초록 ▼

A storage-type water heater and method of operating the storage-type water heater. The water heater includes a water tank for storing water, at least one heating element to heat the stored water, a jacket surrounding at least a portion of the tank, and a control system for controlling the water heat

A storage-type water heater and method of operating the storage-type water heater. The water heater includes a water tank for storing water, at least one heating element to heat the stored water, a jacket surrounding at least a portion of the tank, and a control system for controlling the water heater. In one construction of the water heater, the water heater includes two heating elements, and the control system includes three temperature sensors and two moisture sensors. The control system can also include circuitry for detecting errors and change operation of the water based on a detected error.

대표청구항 ▼

What is claimed is: 1. A method of heating water stored in a water tank of a storage-type water heater comprising a first electric-resistance heating element comprising a thermal surface disposed within an inner surface of the tank at a first location, a second electric-resistance heating element

What is claimed is: 1. A method of heating water stored in a water tank of a storage-type water heater comprising a first electric-resistance heating element comprising a thermal surface disposed within an inner surface of the tank at a first location, a second electric-resistance heating element comprising a thermal surface disposed within the inner surface of the tank at a second location disposed vertically above the first location, and first and second temperature sensors associated with the first and second heating elements, respectively, a third temperature sensor coupled to the tank at a third location disposed vertically between the first and second locations, the method comprising: sensing a first temperature with the first temperature sensor; sensing a second temperature with the second temperature sensor; preventing power to the second heating element and controllably providing power to the first heating element if the first temperature is below a first set point, the second temperature is above a second set point, and zero or more other conditions exist; preventing power to the first heating element and controllably providing power to the second heating element if the second temperature is below a second set point and zero or more other conditions exist; preventing power to the first and second heating elements if the first and second temperatures are above the first and second set points, respectively, and zero or more other conditions exist; and wherein the acts of preventing power to the second heating element and controllably providing power to the first heating element and preventing power to the first heating element and controllably providing power to the second heating element occur during normal operation, and wherein the method further comprises sensing a third temperature with the third temperature sensor; ceasing normal operation if the third temperature is below a third set point and zero or more other conditions exist; and entering boost operation if the third temperature is below a third set point and zero or more other conditions exist. 2. A method as set forth in claim 1 wherein the first and second set points are the same. 3. A method as set forth in claim 1 wherein the act of entering boost operation comprises controllably providing power to the second heating element when the third temperature is below a third set point. 4. A method as set forth in claim 3 wherein the act of entering boost operation further comprises preventing power to the first heating element. 5. A method as set forth in claim 1 wherein the water heater further comprises a fourth temperature sensor coupled to the tank at a fourth location associated with a hot water outlet of the tank, and wherein the method comprises: sensing a fourth temperature with the fourth temperature sensor; ceasing normal operation if the fourth temperature sensor is above a fourth set point and zero or more other conditions exist; and preventing power to the first and second heating elements after the fourth temperature sensor is above a fourth set point and zero or more other conditions exist. 6. A method as set forth in claim 1 and further comprising: manually ceasing normal operation; and manually entering boost operation. 7. A method as set forth in claim 1 wherein the act of manually entering boost operation comprises controllably providing power to the second heating element and preventing power to the first heating element. 8. A method as set forth in claim 1 wherein the third set point is greater than the second set point. 9. A method of controlling a storage-type water heater comprising a water tank comprising an inner surface a first electric-resistance heating element comprising a thermal surface disposed within the inner surface at a first location, a second electric-resistance heating element comprising a thermal surface disposed within the inner surface at a second location, and a control system to operate the first and second heating elements, wherein the control system comprises a current sensor associated with the first heating element, the method comprising: controllably providing power to the first and second heating elements to heat water stored in the water tank; detecting the failure of one of the first and second heating elements; if detecting the failure of one of the first and second heating elements and zero or more other conditions exist, preventing power to the failed heating element; and controllably providing power to the non-failed heating element to heat water stored in the water tank; wherein the act of controllably providing power to the first and second heating elements comprises controllably providing power to the first heating element; wherein the method further comprises sensing first and second currents with the current sensor, the second current sensed after the first current; and wherein the act of detecting the failure comprises calculating first and second resistance values with the first and second currents, respectively, calculating a resistance rate change with the first and second resistance values, comparing the resistance rate change to a threshold resistance rate change, the threshold resistance rate change indicating scale buildup, and determining a failure for the first heating element if scale buildup occurs and zero or more other conditions exist. 10. A method as set forth in claim 9 and further comprising: if detecting the failure of one of the first and second heating elements and zero or more other conditions exist, issuing an alarm. 11. A method as set forth in claim 9 wherein the control system comprises a temperature sensor associated with the first heating element, wherein the method further comprises sensing at least one temperature with the temperature sensor, wherein the act of controllably providing power to the first heating element is based on the sensed at least one temperature, and wherein the act of detecting the failure comprises sensing a decrease in current to the first heating element. 12. A method as set forth in claim 9 wherein the control system comprises first and second temperature sensors associated with the first and second heating elements, respectively, and a second current sensor associated with the second heating element, wherein the method further comprises sensing a first temperature with the first temperature sensor and sensing a second temperature with the second temperature sensor, wherein the act of controllably providing power to the first and second heating elements is based on the first and second temperatures, and wherein the act of detecting the failure comprises sensing a decrease in one of a third and fourth current sensed by the first and second current sensors, respectively. 13. A method as set forth in claim 12 wherein the act of controllably providing power to the first and second heating elements comprises controllably providing power to the first heating element, and wherein the act of sensing a third current occurs during the act of providing power to the first heating element. 14. A method set forth in claim 13 wherein the act of detecting the failure further comprises determining a failure if the third current is less than a threshold current and zero or more other conditions exist, the threshold current indicating insufficient current is flowing to the first heating element. 15. A method as set forth in claim 13 wherein the act of detecting the failure comprises determining a first resistance of the first heating element based on the third current, determining a failure for the first heating element if the first resistance is greater than a threshold and zero or more other conditions exist. 16. A method as set forth in claim 15 wherein the threshold indicates a first heating circuit comprising the first heating element has an open circuit condition. 17. A method as set forth in claim 15 wherein the threshold indicates a dry-fire condition for the first heating element. 18. A method as set forth in claim 17 wherein the act of controllably providing power to the non-failed element comprises preventing power to both the failed heating element and the non-failed heating element if the detected failure is a dry-fire condition and zero or more other conditions exist. 19. A method as set forth in claim 12 wherein the act of controllably providing power to the first and second heating elements comprises controllably providing power to the first heating element, wherein the act of sensing a first temperature occurs during the act of providing power to the first heating element, and wherein the act of sensing a third current occurs during the act of providing power to the first heating element. 20. A method as set forth in claim 1 and further comprising: detecting the failure of one of the first and second heating elements; if detecting the failure of one of the first and second heating elements and zero or more other conditions exist, preventing power to the failed heating element; and modifying the control of the non-failed heating element. 21. A method as set forth in claim 20 wherein the modifying act comprises controllably providing power to the non-failed heating element to heat water stored in the water tank. 22. A method as set forth in claim 20 and further comprising: if detecting the failure of one of the first and second heating elements and zero or more other conditions exist, issuing an alarm. 23. A method as set forth in claim 20 wherein the water heater further comprises at least one current sensor associated with the first and second heating elements, and wherein the act of detecting the failure comprises sensing a decrease in current to at least one of the first and second heating elements. 24. A method as set forth in claim 20 wherein the water heater further comprises first and second current sensors associated with the first and second heating elements, respectively, and wherein the act of detecting the failure comprises sensing a decrease in one of a first and second current sensed by the first and second current sensors, respectively. 25. A method as set forth in claim 24 wherein the act of detecting the failure further comprises determining a failure if the first current is less than a threshold current and zero or more other conditions exist, the threshold current indicating insufficient current is flowing to the first heating element. 26. A method as set forth in claim 24 wherein the act of detecting the failure comprises determining a first resistance of the first heating element based on the first current, determining a failure for the first heating element if the first resistance is greater than a threshold and zero or more other conditions exist. 27. A method as set forth in claim 26 wherein the threshold indicates a first heating circuit comprising the first heating element has an open circuit condition. 28. A method as set forth in claim 26 wherein the threshold indicates a dry-fire condition for the first heating element. 29. A method as set forth in claim 28 wherein the act of controllably providing power to the non-failed element comprises preventing power to both the failed heating element and the non-failed heating element if the detected failure is a dry-fire condition and zero or more other conditions exist. 30. A method as set forth in claim 9 wherein the second location is disposed vertically above the first location, wherein the control system comprises first and second temperature sensors associated with the first and second heating elements, respectively, and wherein controllably providing power to the first and second heating elements comprises sensing a first temperature with the first temperature sensor; sensing a second temperature with the second temperature sensor; preventing power to the second heating element and controllably providing power to the first heating element if the first temperature is below a first set point, the second temperature is above a second set point, and zero or more other conditions exist; preventing power to the first heating element and controllably providing power to the second heating element if the second temperature is below a second set point and zero or more other conditions exist; and preventing power to the first and second heating elements if the first and second temperatures are above the first and second set points, respectively, and zero or more other conditions exist. 31. A method as set forth in claim 30 wherein the first and second set points are the same. 32. A method as set forth in claim 30 wherein the water heater further comprises a third temperature sensor coupled to the tank at a third location disposed vertically between the first and second locations, wherein the acts of preventing power to the second heating element and controllably providing power to the first heating element and preventing power to the first heating element and controllably providing power to the second heating element occur during normal operation, and wherein the method further comprises: sensing a third temperature with the third temperature sensor; ceasing normal operation if the third temperature is below a third set point and zero or more other conditions exist; and entering boost operation if the third temperature is below a third set point and zero or more other conditions exist. 33. A method as set forth in claim 32 wherein the act of entering boost operation comprises controllably providing power to the second heating element when the third temperature is below a third set point. 34. A method as set forth in claim 33 wherein the act of entering boost operation further comprises preventing power to the first heating element. 35. A method as set forth in claim 32 wherein the water heater further comprises a fourth temperature sensor coupled to the tank at a fourth location associated with a hot water outlet of the tank, and wherein the method comprises: sensing a fourth temperature with the fourth temperature sensor; ceasing normal operation if the fourth temperature sensor is above a fourth set point and zero or more other conditions exist; and preventing power to the first and second heating elements after the fourth temperature sensor is above a fourth set point and zero or more other conditions exist. 36. A method as set forth in claim 32 and further comprising: manually ceasing normal operation; and manually entering boost operation. 37. A method as set forth in claim 36 wherein the act of manually entering boost operation comprises controllably providing power to the second heating element and preventing power to the first heating element. 38. A method as set forth in claim 36 wherein the third set point is greater than the second set point. 39. A method of controlling a storage-type water heater comprising a water tank comprising an inner surface a first electric-resistance heating element comprising a thermal surface disposed within the inner surface at a first location, a second electric-resistance heating element comprising a thermal surface disposed within the inner surface at a second location, and a control system to operate the first and second heating elements, wherein the control system comprises a first temperature sensor associated with the first heating element, the method comprising: controllably providing power to the first and second heating elements to heat water stored in the water tank; detecting the failure of one of the first and second heating elements; if detecting the failure of one of the first and second heating elements and zero or more other conditions exist, preventing power to the failed heating element; and controllably providing power to the non-failed heating element to heat water stored in the water tank; wherein the act of controllably providing power to the first and second heating elements comprises controllably providing power to the first heating element; wherein the method further comprises sensing first and second temperatures with the first temperature sensor, the second temperature sensed after the first temperature, and wherein the act of detecting the failure comprises calculating a temperature rise with the first and second temperatures, comparing the temperature rise to a threshold temperature rise, the threshold temperature rise indicating scale buildup, and determining a failure for the first heating element if scale buildup occurs and zero or more other conditions exist. 40. A method as set forth in claim 39 and further comprising: if detecting the failure of one of the first and second heating elements and zero or more other conditions exist, issuing an alarm. 41. A method as set forth in claim 39 wherein the control system comprises a second temperature sensor associated with the second heating element and first and second current sensors associated with the first and second heating elements, respectively, wherein the method further comprises sensing a third temperature with the first temperature sensor and sensing a fourth temperature with the second temperature sensor, wherein the act of controllably proving power to the first and second heating elements is based on the third and fourth temperatures, and wherein the act of detecting the failure comprises sensing a decrease in one of a first and second current sensed by the first and second current sensor, respectively. 42. A method as set forth in claim 41 wherein the act of controllably providing power to the first and second heating elements comprises controllably providing power to the first element, and wherein the act of sensing a first current occurs during the act of providing power to the first heating element. 43. A method as set forth in claim 42 wherein the act of detecting the failure further comprises determining a failure if the first current is less than a threshold current and zero or more other conditions exist, the threshold current indicating insufficient current is flowing to the first heating element. 44. A method as set forth in claim 42 wherein the act of detecting the failure comprises determining a first resistance of the first heating element based on the first current, determining a failure for the first heating element if the first resistance is greater than threshold and zero or more other conditions exist. 45. A method as set forth in claim 44 wherein the threshold indicates a fist heating circuit comprising the first heating element has an open circuit condition. 46. A method as set forth in claim 44 wherein the threshold indicates a dry-fire condition for the first heating element. 47. A method as set forth in claim 46 wherein the act of controllably providing power to the non-failed element comprises preventing power to both the failed heating element and the non-failed heating element if the detected failure is a dry-fire condition and zero or more other conditions exist. 48. A method as set forth in claim 41 wherein the act of controllably providing power to the first and second heating elements comprises controllably providing power to the first heating element, wherein the act of sensing a third temperature occurs during the act of providing power to the first heating element, and wherein the act of sensing a first current occurs during the act of providing power to the first heating element.