초록 ▼

HVAC systems are employed to control the indoor environmental characteristics of a building structure to make it comfortable for its inhabitants. An HVAC system includes one single integrated central control to regulate an indoor temperature level, an indoor relative humidity level and an indoor fre

HVAC systems are employed to control the indoor environmental characteristics of a building structure to make it comfortable for its inhabitants. An HVAC system includes one single integrated central control to regulate an indoor temperature level, an indoor relative humidity level and an indoor fresh air level of a building structure during both a heating season and a cooling season. Further, the single integrated central control is operable to selectively activate/deactivate an indoor blower to control a sensible ratio within a building structure. In addition, a protection feature for avoiding condensation on the interior surfaces of the building structure is included as an user selectable option.

대표청구항 ▼

What is claimed is: 1. A single integrated control for an HVAC system comprising: an indoor temperature sensor; an indoor relative humidity sensor; an outdoor temperature sensor; an indoor relative humidity sensor; a central control unit that operates in a heating mode and a cooling mode, wherein s

What is claimed is: 1. A single integrated control for an HVAC system comprising: an indoor temperature sensor; an indoor relative humidity sensor; an outdoor temperature sensor; an indoor relative humidity sensor; a central control unit that operates in a heating mode and a cooling mode, wherein said central control unit is operable to receive inputs from said indoor temperature sensor, said indoor relative humidity sensor and said outdoor temperature sensor to manipulate an actual indoor temperature level, an actual indoor relative humidity level, and an actual indoor fresh air level during both a heating season and a cooling season; and a user interface operable for a user to input an at least one user desired indoor temperature, an at least one user desired indoor relative humidity, and a user desired indoor fresh air level, wherein said central control unit generated signals based upon said inputs to manipulate said actual indoor temperature level, said actual indoor relative humidity level, and said actual indoor, fresh air level to achieve said at least one user desired indoor temperature, said at least one user desired indoor relative humidity, and said use desired indoor fresh air level; and wherein when said central control operates in said cooling mode, said at least on user desired indoor temperature includes a user desired indoor cooling temperature, and said at least on user desired indoor relative humidity includes a user desired indoor relative cooling humidity, said actual indoor relative humidity level being increased when said actual indoor relative humidity level is lower than said user desired indoor relative cooling humidity. 2. The single integrated control as recited in claim 1 wherein when said central control operates in said heating mode, said at least one user desired indoor temperature includes a user desired indoor heating temperature, and said at least one user desired indoor relative humidity includes a user desired indoor relative heating humidity. 3. The single integrated control as recited in claim 2 wherein said actual indoor fresh air level is increased when said actual indoor relative humidity level is higher than said user desired indoor relative heating humidity. 4. The single integrated control as recited in claim 2 wherein said actual indoor fresh air level is decreased when said indoor relative humidity level is lower than said user desired indoor relative heating humidity. 5. The single integrated control as recited in claim 1 wherein said actual indoor relative humidity level is decreased when said actual indoor relative humidity level is higher than said cooling indoor relative humidity. 6. The single integrated control as recited in claim 1 wherein said central control unit manipulates said actual indoor temperature level, said actual indoor relative humidity level, and said actual indoor fresh air level by selectively activating and deactivating at least one device of an HVAC system. 7. The single integrated control as recited in claim 1 further including a user interface for entering a user input and wherein said central control receives at least one environmental input from a sensor, calculates an effective delta based upon said user input and said at least one environmental input, determines a maximum allowable indoor relative humidity based upon said effective delta, and adjusts said actual indoor relative humidity level to a value less than said maximum allowable indoor relative humidity. 8. The single integrated control as recited in claim 7 wherein said user input is representative of a building structure characteristic. 9. The single integrated control as recited in claim 7 wherein said user input is a user selectable humidity level. 10. An HVAC system comprising: a single integrated central control unit that operates in a heating mode and a cooling mode; a user interface operable for a user to input at least one user desired indoor environmental characteristic; a temperature control device; a humidity control device; a ventilator device; and a blower device, wherein said single integrated central control unit is operable to manipulate said temperature control device, said humidity control device, said ventilator device, and said blower device to achieve user desired settings during both a heating season and a cooling season, and wherein said single integrated central control unit controls said humidity control device to change an actual indoor humidity level to approach a desired indoor humidity level, wherein when said single integrated central control unit operates in said cooling mode, said at least one user desired indoor environmental characteristic includes a user desired indoor cooling temperature and a user desired indoor relative cooling humidity. 11. The HVAC system as recited in claim 10 wherein said actual indoor relative humidity level is decreased when said actual indoor relative humidity level is higher than said user desired indoor relative cooling humidity. 12. A method of controlling a HVAC system comprising the steps: inputting an at least one user desired indoor environmental characteristic into a single integrated central control; measuring an at least one actual environmental characteristic; transmitting said at least one actual environmental characteristic to said single integrated central control; and centrally controlling an at least one actual indoor environmental characteristic based upon said at least one user desired environmental characteristic and said at least one actual environmental characteristic during both a heating season and a cooling season, wherein an actual indoor fresh air level is increased when an actual indoor relative humidity is lower than a desired indoor relative humidity and where an outdoor temperature is above a predetermined temperature. 13. The method as recited in claim 12 further including the step of increasing an actual indoor fresh air level when an actual indoor relative humidity is higher than a desired indoor relative humidity and where an outdoor temperature is below a predetermined temperature. 14. The method as recited in claim 12 further including the step of decreasing an actual indoor fresh air level when an actual indoor relative humidity is lower than a desired indoor relative humidity and where an outdoor temperature is below a predetermined temperature. 15. A method or controlling an HVAC system comprising the steps of: inputting at least one user desired indoor environmental characteristic into a single integrated central control; measuring an at least one actual environmental characteristic; transmitting said at least actual environmental characteristic to said single integrated central control; and centrally controlling an at least one actual indoor environmental characteristic based upon said at least one user desired environmental characteristic and said at least one actual environmental characteristic during both a heating season and a cooling season, wherein an actual indoor fresh air level is decreased when an actual indoor relative humidity is higher than a desired indoor relative humidity and where an outdoor temperature is above a predetermined temperature. 16. The method as recited in claim 15 further including the step of increasing said actual indoor fresh air level when said actual indoor relative humidity is lower than said desired indoor relative humidity and where said outdoor temperature is above said predetermined temperature.