Mounting adaptor for mounting a sensor assembly to a water heater tank

We claim: 1. A mounting adaptor for mounting a non-immersion sensor assembly to a water heater tank that has a through hole into the water heater tank and a corresponding mounting spud for mounting an immersion sensor assembly to the water heater tank with the immersion sensor assembly extending through the through hole and immersed in the water in the water heater tank, the mounting adaptor comprising: a proximal end and an opposing distal end; a proximal cavity extending from the proximal end toward the distal end; a distal cavity extending from the distal end toward the proximal end; a wall fluidly isolating the proximal cavity from the distal cavity; the proximal cavity configured to receive at least part of the non-immersion sensor assembly; and a mounting structure that is configured to couple the mounting adaptor to the mounting spud of the water heater tank such that the distal cavity of the mounting adaptor is exposed to water in the water heater tank via the through hole into the water heater tank, wherein at least some portion of the mounting structure is distal to the wall. 2. The mounting adaptor of claim 1 , wherein the mounting structure comprises distal threads on an outer surface of the mounting adaptor that are configured to cooperate and form a water tight seal with the mounting spud of the water heater tank. 3. The mounting adaptor of claim 1 , wherein the proximal cavity of the mounting adaptor comprises proximal threads on an inner surface defining the proximal cavity, wherein the proximal threads are configured to cooperate with corresponding threads on an outer surface of the non-immersion sensor assembly. 4. The mounting adaptor of claim 3 , wherein the non-immersion sensor assembly comprises a temperature sensor that is spaced from the wall when the non -immersion sensor assembly is fully secured via the proximal threads. 5. The mounting adaptor of claim 3 , wherein the non-immersion sensor assembly comprises a temperature sensor that is touching the wall when the non -immersion sensor assembly is fully secured via the proximal threads. 6. The mounting adaptor of claim 1 , wherein the wall has a proximal facing surface and a distal facing surface, and wherein the wall is thermally conductive and conducts heat from the distal facing surface to the proximal facing surface. 7. The mounting adaptor of claim 1 , wherein the mounting adaptor is one-piece. 8. The mounting adaptor of claim 1 , wherein the mounting adaptor is formed from a metal. 9. A mounting adaptor for mounting a mounting bracket to a water heater tank, the mounting adaptor comprising: a thermally conductive elongated body extending along a longitudinal axis, the elongated body comprising: a sensor portion comprising a proximal cavity extending from a proximal end of the elongated body towards a distal end of the elongated body, the sensor portion configured to receive a temperature sensor at least partially within the proximal cavity; a stem portion comprising a distal cavity extending from the distal end of the elongated body towards the proximal end of the elongated body, the stem portion configured to engage a spud of the water heater tank; and a wall positioned between and separating the proximal cavity and the distal cavity, the wall extending generally orthogonal to the longitudinal axis of the elongated body. 10. The mounting adaptor of claim 9 , wherein the sensor portion comprises a mounting mechanism configured to mount the mounting bracket to the mounting adaptor. 11. The mounting adaptor of claim 10 , wherein the mounting mechanism comprises threads disposed along an inner surface of the proximal cavity for threadably engaging corresponding threads on an outer surface of the mounting bracket. 12. The mounting adaptor of claim 9 , wherein the stem portion comprises threads along an outer surface of the stem portion for threadably engaging the spud of the water heater tank to secure the mounting adaptor to the water heater tank. 13. A water heater sensor assembly, comprising: a non-immersion sensor mounting bracket having a proximal region and a distal region, with a temperature sensor housed by the distal region, the distal region having threads along an outer surface; a mounting adaptor comprising: a proximal end and an opposing distal end; a proximal cavity extending from the proximal end toward the distal end; a distal cavity extending from the distal end toward the proximal end; a wall fluidly isolating the proximal cavity from the distal cavity; the proximal cavity comprises proximal threads on an inner surface that are configured to cooperate with threads along the outer surface of the non -immersion sensor mounting bracket; and distal threads on an outer surface of the mounting adaptor configured to cooperate and form a water tight seal with a mounting spud of a water heater tank, wherein at least some portion of the distal threads are distal to the wall. 14. The water heater sensor assembly of claim 13 , wherein the temperature sensor of the non-immersion sensor mounting bracket is spaced from the wall when the non-immersion sensor assembly bracket is fully secured via the proximal threads. 15. The water heater sensor assembly of claim 13 , wherein the temperature sensor of the non-immersion sensor mounting bracket is touching the wall when the non-immersion sensor assembly bracket is fully secured via the proximal threads. 16. The water heater sensor assembly of claim 13 , wherein the wall has a proximal facing surface and a distal facing surface, and wherein the wall is thermally conductive and conducts heat from the distal facing surface to the proximal facing surface. 17. The water heater sensor assembly of claim 13 , wherein the mounting adaptor is one-piece. 18. The water heater sensor assembly of claim 13 , wherein the mounting adaptor is formed from a metal. 19. The water heater sensor assembly of claim 13 , wherein the non-immersion sensor mounting bracket comprises a component retaining region and an elongated stem region extending from the component retaining region, wherein the elongated stem region includes the distal region that houses the temperature sensor. 20. The water heater sensor assembly of claim 19 , wherein the component retaining region and an elongated stem region are one piece and comprise a polymeric material.