System and method for using ramped setpoint temperature variation with networked thermostats to improve efficiency
First Claim
1. A method for controlling a thermostat for energy savings comprising:
- determining an existing setpoint;
automatically setting a first setpoint of a repeating sequence of discrete setpoints to the value of the existing setpoint;
determining a number of discrete setpoints in the repeating sequence of discrete setpoints, wherein the repeating sequence of discrete setpoints is logged to a database;
automatically setting subsequent setpoints in the repeating sequence of discrete setpoints to increments away from the first setpoint, where each successive setpoint is further from said first setpoint;
returning to the first setpoint after completing a last setpoint in said repeating sequence of discrete setpoints; and
returning directly to the first setpoint in the event a manual input is detected.
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Abstract
The invention comprises systems and methods for ramping setpoints on thermostats controlling HVAC systems. At least one thermostat is located inside a structure and is used to control an HVAC system in the structure. At least one remote processor is in communication with said thermostat and at least one database stores data reported by the thermostat. At least one processor compares the outside temperature at least one location and at least one point in time to information reported to the remote processor from the thermostat. The remote processor ramps the setpoint on the thermostat so as to reduce the average spread between inside temperature and outside temperature in order to reduce energy consumption with affecting comfort. The remote processor takes into account the effect of weather conditions and occupant preferences in determining whether and when to ramp setpoints.
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Citations
17 Claims
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1. A method for controlling a thermostat for energy savings comprising:
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determining an existing setpoint; automatically setting a first setpoint of a repeating sequence of discrete setpoints to the value of the existing setpoint; determining a number of discrete setpoints in the repeating sequence of discrete setpoints, wherein the repeating sequence of discrete setpoints is logged to a database; automatically setting subsequent setpoints in the repeating sequence of discrete setpoints to increments away from the first setpoint, where each successive setpoint is further from said first setpoint; returning to the first setpoint after completing a last setpoint in said repeating sequence of discrete setpoints; and returning directly to the first setpoint in the event a manual input is detected. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for controlling a thermostat for energy savings comprising:
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determining an existing setpoint; automatically setting a first setpoint of a repeating sequence of discrete setpoints to the value of the existing setpoint; determining a number of discrete setpoints in the repeating sequence of discrete setpoints; automatically setting subsequent setpoints in the repeating sequence of discrete setpoints to increments away from the first setpoint, where each successive setpoint is further from said first setpoint; returning to the first setpoint after completing a last setpoint in said repeating sequence of discrete setpoints; and returning to a first target temperature in response to an override by an occupant.
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10. A system for automatically varying temperature setpoints for an HVAC system comprising:
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one or more computers that set a first setpoint of a target inside temperature for a conditioned environment; the one or more computers set at least a second setpoint of a target inside temperature for the conditioned environment, where said second target temperature differs from said first target temperature wherein at least said first and second setpoints are logged to a database; the one or more computers automatically set subsequent setpoints in the repeating sequence of discrete setpoints to increments away from the first setpoint, where each successive setpoint is further from said first setpoint; the one or more computers cycle through said repeating sequence of discrete setpoints; and the one or more computers return directly to the first setpoint in the event a manual input is detected. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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Specification