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A zoned HVAC system comprises an HVAC unit including a climate control system and an air mover. In addition, the system comprises a supply air duct in fluid communication with the outlet of the HVAC unit. Further, the system comprises a return air duct in fluid communication with the inlet of the HV

A zoned HVAC system comprises an HVAC unit including a climate control system and an air mover. In addition, the system comprises a supply air duct in fluid communication with the outlet of the HVAC unit. Further, the system comprises a return air duct in fluid communication with the inlet of the HVAC unit. Still further, the system comprises a plurality of zones positioned between the supply air duct and the return air duct. Moreover, the system comprises a bypass duct extending between the supply air duct and the return air duct. The bypass duct includes an active bypass damper having an open position, a closed position, and a plurality of partially opened positions. The system also comprises a control device configured to control the position of the bypass duct.

대표청구항 ▼

1. A method for controlling a bypass damper in a zoned HVAC system, the method comprising: (a) flowing conditioned air from an HVAC unit to a plurality of zones and a bypass duct including the bypass damper, wherein the bypass damper has an open position, a closed position, and a plurality of partia

1. A method for controlling a bypass damper in a zoned HVAC system, the method comprising: (a) flowing conditioned air from an HVAC unit to a plurality of zones and a bypass duct including the bypass damper, wherein the bypass damper has an open position, a closed position, and a plurality of partially open positions;(b) flowing a portion of the conditioned air through the bypass duct and the bypass damper, the conditioned air flowing through the bypass damper having an actual flow rate;(c) determining the actual flow rate of the conditioned air flowing through the bypass damper in response to measuring the pressure differential across the bypass damper;(d) calculating a recirculation ratio equal to the ratio of the actual flow rate of the conditioned air flowing through the bypass damper to a nominal flow rate of conditioned air generated by the HVAC unit;(e) comparing the calculated recirculation ratio to a maximum recirculation percentage; and(f) at least one of (1) adjusting the position of the bypass damper in response to determining that the calculated recirculation ratio exceeds the maximum recirculation percentage and (2) maintaining the position of the bypass damper in response to determining that the calculated recirculation ratio does not exceed the maximum recirculation percentage. 2. The method of claim 1, wherein the HVAC system includes a control device, and wherein (c), (d), (e), and (f) are performed by the control device. 3. The method of claim 1, further comprising: inputting the maximum recirculation percentage into the control device. 4. The method of claim 2, further comprising: inputting one or more characteristics of the bypass duct into the control device;inputting one or more characteristics of the bypass damper into the control device;inputting one or more characteristics of the HVAC unit into the control device; andwherein (c) further comprises using the one or more characteristics of the bypass duct, the one or more characteristics of the bypass damper, and the one or more characteristics of the HVAC unit to determine the actual flow rate of the conditioned air flowing through the bypass damper. 5. A method for controlling a flow of bypass air in a zoned HVAC system, the method comprising: (a) flowing conditioned air from an HVAC unit to a plurality of zones and a bypass duct including the bypass damper, wherein the bypass damper has an open position, a closed position, and a plurality of partially open positions;(b) flowing a first portion of the conditioned air through the bypass duct and the bypass damper;(c) flowing a second portion of the conditioned air through one or more of the zones;(d) measuring a pressure differential across the HVAC unit;(e) comparing the measured pressure differential across the HVAC unit to a predetermined pressure differential;(f) adjusting the flow of the first portion of the conditioned air in response to determining at (e) that the measured pressure differential across the HVAC unit is greater than or equal to the predetermined pressure differential;(g) measuring a temperature of the conditioned air flowing from the HVAC unit;(h) comparing the measured temperature of the conditioned air flowing from the HVAC unit to a predetermined upper supply air temperature limit and a predetermined lower supply air temperature limit after (e); and(i) adjusting the flow rate of the first portion of the conditioned air in response to determining at (h) that the measured temperature of the conditioned air flowing from the HVAC unit is outside a temperature range defined by the predetermined upper supply air temperature limit and the predetermined lower supply air temperature limit. 6. The method of claim 5, wherein (f) comprises increasing the flow rate of the first portion of the conditioned air if the measured pressure differential across the HVAC unit is greater than the predetermined pressure differential in (e). 7. The method of claim 6, wherein (f) further comprises opening the bypass damper to increase the flow of the first portion of the conditioned air. 8. The method of claim 6, wherein (i) comprises decreasing the flow of the first portion of the conditioned air if the measured temperature is greater than the predetermined upper supply air temperature limit or less than the predetermined lower supply air temperature limit. 9. The method of claim 8, wherein (i) further comprises closing the bypass damper or increasing the flow rate of the second portion of the conditioned air. 10. A method for controlling a bypass damper in a zoned HVAC system, the method comprising: (a) flowing conditioned air from an HVAC unit to a plurality of zones and a bypass duct including the bypass damper, wherein the bypass damper has an open position, a closed position, and a plurality of partially open positions;(b) flowing a portion of the conditioned air through the bypass duct and the bypass damper, the conditioned air flowing through the bypass damper having an actual flow rate;(c) determining the actual flow rate of the conditioned air flowing through the bypass damper in response to measuring (1) the temperature of the conditioned air generated by the HVAC unit, (2) the temperature of a flow of air from the plurality of zones, and (3) the temperature of a flow of air entering an inlet of the HVAC unit and communicating each of (1) the temperature of the conditioned air generated by the HVAC unit, (2) the temperature of a flow of air from the plurality of zones, and (3) the temperature of a flow of air entering an inlet of the HVAC unit to a control device to a system control device;(d) comparing the actual flow rate of the conditioned air flowing through the bypass damper to a predetermined air flow rate threshold; and(e) at least one of (1) adjusting the position of the bypass damper in response to determining that the actual flow rate of the conditioned air flowing through the bypass damper exceeds the predetermined air flow rate threshold and (2) maintaining the position of the bypass damper in response to determining that the actual flow rate of the conditioned air flowing through the bypass damper does not exceed the predetermined air flow rate threshold. 11. The method of claim 10, further comprising: inputting one or more characteristics of the HVAC unit into the control device.