially extending ribs coupling the hub to a circumferential rim adjacent to said cylindrical wall, each hub having a spindle extending toward the upstream end of the casing element and an opposing dimple exposed to the downstream end of the casing element, the turbine having a central hub and a number of radially extending turbine blades coupling the hub to a peripheral collar of predetermined width, the central hub having an axially extending spindle on an upstream side and a recess on a downstream side adapted to cooperate with the dimple of the upstream casing element and the spindle of the downstream casing element respectively, the turbine being adapted to be magnetized so that rotation of the turbine can be monitored electronically, and the peripheral collar having a height and diameter adapted to locate inside the cylindrical wall of the down stream casing element so that the turbine may rotate freely between the upstream and downstream casing elements; and electronic sensing means for counting the revolutions of the turbine, the electronic sensing means including a reed switch mounted in a reed housing having lead wires for conducting electricity into and out of the reed switch, a selected one of said lead wires being positioned in a receiving groove formed in the head cover at a location proximate to said turbine to sense fluctuations in a magnetic field created by said turbine upon rotation thereof, said reed housing being disposed in the head cover at a location remote from the turbine. 12. A water filtration system according to claim 11 where the modular turbine casing assembly is disposed in an elbow formed in said clean water outlet so that clean water exits from the modular casing assembly into a transverse passage for carrying clean water out of the system, the transverse passage having an effective internal diameter commensurate with the diameter of the turbine.13. A fluid filtration system including a fluid flow meter characterized by a substantially constant output having a predetermined variance above a threshold volumetric flow rate and substantially linear relationship between output and volumetric flow rate over a predetermined range of volumetric flow rate below said threshold, the fluid flow meter includinga revolution counter commensurate with volumetric flow for generating count data N; a lapsed time counter for generating a lapsed time data T; processing means for adjusting the count data N by multiplying N with a predetermined factor F, said factor F being equal to 1 when a threshold count rate is exceeded and F being greater than 1 when the count rate is below said threshold count rate; and output means for alerting a user when an adjusted accumulated count data ΣNF has exceeded a predetermined value selected to indicate that a pre-determined volume of fluid has been filtered or when the lapsed time data T has exceeded a predetermined period. 14. A water filtration system having a head cover removably coupled to a sump container for receiving filtration media therein, the head cover havinga first passage defining a raw water inlet and a second passage defining a clean water outlet, both said raw water inlet and said clean water outlets being in fluid communication with said sump container, a modular turbine casing assembly disposed in said clean water outlet, the modular turbine casing assembly having an upstream casing element, a downstream casing element, and a turbine located between said upstream and downstream casing elements, each said upstream and downstream casing elements having a cylindrical wall defining an internal shoulder at an upstream end, and a cooperating external shoulder at a downstream end so that said upstream and downstream casing elements may be stacked, each said upstream and downstream casing elements having a turbine locator consisting of a central hub and a number of radially extending ribs coupling the hub to a circumferential rim adjacent to said cylindrical wall, each hub having a spindle extending toward the upstream end of the casing element and an opposing dimple exposed to the downstream end of the casing element, the turbine having a central hub and a number of radially extending turbine blades coupling the hub to a peripheral collar of predetermined width, the central hub having an axially extending spindle on an upstream side and a recess on a downstream side adapted to cooperate with the dimple of the upstream casing element and the spindle of the downstream casing clement respectively, the turbine being adapted to be magnetized so that rotation of the turbine can be monitored electronically, and the peripheral collar having a height and diameter adapted to locate inside the cylindrical wall of the downstream casing element so that the turbine may rotate freely between the upstream and downstream casing elements; and a fluid flow meter having electronic sensing means for generating count data N corresponding to the revolutions of the turbine, the electronic sensing means including a reed switch mounted in a reed housing having lead wires for conducting electricity into and out of the reed switch, a selected one of said lead wires being positioned in a receiving groove formed in the head cover at a location proximate to said turbine to sense fluctuations in a magnetic field created by said turbine upon rotation thereof, said reed housing being disposed in the head cover at a location remote from the turbine; the fluid flow meter further having a lapsed time counter for generating a lapsed time data T; processing means for adjusting the count data N by multiplying N with a predetermined factor F, said factor F being equal to 1 when a threshold count rate is exceeded and F being greater than 1 when the count rate is below said threshold count rate; and output means for alerting a user when an adjusted accumulated count data ΣNF has exceeded a predetermined value selected to indicate that a pre-determined volume of fluid has been filtered or when the lapsed time data T has exceeded a predetermined period.
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Wadsworth John ; Conley William Patrick ; Carty Daniel T. ; Doolittle Fredrick G. ; Rinker Edward B. ; Johnson Kaj A. ; Hedberg Elizabeth ; Kling Carl, Faucet mounted water filter.
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