Active anticipatory control
First Claim
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1. A control device for controlling a space temperature modifying apparatus comprising:
- means for measuring an ambient space temperature;
means for setting a desired temperature setpoint to be maintained in a space by said space temperature modifying apparatus; and
means, connected to said measuring means and said setpoint setting means, for calculating a next subsequent space temperature at which said space temperature modifying apparatus is deenergized upon comparison between a maximum space temperature attained after a previous deenergization of said space temperature modifying apparatus and the desired temperature setpoint, to maintain the desired temperature setpoint;
where said calculation means calculates an anticipated space temperature at which said space temperature modifying apparatus is deenergized to maintain the desired temperature setpoint according to the relationship
space="preserve" listing-type="equation">T.sub.a =T.sub.r +N K.sub.i (1-K.sub.exp)in which relationship Ta is the anticipated space temperature, Tr is the current space temperature, Ki is an anticipator range constant, N is a mode constant set to +1 for heating and -1 for cooling and Kexp is an exponential growth constant.
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Abstract
A space temperature control which prevents overshoot and undershoot of a desired space temperature by adjusting a subsequent sensed space temperature as a function of a previous sensed maximum space temperature to deenergize a space conditioning device at the adjusted temperature to maintain the desired space temperature.
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Citations
4 Claims
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1. A control device for controlling a space temperature modifying apparatus comprising:
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means for measuring an ambient space temperature; means for setting a desired temperature setpoint to be maintained in a space by said space temperature modifying apparatus; and means, connected to said measuring means and said setpoint setting means, for calculating a next subsequent space temperature at which said space temperature modifying apparatus is deenergized upon comparison between a maximum space temperature attained after a previous deenergization of said space temperature modifying apparatus and the desired temperature setpoint, to maintain the desired temperature setpoint; where said calculation means calculates an anticipated space temperature at which said space temperature modifying apparatus is deenergized to maintain the desired temperature setpoint according to the relationship
space="preserve" listing-type="equation">T.sub.a =T.sub.r +N K.sub.i (1-K.sub.exp)in which relationship Ta is the anticipated space temperature, Tr is the current space temperature, Ki is an anticipator range constant, N is a mode constant set to +1 for heating and -1 for cooling and Kexp is an exponential growth constant. - View Dependent Claims (2, 3, 4)
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3. The control device of claim 2 in which the next subsequent anticipator range constant (Ki) is decreased by 0.125°
- F. if the difference between the previous maximum space temperature attained after the space temperature modifying apparatus is deenergized and the desired temperature setpoint, when multiplied by the mode constant (N), is equal to or greater than 0.25°
F.
- F. if the difference between the previous maximum space temperature attained after the space temperature modifying apparatus is deenergized and the desired temperature setpoint, when multiplied by the mode constant (N), is equal to or greater than 0.25°
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4. The control device of claim 2 in which the next subsequent anticipator range constant (Ki) is increased by 0.125°
- F. if the difference between the previous maximum space temperature attained after the space temperature modifying apparatus is deenergized and the desired temperature setpoint, when multiplied by the mode constant (N), is less than or equal to 0.0°
F.
- F. if the difference between the previous maximum space temperature attained after the space temperature modifying apparatus is deenergized and the desired temperature setpoint, when multiplied by the mode constant (N), is less than or equal to 0.0°
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Specification