| CPC E03C 1/0408 (2013.01) [B05B 1/3093 (2013.01); E03B 7/045 (2013.01); F16K 19/00 (2013.01); G01K 11/12 (2013.01); G01K 13/02 (2013.01); B05B 1/18 (2013.01); E03C 2001/0418 (2013.01); E03C 2201/30 (2013.01); G01K 13/026 (2021.01); G01K 2207/00 (2013.01)] | 16 Claims |
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1. A water-conserving shower system, comprising:
a hot water source;
a cold water source;
a mixing valve having inlets configured to receive hot water from the hot water source and cold water from the cold water source and an outlet, the mixing valve being operable to produce a water mixture in the outlet of the hot water and the cold water in variable proportions;
a diverter valve downstream from the mixing valve and having an inlet in fluid communication with the outlet of the mixing valve, the diverter valve being operable to direct water received from the mixing valve outlet selectively to one of a first diverter valve outlet and a second diverter valve outlet;
a thermochromic element fluidly coupled to the outlet of the mixing valve so as to receive the water mixture therefrom, the thermochromic element being configured to change from a first color to a second color in response to the water mixture reaching a predetermined transition temperature, the thermochromic element comprising a conduit having a wall with reduced-thickness wall areas;
a shower head fluidly coupled to the first diverter valve outlet; and
a return conduit fluidly coupling the second diverter valve outlet to one of the cold water source and the hot water source.
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5. A water-conserving system for a water dispensing device, the system comprising:
a mixing valve having a first mixing valve inlet configured to be fluidly coupled to a hot water source, a second mixing valve inlet configured to be fluidly coupled to a cold water source, and a mixing valve outlet, the mixing valve being operable to direct hot water from the first mixing valve inlet and cold water from the second mixing valve inlet to the mixing valve outlet in variable proportions;
a diverter valve downstream from the mixing valve and having an inlet fluidly coupled to the mixing valve outlet, the diverter valve having a first diverter valve outlet configured to be coupled to the water dispensing device and a second diverter valve outlet, the diverter valve being operable to direct water received from the mixing valve outlet selectively to one of the first diverter valve outlet and the second diverter valve outlet;
a thermochromic element fluidly coupled to the mixing valve outlet so as to receive the water mixture therefrom, the thermochromic element being configured to change from a first color to a second color in response to the water mixture reaching a predetermined transition temperature, the thermochromic element comprising a conduit having a wall with reduced-thickness wall areas; and
a return conduit configured to fluidly couple the second diverter valve outlet to one of the cold water source and the hot water source.
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10. A method of making a thermochromic element, comprising:
providing uncured liquid polyvinyl chloride (PVC) material in a liquid state;
mixing into the uncured liquid PVC material a thermochromic pigment in a concentration sufficient to provide a thermochromic change in the PVC from a first color to a second color in response to a predetermined transition temperature;
forming the PVC material with the mixed thermochromic pigment into a configuration of a thermochromic element; and
curing the PVC with the mixed thermochromic pigment.
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13. A thermochromic fitting for providing a visual indication of a predetermined temperature having been achieved by a fluid flowing through the fitting, the thermochromic fitting comprising a conduit having an inlet and an outlet, the conduit comprising a PVC material with a thermochromic pigment that provides a change in color of the PVC material from a first color to a second color in response to achievement of the predetermined temperature by the fluid, wherein the conduit has a wall having an internal configuration defining a first wall thickness and second wall thickness that is less than the first wall thickness, whereby the change in color in response to the predetermined temperature is more rapid where the internal configuration defines the second wall thickness than where the internal configuration defines the first wall thickness.
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