Patent application number | Description | Published |
20090270022 | Climate control duct architecture for a vehicle - A climate control duct architecture having partitions to provide effective distribution of air immediately as it exits the HVAC. By strategic positioning and configuring of the partitions the duct architecture may be tuned to provide maximum console airflow and desired system airflow distribution with a minimum amount of interference to the airflow due to turbulence. | 10-29-2009 |
20100216387 | DUCT ARCHITECTURE FOR REGULATING CLIMATE ZONE IN A VEHICLE - A climate control duct architecture having articulated and controlled interior surfaces to deliver variable and controllable airflow to target zones in the vehicle upon demand. By creating zone climates within the vehicle and providing conditioned airflow to only desired vehicle seating positions, the volume of necessary airflow is minimized, the need for cooling is reduced, and flexibility of the system is created. The interior surface may be mechanically or electrically controlled and may be situated in the common central “octopus” duct. | 08-26-2010 |
20120304670 | Optimized Cooling for Vehicle with Start-Stop Technology - An air conditioning system for a start-stop vehicle employs a compressor with a variable displacement. A controller determines a normal Climate Thermal Load (CTL) value for controlling a variable stroke of the variable displacement compressor. A stop event is detected in response to a speed of the vehicle and the occurrence of a predetermined deceleration. During the stop event, the variable stroke is increased by an amount determined in response to the normal CTL value, the speed of the vehicle, and a measure of the deceleration of the vehicle so that an evaporator temperature within the air conditioning system is allowed to decrease while the vehicle is stopping so that climate comfort can be maintained even while the engine is shut off during the subsequent time that the vehicle is stopped. | 12-06-2012 |
20130092364 | AIRFLOW CONTROL IN FLOOR MODE FOR VEHICLE WITH MULTIPLE SEATING ROWS - A comfort system is provided for a motor vehicle. A seat occupancy sensor determines whether a third row zone is occupied. At least one flow controller is provided in the floor duct for controllably supplying the conditioned airflow to at least the third row outlet. If the third row zone is occupied, then a second row outlet and the third row outlet are turned on to supply a conditioned airflow to a front seat zone, a second row zone, and the third row zone. If the third row zone is not occupied, then the third row outlet is closed off. If the second row zone is not occupied, then the second and third row outlets are closed off. If occupied, then the second row outlet is turned on until a desired comfort level is achieved in the second row zone. | 04-18-2013 |
20130207420 | CLIMATE CONTROL SYSTEM FOR A VEHICLE - A climate control system for a vehicle includes an air conditioner positioned in a rear of the vehicle. A roof panel includes a moonroof opening bounded on at least one side by a moonroof rail. The moonroof rail generally defines an air supply duct between a headliner and the roof panel. The air supply duct is in communication with the air conditioner. A plurality of vents are operably connected to the moonroof rail and relay conditioned air from the air supply duct to an interior of the vehicle. | 08-15-2013 |
20130257106 | Air Ducts Formed in Automotive Structural Members - An air duct for an automotive vehicle is blow molded with an elongated, hollow structural member to be used as a portion of a body of the vehicle. The structural member has an inner wall defining an elongated cavity communicating with first and second access holes at respective longitudinal positions along the structural member. A parison comprised of a thermally insulating material is inserted into the internal cavity. A source of inflation gas is connected to a mouth portion or the parison. The parison is heated and inflated within the internal cavity to an expanded shape to form the air duct disposed against the inner wall and spanning the first and second access holes. The air duct at one of the access holes is configured as an air inlet. The air duct at the other one of the access holes is configured as an air outlet. | 10-03-2013 |
20130303069 | DUCT ARCHITECTURE FOR REGULATING CLIMATE ZONE IN A VEHICLE - A climate control duct architecture having articulated and controlled interior surfaces to deliver variable and controllable airflow to target zones in the vehicle upon demand. By creating zone climates within the vehicle and providing conditioned airflow to only desired vehicle seating positions, the volume of necessary airflow is minimized, the need for cooling is reduced, and flexibility of the system is created. The interior surface may be mechanically or electrically controlled and may be situated in the common central “octopus” duct. | 11-14-2013 |
20140073232 | Laterally Assembled Vehicle Duct Joint - A duct assembly including a first duct and a second duct that are connected by a receptacle and a fitting that are moved in a transverse direction to assemble the first duct to the second duct. The receptacle defines a slot that includes an inner wall and an outer wall. The inner and outer wall define a fitting insertion opening on one lateral side and a fitting seat on the opposite lateral side. A seal is provided on a face wall of the fitting. Triangular side walls extend between the inner and outer walls. A locking tab on a triangular side wall is received within a tab receiver on the outer wall of the fitting. | 03-13-2014 |