Comfort control system and method factoring mean radiant temperature
First Claim
1. A comfort control system for modifying the operating temperature for an environment to be controlled comprising:
- (a) an input means for inputting a selected temperature of the environment and providing an electrical signal indicative of the selected temperature to a microprocessor means;
(b) temperature sensor means for sensing the temperature in the environment to be controlled and supplying an electrical signal indicative of said sensed temperature to said microprocessor means;
(c) relative humidity sensor means for sensing the relative humidity in the environment to be controlled and supplying an electrical signal indicative of said sensed relative humidity to said microprocessor means;
(d) building load determining means for sensing a characteristic indicative of the exterior building load on the environment to be controlled, approximating the building load from the sensed characteristic, and supplying an electrical signal indicative of said building load to said microprocessor means; and
(e) microprocessor means electrically interconnected with the input means, temperature sensor means, relative humidity sensor means, and building load determining means and under software control for;
(i) calculating an operating temperature set point for the environment to be controlled based on a predetermined equation and derived from the electrical signals indicative of the selected temperature inputted from the input means, the temperature sensed by the temperature sensor means, the relative humidity sensed by the relative humidity sensor means, and the building load approximated by the building load determining means;
(ii) comparing said operating temperature set point to the temperature sensed by the temperature sensor means, and(iii) generating a suitable control signal for an HVAC unit derived from the comparison between the calculated current operating temperature set point and the temperature sensed by the temperature sensor means.
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Accused Products
Abstract
A comfort control system and method which determines the operating temperature set point for the environment to be controlled, in part by indirectly measuring the mean radiant temperature of the environment. A temperature sensor and relative humidity sensor sense the environment to be controlled and provide electrical signals indicating the sensed values to a microprocessor. A building load monitor either monitors the duty cycle of the heating/cooling system for the environment or senses the difference between the environment temperature and the outside temperature to generate a value indicative of the heating or cooling load on the building. A calculation formula to be stored in the microprocessor factors the selected operating temperature, the building load, the relative humidity, and selected constance. The microprocessor determines the operating set point, compares the set point to the temperature of the environment, and generates a control signal for the heating/cooling system. A method of controlling the comfort of an environment comprises the steps of sensing the air temperature and relative humidity of the environment, monitoring the building load, accessing the selected temperature and selected constant values for use in an operating set point calculation formula, calculating the operating temperature set point, comparing the operating temperature set point with the sensed room temperature, and generating a control signal for the heating/cooling system based on the comparison.
128 Citations
14 Claims
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1. A comfort control system for modifying the operating temperature for an environment to be controlled comprising:
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(a) an input means for inputting a selected temperature of the environment and providing an electrical signal indicative of the selected temperature to a microprocessor means; (b) temperature sensor means for sensing the temperature in the environment to be controlled and supplying an electrical signal indicative of said sensed temperature to said microprocessor means; (c) relative humidity sensor means for sensing the relative humidity in the environment to be controlled and supplying an electrical signal indicative of said sensed relative humidity to said microprocessor means; (d) building load determining means for sensing a characteristic indicative of the exterior building load on the environment to be controlled, approximating the building load from the sensed characteristic, and supplying an electrical signal indicative of said building load to said microprocessor means; and (e) microprocessor means electrically interconnected with the input means, temperature sensor means, relative humidity sensor means, and building load determining means and under software control for; (i) calculating an operating temperature set point for the environment to be controlled based on a predetermined equation and derived from the electrical signals indicative of the selected temperature inputted from the input means, the temperature sensed by the temperature sensor means, the relative humidity sensed by the relative humidity sensor means, and the building load approximated by the building load determining means; (ii) comparing said operating temperature set point to the temperature sensed by the temperature sensor means, and (iii) generating a suitable control signal for an HVAC unit derived from the comparison between the calculated current operating temperature set point and the temperature sensed by the temperature sensor means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of controlling the comfort of a room or other environment comprising the steps of:
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(a) sensing the air temperature and relative humidity of the room or other environment to be controlled; (b) monitoring a characteristic of the room or other environment to be controlled which is indicative of the building load of the room or other environment to be controlled; (c) generating electrical signals corresponding to the sensed air temperature, sensed relative humidity, and building load derived from the building-load-indicative characteristic monitored; (d) accessing information indicative of the selected temperature of the room or other environment and constant values indicative of a modification of an operating set point selected as a result of the sensed relative humidity and the monitored building load-indicative characteristic; (e) calculating an operating temperature set point of the room or other environment to be controlled in accordance with a calculation formula which incorporates a selected room temperature, the sensed relative humidity, the building load, and the accessed constant values; (f) comparing the calculated operating temperature set point with the sensed air temperature; and (g) generating a control signal for comfort control system dependent on the comparison of the calculated operating temperature set point and the sensed air temperature. - View Dependent Claims (10, 11, 12, 13, 14)
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Specification
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- Resources
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Current AssigneeHoneywell Incorporated (Honeywell International Inc.)
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Original AssigneeHoneywell Incorporated (Honeywell International Inc.)
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InventorsBeckey, Thomas J.
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Primary Examiner(s)Dixon, Joseph L.
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Application NumberUS07/518,110Time in Patent Office712 DaysField of Search364/505, 364/557, 364/550, 364/551.01, 374/109, 374/142, 165/11.1, 165/14, 165/21, 165/28, 165/22, 236/1 B, 236/91 C, 236/91 R, 236/91 F, 62/229US Class Current700/276CPC Class CodesF24F 11/30 for purposes related to the...F24F 11/523 for displaying temperature ...F24F 11/67 Switching between heating a...F24F 2110/10 TemperatureF24F 2110/12 of the outside airF24F 2110/20 HumidityF24F 2140/50 LoadG05D 23/1931 to control the temperature ...
