IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0445862
(2003-05-27)
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발명자
/ 주소 |
- Schneider,Stephen M.
- Novak,Anthony C.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
16 인용 특허 :
10 |
초록
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An air circulation system for use with or without ductwork having an outside air stream and a return air stream includes a controller and a return damper apparatus operatively connecting the return air stream to the controlled environment. The air circulation system further includes a heating unit a
An air circulation system for use with or without ductwork having an outside air stream and a return air stream includes a controller and a return damper apparatus operatively connecting the return air stream to the controlled environment. The air circulation system further includes a heating unit and an air mass sensor disposed adjacent to the return damper apparatus. The air mass sensor selectively and directly detecting a ventilation rate of air moving through the return damper apparatus and communicates the ventilation rate to the controller which selectively modulates operation of the heating unit in dependence upon the ventilation rate.
대표청구항
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What is claimed is: 1. An air circulation system having ductwork for use in managing a controlled space, said air circulation system comprising: an outside air duct for presenting an outside air stream to said controlled space; a return air duct for presenting a return air stream to said controlled
What is claimed is: 1. An air circulation system having ductwork for use in managing a controlled space, said air circulation system comprising: an outside air duct for presenting an outside air stream to said controlled space; a return air duct for presenting a return air stream to said controlled space, said return air stream comprising air previously circulated through said controlled space and mixing with said outside air stream prior to said outside air stream and said return air stream being presented to said controlled space; a controller; a return damper apparatus operatively connecting said return air duct to said ductwork; a heating unit; an air mass sensor for selectively and directly detecting only a ventilation rate of said return air stream moving through said return damper apparatus and communicating said ventilation rate to said controller; a discharge temperature sensor for detecting a temperature of air discharged from said heating unit; and wherein said controller selectively modulates operation of said heating unit in dependence upon said ventilation rate and said discharged air temperature. 2. A method of operating an environmental control system having ductwork for use in managing environmental conditions within a controlled space, said ductwork including an outside air damper for controlling an influx of an outside air stream to said controlled space, a return air damper for controlling an influx of a return air stream to said controlled space, said return air stream comprising air previously circulated through said controlled space, and an air mass sensor oriented adjacent to said return damper apparatus, said method comprising the steps of: isolating said ductwork from the influx of outside air by closing said outside air damper; fully opening said return damper; ensuring that a blower of said environmental control system is on; waiting a predetermined time period for said environmental control system to stabilize; and utilizing said air mass sensor to determine a total volume of air moving through said return damper, said air mass sensor generating a peak airflow signal corresponding to said total volume of air and outputting said peak airflow signal to a controller of said environmental control system; utilizing said peak airflow signal to determine a ventilation rate of said environmental control system when said outside air damper is reopened; and controlling operation of a heating unit in said environmental control system on the basis of said ventilation rate. 3. A method of calibrating an environmental control system having ductwork for use in managing environmental conditions within a controlled space, said ductwork including an outside air damper for controlling an influx of an outside air stream to said controlled space, a return air damper for controlling an influx of a return air stream to said controlled space, said return air stream comprising air previously circulated through said controlled space, and an air mass sensor oriented adjacent to said return damper apparatus, said method comprising the steps of: isolating said ductwork from the influx of outside air by closing said outside air damper; fully opening said return damper; ensuring that a blower of said environmental control system is on; waiting a predetermined time period for said environmental control system to stabilize; utilizing said air mass sensor to determine a total volume of air moving through said return damper; and causing said air mass sensor to generate a peak airflow signal corresponding to said total volume of air and outputting said peak airflow signal to a controller of said environmental control system. 4. The method of calibrating an environmental control system according to claim 3 said method further comprising the steps of: averaging a plurality of said peak airflow signals; and outputting said averaged peak airflow signals to said controller of said environmental control system. 5. A method of controlling an air circulation system having ductwork for use in managing a controlled space, said method comprising the steps of: utilizing an outside air duct for presenting an outside air stream to said controlled space; utilizing a return air duct for presenting a return air stream to said controlled space, said return air stream comprising air previously circulated through said controlled space and mixing with said outside air stream prior to said outside air stream and said return air stream being presented to said controlled space; orienting a return damper apparatus to operatively connect said return air duct to said ductwork; orienting an air mass sensor adjacent to said return damper apparatus; selectively utilizing said air mass sensor to directly detect a ventilation rate of said return air stream moving through said return damper apparatus; detecting a discharge temperature of air discharged from said heating unit; and communicating said detected ventilation rate to a controller of said air circulation system, wherein said controller selectively modulates operation of said heating unit in dependence upon said detected ventilation rate and said discharge temperature. 6. The air circulation system according to claim 3, wherein: said temperature means comprises an ambient temperature sensor for detecting a temperature of air moving through said outside air duct, a return temperature sensor for detecting a temperature of air moving through said return air duct, and a discharge temperature sensor for detecting a temperature of air discharged from said heating unit; and wherein said ambient temperature sensor and said return temperature sensor are each oriented prior to said heating unit. 7. The air circulation system according to claim 1, wherein: said air mass sensor is disposed immediately adjacent to said return damper apparatus and comprises an array of air pressure units each having a plurality of apertures associated therewith for capturing a portion of said air moving through said return damper apparatus, as well as an amplification baffle oriented adjacent one of said apertures; and said array of air pressure units are substantially oriented in a grid pattern. 8. The air circulation system according to claim 7, wherein: said heating unit comprises a direct-fired burner apparatus. 9. The air circulation system according to claim 1, wherein: said air mass sensor repeats said direct detection of said ventilation rate in accordance with one of a periodic schedule, an environmental parameter and a command inputted to said controller. 10. The method of controlling an air circulation system according to claim 4, said method further comprising the steps of: calculating said actual temperature rise utilizing data from an ambient temperature sensor for detecting a temperature of air moving through said outside air duct, a return temperature sensor for detecting a temperature of air moving through said return air duct, and a discharge temperature sensor for detecting a temperature of air discharged from said heating unit. 11. The method of controlling an air circulation system according to claim 5, said method further comprising the steps of: orienting an outside damper apparatus to operatively connect said outside air duct to said ductwork; and closing said outside damper apparatus prior to detecting said detected ventilation rate. 12. The method of controlling an air circulation system according to claim 5, said method further comprising the steps of: determining when activation of said heating unit is requested for said air circulation system; activating said heating unit when said controller has determined that activation of said heating unit has been requested, said controller permitting said activation only when said activation does not conflict with said controller's selective modulation of said heating unit in dependence upon said detected ventilation rate. 13. The method of controlling an air circulation system according to claim 5, said method further comprising the steps of: orienting an outside damper apparatus to operatively connect said outside air duct to said ductwork; selectively modulating operation of said heating unit so as to maintain a predetermined ventilation rate; determining whether said detected ventilation rate falls below said predetermined ventilation rate; and modulating one of said return damper apparatus and said outside damper apparatus when said detected ventilation rate has been determined to have fallen below said predetermined ventilation rate. 14. The method of controlling an air circulation system according to claim 13, said method further comprising the steps of: determining when modulation of one of said return damper apparatus and said outside damper apparatus is requested to maintain a predetermined internal building pressure; modulating one of said return damper apparatus and said outside damper apparatus when said controller has determined that modulation of one of said return damper apparatus and said outside damper apparatus has been requested to maintain a predetermined internal building pressure, said controller permitting said modulation only when it has been determined that said detected ventilation rate has not fallen below said predetermined ventilation rate. 15. The method of controlling an air circulation system according to claim 13, said method further comprising the steps of: calculating an actual mixed air temperature of a combination of said return air stream moving through said return damper apparatus and said outside air stream moving through said outside damper apparatus; determining when modulation of one of said return damper apparatus and said outside damper apparatus is requested to maintain a predetermined mixed air temperature; and modulating one of said return damper apparatus and said outside damper apparatus when said controller has determined that modulation of one of said return damper apparatus and said outside damper apparatus has been requested to maintain a predetermined mixed air temperature, said controller permitting said modulation only when it has been determined that said detected ventilation rate has not fallen below said predetermined ventilation rate. 16. The method of controlling an air circulation system according to claim 13, said method further comprising the steps of: determining when manual manipulation of said controller has been initiated to modulate one of said return damper apparatus and said outside damper apparatus; and modulating one of said return damper apparatus and said outside damper apparatus when said controller has determined that said manual manipulation has been initiated, said controller permitting said modulation only when it has been determined that said detected ventilation rate has not fallen below said predetermined ventilation rate. 17. The method of controlling an air circulation system according to claim 5, said method further comprising the steps of: selectively modulating operation of said heating unit so as to maintain a predetermined ventilation rate; determining whether said detected ventilation rate falls below said predetermined ventilation rate; and disabling said heating unit when said detected ventilation rate has been determined to have fallen below said predetermined ventilation rate for a predetermined time period. 18. The method of controlling an air circulation system according to claim 5, said method further comprising the steps of: utilizing a direct-fired burner apparatus as an element of said heating unit. 19. The method of controlling an air circulation system according to claim 5, said method further comprising the steps of: repeating said direct detection of said ventilation rate in accordance with one of a periodic schedule, an environmental parameter and a command inputted to said controller. 20. An air circulation system for managing an outside air stream and a return air stream in a controlled environment, said air circulation system comprising: a controller; a return damper apparatus operatively connecting said return air stream to said controlled environment; a heating unit; an air mass sensor mounted directly adjacent said return damper apparatus for selectively and directly detecting a ventilation rate of air moving into said controlled environment through said return damper apparatus and communicating said ventilation rate to said controller a discharge temperature sensor for detecting a temperature of air discharged from said heating unit; and wherein said controller selectively modulates operation of said heating unit in dependence upon said ventilation rate and said discharged air temperature. 21. The air circulation system according to claim 2 wherein: said temperature means comprises an ambient temperature sensor for detecting a temperature of air in said outside air stream, a return temperature sensor for detecting a temperature of air in said return air stream, and a discharge temperature sensor for detecting a temperature of air discharged from said heating unit; and wherein said ambient temperature sensor and said return temperature sensor are each oriented at a location prior to said heating unit. 22. The air circulation system according to claim 20 wherein: said air mass sensor comprises an array of air pressure units each having a plurality of apertures associated therewith for capturing a portion of said air moving through said return damper apparatus, as well as an amplification baffle oriented adjacent one of said apertures; and said array of air pressure units are substantially oriented in a grid pattern. 23. The air circulation system according to claim 22 wherein: said heating unit comprises a direct-fired burner apparatus. 24. The air circulation system according to claim 20, wherein: said air mass sensor repeats said direct detection of said ventilation rate in accordance with one of a periodic schedule, an environmental parameter and a command inputted to said controller. 25. A method of controlling an air circulation system for managing an outside air stream, a return air stream and a heating unit in a controlled environment, said method comprising the steps of: orienting a return damper apparatus to operatively connect said return air stream to said controlled environment, said return air stream comprising air previously circulated through said controlled environment and mixing with said outside air stream prior to said outside air stream and said return air stream being presented to said controlled environment; orienting an air mass sensor adjacent to said return damper apparatus; selectively utilizing said air mass sensor to directly detect only a ventilation rate of air moving through said return damper apparatus; detecting a discharge temperature of air discharged from said heating unit; and communicating said detected ventilation rate to a controller of said air circulation system, wherein said controller selectively modulates operation of said heating unit in dependence upon said detected ventilation rate and said discharge temperature.
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