Patent application number | Description | Published |
20090071178 | Vehicle HVAC and Battery Thermal Management - A HVAC and battery thermal management system for a vehicle having a HVAC portion and a battery portion, and a method of operation, is disclosed. The HVAC portion may include a main chamber, an evaporator located in the main chamber, a heater extending across a portion of the main chamber downstream of the evaporator, a battery duct extending from the main chamber adjacent to the heater and in fluid communication with the main chamber both upstream and downstream of the heater. The battery portion may include a battery pack in fluid communication with the battery duct, a battery cooling valve located in the battery duct and configured to selectively allow fluid flow from the main chamber between the evaporator and the heater, and a battery heating valve located in the battery duct and configured to selectively allow fluid flow from the main chamber downstream of the heater. | 03-19-2009 |
20090088062 | Vehicle Body Pressure Relief System - A battery pack cooling and body pressure relief system for a vehicle having a passenger cabin is disclosed. The system may include an intake air flow duct connected between the passenger cabin and the battery pack, and an air flow duct connected between the exhaust air outlet and the body pressure relief valve. The system may include a one-way cabin pressure relief vent connected to the air flow duct and configured to selectively allow for air flow into the air flow duct, and may include a duct pressure relief vent connected to the air flow duct and configured to selectively allow for air flow out of the air flow duct into the vehicle. | 04-02-2009 |
20090107739 | Air Conditioning for Belt-Alternator-Starter Hybrid Electric Vehicle - A hybrid electric vehicle having an air conditioning system, an engine and a belt-alternator-starter motor-generator, and a method of operation, is disclosed. A torque transfer assembly, such as a pulley and belt assembly, engages the engine and motor-generator, and includes a clutched member for selectively disconnecting the torque transfer between the engine and motor-generator. A refrigerant compressor includes a compressor shaft rotationally coupled to and driven by the motor-generator shaft. The compressor may be driven by the motor-generator when the engine is not operating. | 04-30-2009 |
20090133415 | HVAC Thermal Storage for Hybrid Vehicle - A system and method for providing cool air to a passenger compartment of a hybrid vehicle in an engine off mode is disclosed. This may include operating a HVAC system to provide cold refrigerant flowing through an evaporator while an engine is operating, and forcing air through the evaporator to cool the air. A first portion of the cooled air from the evaporator is directed through a heater core and a second portion around the heater core, and an electric water pump is activated to pump coolant from a thermal storage tank, through the heater core and back to the thermal storage tank to cool the coolant. When the engine operation is ceased, the air flow is directed through the heater core, and the coolant is pumped from the thermal storage tank, through the heater core and back to the thermal storage tank to cool the air. | 05-28-2009 |
20090151342 | Exhaust Gas Waste Heat Recovery - An exhaust heat recovery heat exchanger assembly for use along a main exhaust flow path of an exhaust system for an engine, and a method of operation, is disclosed. The exhaust heat recovery heat exchanger includes a sealed vacuum chamber, including a hydride pellet mounted in the chamber, and electrical leads extending from the hydride pellet. An exhaust chamber along the main exhaust flow path is located along an inner wall of the vacuum chamber. A housing surrounds the vacuum chamber and defines a heat receiving medium chamber. A heat receiving medium flows through the heat receiving medium chamber and absorbs heat from the exhaust flowing through the exhaust chamber when an electric current is applied to the hydride pellet. | 06-18-2009 |
20090205346 | Air Conditioning System Having Integrated Chiller and Thermal Storage - An air conditioning system for a vehicle and a method of operation is disclosed. The air conditioning system includes a primary refrigerant loop and a secondary liquid loop. The primary refrigerant loop includes a compressor configured to be selectively driven by the engine, a condenser, an expansion device and a refrigerant-to-liquid heat exchanger. The secondary liquid loop includes the refrigerant-to-liquid heat exchanger, a thermal storage reservoir within which the refrigerant-to-liquid heat exchanger is mounted, a pump configured to pump a liquid through the refrigerant-to-liquid heat exchanger, a liquid-to-air heat exchanger configured to mount in a HVAC module and receive the liquid from the refrigerant-to-liquid heat exchanger, and a liquid flow valve configured to selectively direct the liquid directly to the pump or through the thermal storage reservoir to the pump. | 08-20-2009 |
20090205359 | Low Refrigerant Charge Secondary Loop Air Conditioning System - A secondary loop air conditioning system for a vehicle that includes a condenser and an integrated assembly is disclosed. The condenser has a first condenser header spaced from a second condenser header, a condenser core extending between the first and second condenser headers, and a refrigerant inlet operatively engaging the first condenser header. The integrated assembly includes a chiller mounted to the first condenser header and having a liquid inlet and a liquid outlet configured to be in fluid communication with a secondary loop of the air conditioning system, and an expansion device in fluid communication with the condenser and mounted adjacent to the chiller for directing refrigerant into the chiller, and a refrigerant outlet. Also, a receiver/dryer area may be located in one of the condenser and the integrated assembly. | 08-20-2009 |
20090236089 | Controlling Temperature of Vehicle Devices Using a Variable Speed Fan - A method for controlling a fan in a vehicle includes comparing the current temperature of at least a first device and a second device to multiple temperature ranges for each of said devices and determining on the basis of said comparisons whether fan speed should be changed, increasing fan speed to a maximum fan speed if at least one of the comparisons indicates that the maximum fan speed is desired, increasing fan speed to a reference fan speed if at least one of the comparisons indicates that an increase in fan speed less than the maximum fan speed is desired, and decreasing fan speed to a reference fan speed if the comparisons indicate that a decrease in fan speed is desired. | 09-24-2009 |
20090250980 | Temperature Controlled Vehicle Seats - A seat temperature control system having a temperature controlled seat for use in a vehicle is disclosed. The temperature controlled seat may comprise a seat bottom, a seat back and an air conditioning system. The seat bottom includes a bottom heat exchanger fluid coil configured to direct a cooling fluid therethrough from a bottom inlet end to a bottom outlet end. The seat back includes a back heat exchanger fluid coil configured to direct the cooling fluid therethrough from a back inlet end to a back outlet end. The air conditioning system includes a coils inlet line in fluid communication with the bottom inlet end and the back inlet end, and a coils outlet line in fluid communication with the bottom outlet end and the back outlet end. The air conditioning system provides cooling fluid to the coils and receives cooling fluid from the coils. | 10-08-2009 |
20090255741 | BELT ALTERNATOR STARTER SYSTEMS FOR HYBRID VEHICLES - A belt alternator starter (BAS) system for a hybrid vehicle may include a first pulley, a first belt, a motor generator unit (MGU), a second pulley, a second belt, and a first clutch. The first belt encircles the first pulley and a crankshaft pulley of an internal combustion engine. The MGU includes the second pulley and functions as an electric motor when the engine is started and as a generator for charging a battery when the engine is running. The second belt encircles the second pulley and at least one drive pulley of an accessory unit. The first clutch couples/decouples the crankshaft pulley to/from the second pulley depending on operation of the engine. | 10-15-2009 |
20090261176 | Heater Coolant Flow Control for HVAC Module - An air conditioning system and a method of heating air flowing through a heater core of a HVAC module is disclosed. The method includes flowing essentially all of the air flowing through an evaporator through a heater core for all HVAC operating conditions. A flow control valve is opened long enough to allow a flow of hot coolant from an engine into the heater core. The valve is then closed to stop the flow of the hot coolant. When the temperature of the hot coolant is determined to have cooled to a predetermined temperature threshold, the flow control valve is then opened again to allow hot coolant to flow into the heater core. | 10-22-2009 |
20090266094 | Air Conditioning System with Cold Thermal Storage and Evaporator Temperature Control - A system and method of operating a vehicle air conditioning system having an engine driven, fixed capacity refrigerant compressor and a compressor clutch is disclosed. The method may comprises setting a preliminary evaporator air temperature target; charging a cold storage apparatus in the vehicle air conditioning system; determining if the cold storage apparatus has reached a predetermined threshold; if the cold storage apparatus has reached a predetermined threshold, determining a new evaporator air temperature target by: determining a maximum allowable dewpoint evaporator air temperature for maintaining a passenger compartment humidity below a predetermined value; determining a maximum allowable mode evaporator air temperature based on a mode to which the vehicle air conditioning system is set; and setting the evaporator air temperature target to the lower of the dewpoint evaporator air temperature and the mode evaporator air temperature. The compressor clutch is controlled to achieve the evaporator air temperature target. | 10-29-2009 |
20090286459 | System and Method to Reduce Thermal Energy in Vehicle Interiors Subjected to Solar Radiation - A system for reducing thermal energy in the interior of an unoccupied vehicle includes an energy source, a temperature sensor, and a control unit which triggers the system in response to satisfaction of conditions. The conditions include the temperature of the passenger compartment being greater than a target temperature and the vehicle engine not running. A fan configured to selectively bring ambient air into the passenger compartment is powerable by the energy source and circulates ambient air through the passenger compartment in response to the control unit. The energy source may include a solar panel or another source characterized by absence of energy derived from the vehicle engine, and excess energy may be distributed to an energy storage device. A seat ventilation fan may operate concurrently with the fan or an HVAC. A method of reducing thermal energy in the interior of a parked vehicle is also provided. | 11-19-2009 |
20090293521 | HVAC System Control for Improved Vehicle Fuel Economy - A method of operating a HVAC system in a vehicle having an engine that operates in a high efficiency mode and a less efficient mode is disclosed. The method may comprise the steps of: operating a refrigerant compressor to cool a passenger compartment and charge a cold thermal storage apparatus; determining if a cold charge in the storage apparatus has exceeded a threshold; enabling compressor cycling if the cold charge in the storage apparatus has exceeded the threshold; detecting if the engine is operating in the high efficiency mode; determining an amount of HVAC loads on the engine; determining a proximity of the engine operation to a switching point from the high efficiency mode to the less efficient mode; and conducting a HVAC load shed if the HVAC load reduction allows the engine to stay below the switching point and the compressor cycling is enabled. | 12-03-2009 |
20100025311 | VEHICLE-INTEGRATED WATER HARVESTING SYSTEM - A vehicle-integrated water harvesting system is provided that enables water-vapor or condensation in a vehicle to be captured, and made available onboard the vehicle for drinking or other uses. The system includes a water emitting component and may include a purification system operatively connected to the water emitting component. The purification system at least partially purifies the water and then sends the purified water to a storage reservoir or directly to a dispenser or outlet. | 02-04-2010 |
20100064700 | Refrigerant System Oil Accumulation Removal - A method and system for removing oil accumulation from refrigerant lines of a vehicle HVAC system having multiple refrigerant loops each having an evaporator is disclosed. The method for operating the system may comprise the steps of: monitoring a flow rate through at least one of the refrigerant loops; determining if the flow rate through any of the at least one refrigerant loops being monitored is below a predetermined flow rate for greater than a predetermined time limit; monitoring for an indication of imminent vehicle operation; and if the indication of imminent vehicle operation is detected and the flow rate through any of the at least one refrigerant loops being monitored is below the predetermined flow rate for greater than the predetermined time limit, opening a valve to allow for maximum flow through the at least one refrigerant loop. | 03-18-2010 |
20100087134 | VEHICLE HVAC SYSTEM - An HVAC system for a vehicle is disclosed. The HVAC system may comprise an HVAC module configured to selectively direct conditioned air through an HVAC outlet; and an HVAC air distribution system including a duct operatively engaging the HVAC outlet to receive air flow therefrom, a top outlet configured to be positioned above an instrument panel, a heater outlet configured to be located below the instrument panel, and a diverter located in the duct and configured to selectively direct the air flow from the HVAC outlet through the duct to the top outlet and the heater outlet. | 04-08-2010 |
20100090527 | Solar Powered Ventilation System For Vehicle And Method Of Operating The Same - A solar powered ventilation system for regulating the interior temperature of a motorized vehicle and a method of controlling the same is provided. The vehicle includes a battery pack in electrical communication with at least one motor assembly that is selectively operable to propel the vehicle. The solar powered ventilation system includes a solar panel in electrical communication with a fan and the battery pack. The method includes: determining if sufficient solar load is available; if so, determining the current vehicle power mode; determining if the current battery pack temperature is greater than a threshold battery pack temperature if the vehicle is in “off” or “accessories on” mode; and commanding the solar powered ventilation system to modify the interior temperature of the vehicle to thereby decrease the temperature of the battery pack if the current battery pack temperature is greater than the threshold battery pack temperature. | 04-15-2010 |
20100106362 | A/C COMPRESSOR CLUTCH POWER MANAGEMENT - A method of controlling a power input to a compressor clutch, via an A/C clutch voltage controller, that selectively drives an A/C compressor in a vehicle HVAC system is disclosed. The method may comprise the steps of: determining a first electric power level needed to cause the compressor clutch to move to a full engagement position from a compressor clutch non-engagement position; applying the first electric power level to the compressor clutch to cause the compressor clutch to move to the full engagement position; determining a second electric power level, which is lower than the first electric power level, needed to maintain the compressor clutch in the full engagement position; and applying the second electric power level to the compressor clutch to maintain the compressor clutch in the full engagement position. | 04-29-2010 |
20100180610 | Refrigerant Subcooling in a Vehicle HVAC System - An HVAC system, and a method of operation, for use in a vehicle is disclosed. The HVAC system may comprise: an evaporator having a drain that receives condensate dripping from the evaporator; a refrigerant compressor that receives a refrigerant from the evaporator and compresses the refrigerant; a condenser that receives the refrigerant from the compressor; and a condensate-to-refrigerant heat exchanger that receives the refrigerant from the condenser and the condensate from the drain, whereby the condensate absorbs heat from the refrigerant as the condensate flows through the condensate-to-refrigerant heat exchanger. | 07-22-2010 |
20100274396 | THERMOELECTRIC CLIMATE CONTROL - Thermoelectric modules are disposed to be connected to a vehicle coolant system and to an air handling system to provide localized climate control and passenger compartment climate control. Vehicle coolant acts as a heat sink in cooling mode and a heat source in heating mode in embodiments. A system controller in embodiments is disposed to monitor an input for a signal that a monitored climate characteristic has departed from a predefined range of values. | 10-28-2010 |
20100294455 | SYSTEM AND METHOD FOR HEATING AND COOLING A VEHICLE - A system for heating and cooling a vehicle includes a solar panel disposed on a surface of a vehicle and a thermoelectric unit i) disposed on or in an internal surface disposed in a cabin area of the vehicle, and ii) operatively connected to the solar panel. The thermoelectric unit is configured to heat and/or cool the internal surface in response to electric current applied thereto from the solar panel. The system further includes a control unit operatively associated with the thermoelectric unit. The control unit is configured to determine the amount and direction of the electric current to be applied to the thermoelectric unit based on i) a measured ambient temperature, ii) a measured temperature of the internal surface, and iii) a user-preferred reference temperature. | 11-25-2010 |
20100301642 | FLUIDIC CLIMATE CONTROL SYSTEM FOR A SEAT - A fluid-based or fluidic climate control system for a seat includes first and second portions positionable adjacent to first and second surfaces of the seat and a fluid control module (FCM) for circulating fluid in a closed-loop within the portions. The FCM delivers fluid to the portions at independently-controllable temperatures. An interface may be used to control the temperatures. The FCM may include a heat exchanger module (HEM) having a fan connected to an energy storage device (ESD). The FCM may include a miniature vapor compressor for circulating the fluid. A method of cooling a seat includes positioning first and second portions of the system adjacent to different surfaces of the seat, and using the FCM to circulate fluid within a closed-loop passage of the portions while independently controlling the temperature of the fluid, and thus the portions, using a user interface. | 12-02-2010 |
20100307176 | Water Cooled Condenser in a Vehicle HVAC System - An HVAC system for use in a vehicle. The HVAC system comprises an evaporator, a refrigerant compressor that receives a refrigerant from the evaporator and compresses the refrigerant, a condenser that receives the refrigerant from the compressor and has fins with air flowing through the fins to remove heat from a refrigerant flowing through the condenser, and an expansion device that receives the refrigerant from the condenser and directs the refrigerant to the evaporator. The HVAC system also comprises a water tank that receives and stores water, a water spray pump that receives water from the water tank, and a nozzle that receives water from the water spray pump and is located adjacent to the condenser, with the nozzle selectively spraying water on the fins of the condenser. | 12-09-2010 |
20110091750 | Temperature Control of a Vehicle Battery - The method for thermal management of a battery can include vehicle systems to control the thermal input to the battery and a dedicated battery thermal management system. The battery thermal management system includes transferring battery heat to coolant flowing in a circuit, if ambient air temperature is greater than the battery temperature, using an evaporator/chiller to transfer heat from the coolant to a refrigerant, using a condenser to transfer heat from the refrigerant to the coolant, and using a radiator to transfer heat from the coolant to ambient air; and if coolant can be maintained in the reference temperature range without using a heat source or refrigerant, using a radiator to transfer heat from the coolant to the ambient air. | 04-21-2011 |
20110251756 | Accessory load control systems and methods - An accessory load control system for a vehicle, includes an actuator control module, a period estimation module, and a load control module. The actuator control module operates an internal combustion engine of the vehicle in a high-efficiency (HE) mode. The period estimation module estimates a period between a current time and a future time when an actual load on a crankshaft of the engine will reach a maximum engine load associated with the HE mode. The load control module selectively decreases engine loads applied by vehicle accessories, respectively, based on the period. | 10-13-2011 |
20130037252 | SMART HVAC SYSTEM HAVING OCCUPANT DETECTION CAPABILITY - A smart HVAC system adapted for selectively regulating fluid flow into a space generally includes an HVAC system including at least one active vent, a preferably variable blower fluidly coupled thereto, and at least one sensor associated with each vent, wherein the sensor is operable to cause the associated vent to shift between opened and closed conditions, and/or preferably the blower output to change, when an occupant is autonomously detected within at least a portion of the space. | 02-14-2013 |