A mixing valve having a housing and first and second flow control valves. The housing has a mixing chamber, a first outlet, and a second outlet. The first flow control valve controls fluid flow through the first outlet to the mixing chamber, and the second flow control valve controls fluid flow thro
A mixing valve having a housing and first and second flow control valves. The housing has a mixing chamber, a first outlet, and a second outlet. The first flow control valve controls fluid flow through the first outlet to the mixing chamber, and the second flow control valve controls fluid flow through the second outlet to the mixing chamber. The first and second outlets each have a size so that the mixing valve has a flow coefficient of approximately 2.5 in a mid-open position of both flow control valves, and the housing has a length dimension, a width dimension, and a thickness dimension, and the largest of these dimensions is no more than approximately 65 millimeters.
대표청구항▼
1. A mixing valve comprising: a housing having a first outlet, a second outlet, and a mixing chamber;a first flow control valve for controlling flow through the first outlet to the mixing chamber; anda second flow control valve for controlling flow through the second outlet to the mixing chamber;whe
1. A mixing valve comprising: a housing having a first outlet, a second outlet, and a mixing chamber;a first flow control valve for controlling flow through the first outlet to the mixing chamber; anda second flow control valve for controlling flow through the second outlet to the mixing chamber;wherein the first and second outlets each have a size so that the mixing valve has a flow coefficient of approximately 2.5 when both the first and second flow controls valves are in a mid-open position, andwherein the housing has a length dimension, a width dimension, and a thickness dimension, and the largest of these dimensions is no more than approximately 65 millimeters. 2. The mixing valve of claim 1, wherein the mixing valve has a flow rate of approximately 25 liters per minute at 1 bar when both flow control valves are in the mid-open position. 3. The mixing valve of claim 2, wherein the first and second outlets each have a diameter of approximately six millimeters. 4. The mixing valve of claim 3, wherein the housing includes a cold water inlet, which has two outlets into the mixing chamber including the first outlet, and a hot water inlet, which has two outlets into the mixing chamber including the second outlet. 5. The mixing valve of claim 4, wherein the first flow control valve comprises: a first valve member; anda second valve member that is separate from and spaced apart from the first valve member;wherein the first and second valve members engage the two outlets of the cold water inlet in a closed position. 6. The mixing valve of claim 5, wherein the second flow control valve comprises: a first valve member; anda second valve member that is separate from and spaced apart from the first valve member of the second flow control valve;wherein the first and second valve members of the second flow control valve engage the two outlets of the hot water inlet in a closed position of the second flow control valve. 7. The mixing valve of claim 1, wherein the housing comprises: a cold water inlet having two outlets into the mixing chamber including the first outlet; anda hot water inlet having two outlets into the mixing chamber including the second outlet. 8. The mixing valve of claim 7, wherein the first flow control valve comprises two spaced apart valve members that engage the two outlets of the cold water inlet in a closed position of the first flow control valve, and wherein the second flow control valve comprises two spaced apart valve members that engage the two outlets of the hot water inlet in a closed position of the second flow control valve. 9. The mixing valve of claim 8, wherein the first flow control valve comprises a spool and the two valve members are fixedly mounted to the spool of the first flow control valve, and wherein the second flow control valve comprises a spool and the two valve members are fixedly mounted to the spool of the second flow control valve. 10. The mixing valve of claim 9, further comprising: a first motor coupled to the housing and to the spool of the first flow control valve so that the first motor moves the spool of the first flow control valve linearly relative to the housing between the closed position and a full open position, with the mid-open position being at the mid-point between the closed and full open positions; anda second motor coupled to the housing and to the spool of the second flow control valve so that the second motor moves the spool of the second flow control valve linearly relative to the housing between the closed position and a full open position, with the mid-open position being at the mid-point between the closed and full open positions. 11. The mixing valve of claim 1, further comprising an electrically powered heating device that is located within a bore of the housing and is configured to heat a waterway inside the housing to a temperature sufficient to kill bacteria present in the waterway. 12. The mixing valve of claim 11, further comprising an electronic controller that is coupled to the housing and controls operation of the heating device, wherein the controller disables the mixing valve during heating of the waterway by the heating device. 13. A valve for faucets and shower heads, the valve comprising: a housing having a mixing chamber, a cold water inlet chamber having two outlets into the mixing chamber, and a hot water inlet chamber having two outlets into the mixing chamber;a first flow control valve having two valve members that each engage one of the two outlets of the cold water inlet chamber in a closed position of the first flow control valve; anda second flow control valve having two valve members that each engage one the two outlets of the hot water inlet chamber in a closed position of the second flow control valve;wherein the two outlets of each flow control valve have a size so that the valve has a flow coefficient of approximately 2.5 when both flow control valves are in a mid-open position. 14. The valve of claim 13, wherein the housing has a length dimension, a width dimension, and a thickness dimension, and the largest of these dimensions is no more than approximately 65 millimeters. 15. The valve of claim 14, wherein the valve has a flow rate of approximately 25 liters per minute at 1 bar when both flow control valves are in the mid-open position. 16. The valve of claim 15, wherein the two outlets of the cold water inlet chamber each has a diameter of approximately six millimeters, and the two outlets of the hot water inlet chamber each has a diameter of approximately six millimeters. 17. The valve of claim 13, wherein the two valve members of the first flow control valve are fixedly mounted to a first spool, and wherein the two valve members of the second flow control valve are fixedly mounted to a second spool. 18. The valve of claim 17, further comprising: a first motor configured to move the first spool and the two associated valve members in a first linear direction relative to the housing between the closed position and a full open position of the first flow control valve; anda second motor configured to move the second spool and the two associated valve members in a second linear direction relative to the housing between the closed position and a full open position of the second flow control valve. 19. The valve of claim 18, wherein the first linear direction is parallel to the second linear direction so that the first and second flow control valves are arranged side by side in parallel and on opposite sides of the mixing chamber. 20. The valve of claim 15, further comprising an electrically powered heating device that is located within a bore of the housing and is configured to heat a waterway in the housing to a temperature sufficient to kill bacteria present in the waterway.
Keller ; III Robert J. (Richmond VA) Fox Brian G. (Dover Center CAX) Korec Benjamin A. (Cambridge CAX), Anti-scald apparatus for a tub and shower single control faucet.
Jensen Per F. (Nordborg DKX) Madsen Ingvard M. (Sonderborg DKX) Bonnerup Leif B. (Nordborg DKX), Device for preventing oil from dripping out of the burner nozzle of an oil-fired heating system.
Rodenbeck, Robert W.; Koottungal, Paul D.; Spangler, Anthony G.; Veros, Michael J., Electronic user interface for electronic mixing of water for residential faucets.
Houghton, Bradley James; Jeromson, Peter James; Wilkinson, Jamie Jon Aorangi; Barnes, Peter Stephen; Rutten, Giscard Hubertus Theodoor, Valve system for servo control of fluid flows.
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