Bypass valve with an integral flow sensor for a water treatment system
First Claim
1. A bypass valve for a water treatment system comprising:
- a body having a first chamber with a first opening, a second chamber connected by a bridge passage to the first chamber and having a second opening, an inlet that opens into the first chamber to receive untreated water, an untreated water outlet that opens into the first chamber, a treated water inlet that opens into the second chamber, and an outlet that opens into the second chamber and through which treated water flows;
a first valve element rotatably received in the first chamber and having a first position in which the inlet is connected to the untreated water outlet, and a second position in which the inlet is connected to the bridge passage and disconnected from the untreated water outlet, wherein the first valve element is a tube having an open end, a cavity with an opening at the open end, and a curved outer surface with a first aperture and a second aperture there through into the cavity;
a second valve element rotatably received in the second chamber and having a third position in which the treated water inlet is connected to the outlet, and a fourth position in which the outlet is connected to the bridge passage and disconnected from the untreated water outlet, wherein at least one of the first valve element in the first position and second valve element in the third position blocks flow of water through the bridge passage, wherein the second valve element is a tube having an open end, a cavity with an opening at the open end, and a curved outer surface with a first aperture and a second aperture there through into the cavity;
a sensor in one of the first chamber and the second chamber, wherein the sensor produces an indication of how much fluid flows through the bypass valve;
a first assembly comprising a first cap removably attached to the body thereby closing the first opening, and a first valve operator extending through a first hole in the first cap and engaging the open end of the first valve element, the first valve operator being rotatable with respect to the first cap to rotate the first valve element within the first chamber, wherein upon removal of the first cap from the body, the first valve operator disengages the first valve element which remains in the first chamber; and
a second assembly comprising a second cap removably attached to the body thereby closing the second opening, and a second valve operator extending through a second hole in the second cap and engaging the open end of the second valve element, the second valve operator being rotatable with respect to the second cap to rotate the second valve element within the second chamber, wherein upon removal of the second cap from the body, the second valve operator disengages the second valve element which remains in the second chamber;
wherein in each of the first valve element and the second valve element, the first aperture extends more than 90 degrees around the curved outer surface and the second aperture is spaced around the curved outer surface from the first aperture.
3 Assignments
0 Petitions
Accused Products
Abstract
A bypass valve includes a body with first and second chambers connected by a bridge passage, an untreated water inlet and an untreated water outlet both open into the first chamber, and a treated water inlet and a treated water outlet both open into the second chamber. A first valve element is rotatably received in the first chamber alternately to connect the inlet to the untreated water outlet or the bridge passage. A second valve element is rotatably received in the second chamber alternately to connect the outlet to the treated water outlet or the bridge passage. A manually operable mechanism rotates the first valve element in the first chamber and the second valve element in the second chamber. A flow sensor is received within either the first or second valve element to measure the amount of water flowing through the bypass valve.
19 Citations
17 Claims
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1. A bypass valve for a water treatment system comprising:
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a body having a first chamber with a first opening, a second chamber connected by a bridge passage to the first chamber and having a second opening, an inlet that opens into the first chamber to receive untreated water, an untreated water outlet that opens into the first chamber, a treated water inlet that opens into the second chamber, and an outlet that opens into the second chamber and through which treated water flows; a first valve element rotatably received in the first chamber and having a first position in which the inlet is connected to the untreated water outlet, and a second position in which the inlet is connected to the bridge passage and disconnected from the untreated water outlet, wherein the first valve element is a tube having an open end, a cavity with an opening at the open end, and a curved outer surface with a first aperture and a second aperture there through into the cavity; a second valve element rotatably received in the second chamber and having a third position in which the treated water inlet is connected to the outlet, and a fourth position in which the outlet is connected to the bridge passage and disconnected from the untreated water outlet, wherein at least one of the first valve element in the first position and second valve element in the third position blocks flow of water through the bridge passage, wherein the second valve element is a tube having an open end, a cavity with an opening at the open end, and a curved outer surface with a first aperture and a second aperture there through into the cavity; a sensor in one of the first chamber and the second chamber, wherein the sensor produces an indication of how much fluid flows through the bypass valve; a first assembly comprising a first cap removably attached to the body thereby closing the first opening, and a first valve operator extending through a first hole in the first cap and engaging the open end of the first valve element, the first valve operator being rotatable with respect to the first cap to rotate the first valve element within the first chamber, wherein upon removal of the first cap from the body, the first valve operator disengages the first valve element which remains in the first chamber; and a second assembly comprising a second cap removably attached to the body thereby closing the second opening, and a second valve operator extending through a second hole in the second cap and engaging the open end of the second valve element, the second valve operator being rotatable with respect to the second cap to rotate the second valve element within the second chamber, wherein upon removal of the second cap from the body, the second valve operator disengages the second valve element which remains in the second chamber; wherein in each of the first valve element and the second valve element, the first aperture extends more than 90 degrees around the curved outer surface and the second aperture is spaced around the curved outer surface from the first aperture. - View Dependent Claims (2, 3, 4, 5, 6, 16, 17)
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7. A bypass valve for a water treatment system comprising:
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a body having a first chamber with a first opening, a second chamber connected by a bridge passage to the first chamber and having a second opening, an inlet that opens into the first chamber to receive untreated water, an untreated water outlet that opens into the first chamber, a treated water inlet that opens into the second chamber, and an outlet that opens into the second chamber and through which treated water flows; a first valve element rotatably received in the first chamber and having a first position in which the inlet is connected to the untreated water outlet, and a second position in which the inlet is connected to the bridge passage and disconnected from the untreated water outlet; a second valve element rotatably received in the second chamber and having a third position in which the treated water inlet is connected to the outlet, and a fourth position in which the outlet is connected to the bridge passage and disconnected from the untreated water outlet, wherein at least one of the first valve element in the first position and second valve element in the third position blocks flow of water through the bridge passage; a sensor located in one of the first valve element and the second valve element and producing an indication of how much fluid flows through the bypass valve; a first assembly comprising a first cap removably attached to the body thereby closing the first opening, and a first valve operator extending through the first cap and engaging the first valve element, the first valve operator being rotatable with respect to the first cap to rotate the first valve element within the first chamber, wherein upon removal of the first cap from the body, the first valve operator disengages the first valve element which remains in the first chamber; and a second assembly comprising a second cap removably attached to the body thereby closing the second opening, and a second valve operator extending through the second cap and engaging the second valve element, the second valve operator being rotatable with respect to the second cap to rotate the second valve element within the second chamber, wherein upon removal of the second cap from the body, the second valve operator disengages the second valve element which remains in the second chamber; wherein the sensor engages the first or second valve operator and is removable from the body while both of the first valve element and the second valve element remain in the first and second chambers. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15)
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Specification