VaV valve with PWM hot water coil
First Claim
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1. A VAV valve assembly comprising:
- a temperature sensor associated with a comfort zone;
a valve body adapted to be connected in series with a supply air duct conveying airflow to said comfort zone, said airflow being at a temperature below a zone temperature of said comfort zone as sensed by said temperature sensor;
a moveable closing member disposed inside said valve body and having a variable position that varies the flow rate of said airflow;
control means for generating at least one command signal in response to said temperature sensor;
drive means coupled to said closing member for varying said variable position of said closing member in response to said at least one command signal, whereby the flow rate of said airflow varies as a function of zone temperature;
fan means connected to said valve body for drawing ambient air into said valve body and discharging said ambient air into said comfort zone, said valve body being at a higher elevation than said comfort zone so that said ambient air tends to be warmer than said comfort zone;
a coil connected to said valve body and adapted to convey a fluid through said valve body to heat said airflow and said ambient air to a temperature greater than said zone temperature; and
a solenoid valve connected in series with said coil to control the flow of said fluid through said coil in response to said at least one command signal such that said solenoid valve remains substantially closed when said closing member is open beyond a predetermined position and such that said solenoid valve cycles between fully open and closed in a pulse-width modulated manner with a duty cycle that varies in response to said at least one command signal when said closing member is open no further than said predetermined position, said duty cycle having a predetermined maximum closed-period to avoid uncomfortable temperature fluctuations of said airflow.
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Abstract
A refrigeration system for temperature conditioning several comfort zones includes several VAV (variable air volume) valves each having a hot water coil conveying water whose flow rate is regulated by a PWM (pulse-width modulated) solenoid valve. Each VAV valve is connected to a supply air duct conveying cool supply air. When a zone'"'"'s temperature is above a set point temperature, the opening of the VAV valve is modulated to meet the cooling demand, and the water coil is shut off. When a zone'"'"'s temperature is below the set point, the VAV valve is opened to provide a predetermined constant airflow rate and the hot water coil'"'"'s solenoid valve is cycled open and closed in a pulse-width modulated manner to meet the heating demand.
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Citations
11 Claims
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1. A VAV valve assembly comprising:
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a temperature sensor associated with a comfort zone; a valve body adapted to be connected in series with a supply air duct conveying airflow to said comfort zone, said airflow being at a temperature below a zone temperature of said comfort zone as sensed by said temperature sensor; a moveable closing member disposed inside said valve body and having a variable position that varies the flow rate of said airflow; control means for generating at least one command signal in response to said temperature sensor; drive means coupled to said closing member for varying said variable position of said closing member in response to said at least one command signal, whereby the flow rate of said airflow varies as a function of zone temperature; fan means connected to said valve body for drawing ambient air into said valve body and discharging said ambient air into said comfort zone, said valve body being at a higher elevation than said comfort zone so that said ambient air tends to be warmer than said comfort zone; a coil connected to said valve body and adapted to convey a fluid through said valve body to heat said airflow and said ambient air to a temperature greater than said zone temperature; and a solenoid valve connected in series with said coil to control the flow of said fluid through said coil in response to said at least one command signal such that said solenoid valve remains substantially closed when said closing member is open beyond a predetermined position and such that said solenoid valve cycles between fully open and closed in a pulse-width modulated manner with a duty cycle that varies in response to said at least one command signal when said closing member is open no further than said predetermined position, said duty cycle having a predetermined maximum closed-period to avoid uncomfortable temperature fluctuations of said airflow. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A system for conditioning a plurality of comfort zones comprising:
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a refrigerant compressor, a condenser, an expansion device, an evaporator, and an evaporator fan all of which cooperate to function as a source of supply airflow; a plurality of temperature sensor means with a temperature sensor means associated with each of said plurality of comfort zones and each having a selectable set point temperature; flow sensor means associated with each of said VAV valves for generating a flow rate feedback signal indicating the actual rate of airflow through each of said VAV valves; at least one control means generating, in response to said flow rate feedback signal and said temperature sensor means, at least one command signal; supply air duct network means connecting each of said comfort zones to said source of supply airflow to convey said supply airflow from said source to each of said zones, said supply airflow being cooled by said evaporator to a temperature below a zone temperature as measured by at least one of said temperature sensor means; a plurality of VAV valves with a VAV valve associated with each of said plurality of comfort zones, said VAV valves being connected to said supply air duct network means for regulating said supply airflow to each of said zones in response to said at least one command signal; fan means and check valve means connected to at least one VAV valve for drawing ambient air into said one VAV valve and discharging said ambient air into at least one comfort zone, said one VAV valve being at a higher elevation than said one comfort zone so that said ambient air tends to be warmer than said one comfort zone; a plurality of coils with a coil associated with each of said VAV valves, each of said coils being adapted to convey a fluid to heat said supply airflow and said ambient air to a temperature greater than said zone temperature; a plurality of solenoid valves with a solenoid valve associated with each of said plurality of coils to control the flow of said fluid through said coil in response to at least one command signal so that for each zone and its associated VAV valve, associated temperature sensor means, associated coil, and associated solenoid valve, when a zone temperature is above said set point temperature of said associated temperature sensor means, said associated solenoid valve remains substantially closed and the opening of said associated VAV valve varies to regulate the flow rate of said airflow as a function of zone temperature, and when a zone temperature is below said set point temperature of said associated temperature sensor means, said associated solenoid valve cycles between fully open and closed in a pulse-width modulated manner with a duty cycle that varies as a function of an error between said zone temperature and said selectable set point temperature and further varies as a function of the time at which said error exists while said associated VAV valve opens to provide a substantially constant flow rate of said supply airflow, said duty cycle having a predetermined maximum closed-period to avoid uncomfortable temperature fluctuations of said airflow. - View Dependent Claims (8, 9)
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10. A method of temperature conditioning a comfort zone comprising the steps of:
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drawing air from said comfort zone; cooling said air to produce temperature conditioned supply air; conveying said supply air back to said comfort zone by way of a VAV valve; sensing the flow rate of said supply air passing through said VAV valve; setting a desired set point temperature of said comfort zone; sensing a zone temperature of said comfort zone; when said zone temperature is above said set point temperature, varying the degree of opening of said VAV valve as a function of said temperature of said comfort zone, said set point temperature, and the flow rate of said supply air; and when said zone temperature is below said set point temperature, i. positioning said VAV valve to provide a substantially constant flow rate of said supply air, ii. drawing ambient air from above said comfort zone into said VAV valve. iii. heating said supply air and said ambient air to a temperature greater than said zone temperature using a coil conveying a heated fluid through said VAV valve, and iv. regulating the average flow rate of said fluid by open and close cycling of a solenoid valve connected to said coil with an open period of said solenoid valve relative to a closed period of said solenoid valve increasing as said zone temperature decreases, said closed period being of a predetermined maximum closed-period to avoid uncomfortable temperature fluctuations of said supply air. - View Dependent Claims (11)
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Specification
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Current AssigneeChemical Bank (JP Morgan Chase & Co)
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Original AssigneeAmerican Standard Inc. (Trane Technologies plc)
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InventorsNurczyk, Mark E.
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Primary Examiner(s)FORD, JOHN K
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Application NumberUS07/257,566Time in Patent Office592 DaysField of Search165/16, 165/22, 165/26, 165/27, 165/28, 165/30, 165/39, 62/90, 62/173, 236/1 B, 236/1 C, 236/46 F, 236/49.3, 251/129.05US Class Current165/216CPC Class CodesF24F 11/76 by means responsive to temp...F24F 11/83 by controlling the supply o...F24F 11/84 using valvesF24F 3/06 characterised by the arrang...
