초록 ▼

A control system for an electric water heater having an upper heating element and a lower heating element is disclosed. The control system includes a control module that controls operation of the electric water heater by selectively toggling the upper and lower heating elements between an ON state a

A control system for an electric water heater having an upper heating element and a lower heating element is disclosed. The control system includes a control module that controls operation of the electric water heater by selectively toggling the upper and lower heating elements between an ON state and an OFF state and a consumer interface module that allows a consumer to input a set point temperature and select an energy savings mode for the electric water heater. The control module regularly monitors hot water usage and adjusts the set point temperature by a predetermined setback amount until a capacity of the water heater matches consumer usage.

대표청구항 ▼

1. A control system for an electric water heater having an upper heating element and a lower heating element, the control system comprising: a consumer interface module that allows a consumer to select i) a set point temperature for the electric water heater and ii) an energy savings level; anda con

1. A control system for an electric water heater having an upper heating element and a lower heating element, the control system comprising: a consumer interface module that allows a consumer to select i) a set point temperature for the electric water heater and ii) an energy savings level; anda control module that controls operation of the electric water heater by selectively toggling the upper and lower heating elements between an ON state and an OFF state, wherein the control module: receives, as inputs, the consumer selected set point temperature and the energy savings level;uses the energy savings level to determine a setback value;uses the setback value and the consumer selected set point temperature to calculate a control set point temperature that differs from the consumer selected set point temperature by an amount up to the setback value;controls the operation of the electric water heater according to the control set point temperature;monitors hot water consumption by the consumer to generate historical usage data based on the hot water consumption;generates and outputs an adjustment to the control set point temperature to control an effective capacity of the water heater, wherein the control module generates the adjustment using the consumer selected set point temperature, the setback value, and the historical usage data;uses the historical usage data to determine whether the water heater (i) has excess effective capacity or (ii) needs additional effective capacity;in response to determining whether the water heater has excess effective capacity or needs additional effective capacity, uses the consumer selected set point temperature and the setback value to determine whether increasing or decreasing the effective capacity requires an additional adjustment to the control set point temperature that exceeds the setback value; andgenerates, as an output in response to a determination that increasing or decreasing the effective capacity requires an additional adjustment to the control set point temperature that exceeds the setback value, a recommendation for the consumer to adjust the set point temperature. 2. The control system of claim 1, wherein the consumer interface module includes at least one of a display that visually communicates the recommendation to the consumer and a speaker that audibly communicates the recommendation to the consumer. 3. The control system of claim 2, wherein the visual display includes at least one of a light-emitting device and a liquid crystal display. 4. The control system of claim 1, further comprising a sensor module that receives an output from at least one sensor for input into the control module. 5. The control system of claim 1, further comprising at least one sensor in communication with the control module. 6. The control system of claim 5, wherein the at least one sensor is a temperature sensor. 7. The control system of claim 5, wherein the at least one sensor is a flow sensor. 8. The control system of claim 1, wherein using the historical usage data to determine whether the water heater (i) has excess effective capacity or (ii) needs additional effective capacity includes determining a frequency that the upper heating element is toggled into the ON state. 9. The control system of claim 1, wherein the control module is configured to operate according to a plurality of energy savings levels including the selected energy savings levels, and wherein the plurality of energy savings levels includes a first energy savings level that prevents the control module from adjusting the set point temperature and a second energy savings level that allows the control module to adjust the set point temperature by the setback value. 10. The control system of claim 9, wherein the plurality of energy savings levels includes a third energy savings level that allows the control module to adjust the set point temperature by the setback value and by a maximum setback value. 11. A method for operating an electric water heater having an upper heating element and a lower heating element, the method comprising: selecting i) a set point temperature for the electric water heater and ii) an energy savings level;controlling operation of the electric water heater by selectively toggling the upper and lower heating elements between an ON state and an OFF state, wherein controlling the operation includes: receiving, as inputs, the selected set point temperature and the energy savings level;using the energy savings level to determine a setback value;using the setback value and the selected set point temperature to calculate a control set point temperature that differs from the selected set point temperature by an amount up to the setback value;controlling the operation of the electric water heater according to the control set point temperature;monitoring hot water consumption by a consumer to generate historical usage data based on the hot water consumption;generating and outputting an adjustment to the control set point temperature to control an effective capacity of the water heater, wherein the adjustment is generated using the selected set point temperature, the setback value, and the historical usage data;using the historical usage data to determine whether the water heater (i) has excess effective capacity or (ii) needs additional effective capacity;in response to determining whether the water heater has excess effective capacity or needs additional effective capacity, using the selected set point temperature and the setback value to determine whether increasing or decreasing the effective capacity requires an additional adjustment to the control set point temperature that exceeds the setback value; andgenerating, as an output in response to a determination that increasing or decreasing the effective capacity requires an additional adjustment to the control set point temperature that exceeds the setback value, a recommendation for the consumer to adjust the set point temperature. 12. The method of claim 11, further comprising at least one of using a display to visually communicates the recommendation to the consumer and using a speaker to audibly communicates the recommendation to the consumer. 13. The method of claim 11, wherein using the historical usage data to determine whether the water heater (i) has excess effective capacity or (ii) needs additional effective capacity includes determining a frequency that the upper heating element is toggled into the ON state. 14. The method of claim 11, further comprising operating according to a plurality of energy savings levels including the selected energy savings level, and wherein the plurality of energy savings levels includes a first energy savings level that prevents adjusting the set point temperature and a second energy savings level that allows adjusting the set point temperature by the setback value. 15. The method of claim 14, wherein the plurality of energy savings levels includes a third energy savings level that allows adjusting the set point temperature by the setback value and by a maximum setback value.