Patent application number | Description | Published |
20080202134 | Algorithm for activation of directed relief system from vehicle accelerometers during crash - A method of venting a refrigerant from an air conditioning system of a vehicle during a crash to mitigate leakage of the refrigerant into a cabin of the vehicle by crashing a test vehicle under a first set of predetermined conditions a number of crash events and measuring deceleration and determining the existence of leakage. The number of crash events in which leakage existed is divided by the number of crash events to establish a probability of leakage ratio. The test vehicle is crashed under a second set of predetermined conditions to determine a second probability of leakage ratio. A probability of leakage relationship is established correlating the probability of leakage ratios and the predetermined conditions. A deceleration relationship is established correlating the deceleration measurements and the predetermined conditions. A deceleration of the vehicle is sensed to determine a probability of leakage from the probability of leakage relationship and the refrigerant is vented in response to the probability of leakage exceeding a predetermined threshold. | 08-28-2008 |
20090102250 | Evaporatively pre-cooled seat assembly - An evaporatively pre-cooled seat assembly comprising a seat cushion, an auxiliary cooler, and an evaporative cooler. The evaporative cooler includes a plurality of parallel tubular dry channels and a plurality of tubular wet channels. The dry channels and wet channels are arranged such that they alternate from dry channel to wet channel from channel to channel. Each of the channels is defined by two parallel side walls, a top, and a bottom. A first plurality of dry channels defines a plurality of apertures in the side walls thereof for conveying air out of the respective dry channel and into an adjacent wet channel. A second plurality of dry channels alternates with the first plurality and is disposed between two wet channels and defines a plurality of cooler apertures in the tops thereof for conveying cooled air out of the second plurality of alternating dry channels and to the auxiliary cooler. | 04-23-2009 |
20090229785 | Individual HVAC climate control seats - An automotive vehicle includes a seat assembly with one or more seat outlets for exhausting conditioned air to an occupant seat therein. A HVAC assembly operates in a warm-up mode and a cool-down for generating heated and cooled air to achieve a predetermined air temperature. An air selection module controls airflow from the HVAC assembly to air ducts for delivering air from the air selection module to the seat assembly. At least one seat valve moveable between open and closed positions controls air flow from the air selection module to one or more seat ducts. A purge valve moveable between open and closed positions vents air from the air selection module. The vehicle further includes a control system for closing the purge valve and opening at least one seat valve in response to the air temperature of the air from the HVAC assembly being at least the predetermined air temperature. | 09-17-2009 |
20100018246 | INTERNAL HEAT EXCHANGER ASSEMBLY - An internal heat exchanger assembly for an air conditioning system, having a housing defining a cylindrical with opposing ends. The ends are sealed with end caps having inlets/outlets. A helical coil tube is coaxially disposed within the cylindrical cavity, in which the helical coil includes two tube ends extending in opposing directions and exiting the cylindrical cavity through tube ports provided in the end caps. A twisted elongated strip is coaxially disposed within the cylindrical cavity extending from the first end to the second end. The twisted elongated strip includes a plurality of radially extending fingers adapted to engage the helical coil to maintain the helical coil in a predetermined position. | 01-28-2010 |
20110289959 | AIR CONDITIONING SYSTEM HAVING AN IMPROVED INTERNAL HEAT EXCHANGER - An air conditioning system having an improved internal heat exchanger (IHX) assembly. The IHX assembly includes an elongated cavity for low pressure refrigerant flow from an evaporator and an interior tube disposed within the cavity for high pressure refrigerant flow from a condenser, and a pressure equalization passage between the low and high pressure sides. The passage is large enough to allow pressures to equalize between the condenser and evaporator while the air conditioning system is inactive, so as to prevent the pressure differential that would otherwise enable the loss of refrigerant oil from the compressor, and small enough not to effect the operation of the air conditioning system. The pressure equalization passage may be a by-pass valve assembly having a reed portion that is normally open when the air conditioning system is inactive and closed when the air conditioning system is active for maximum cooling efficiency. | 12-01-2011 |
20120210746 | PLATE-TYPE HEAT PUMP AIR CONDITIONER HEAT EXCHANGER FOR A UNITARY HEAT PUMP AIR CONDITIONER - A plate-type heat exchanger having a first heat exchanger portion configured to receive a refrigerant flow and a hot side coolant flow having a lower temperature than the refrigerant flow, a second heat exchanger portion configured to receive the refrigerant flow exiting from the first heat exchanger portion and a cold side coolant flow having a higher temperature than the refrigerant flow exiting from the first heat exchanger portion, and an internal heat exchanger portion sandwiched between the first heat exchanger portion and the second heat exchanger portion. The refrigerant flow through the plate type heat exchanger is in non-contact thermal communication with the hot side coolant flow and the cold side coolant flow. The cold side coolant flow transfers heat energy to the refrigerant, which in turn transfer that heat energy to the hot side coolant flow. | 08-23-2012 |
20120266608 | THERMOELECTRIC HEAT EXCHANGER CAPABLE OF PROVIDING TWO DIFFERENT DISCHARGE TEMPERATURES - A thermoelectric heat exchanger and a thermoelectric heating, ventilation and air conditioning system (HVAC) configured to provide a cooled fluid or air stream and a heated fluid or air stream. The thermoelectric heat exchanger may include a plurality thermoelectric devices (TEDs), also known as thermoelectric coolers (TECs) or Peltier coolers, in thermal communication. The thermoelectric devices may be arranged in a three dimensional array to provide compact packaging for the thermoelectric heat exchanger assembly. The thermoelectric heat exchanger may be configured to transfer thermal energy between a first thermoelectric device and a second thermoelectric device via evaporation and condensation of a working fluid or refrigerant contained within the thermoelectric heat exchanger. | 10-25-2012 |
20130248166 | PHASE CHANGE MATERIAL EVAPORATOR CHARGING CONTROL - An evaporator has a manifold and a plurality of refrigerant tubes extending downward in the direction of gravity from the manifold. The evaporator includes at least one PCM housing engaging the upper portion of the refrigerant tube for storing a phase change material. When operating in a first operating mode, heat is transferred from the phase change material to the refrigerant to freeze and cool the phase change material. When operating in a second operating mode, heat is transferred from the refrigerant to the frozen phase change material to condense the refrigerant. The condensed refrigerant falls downwardly through the tubes and receives heat from a flow of air to cool the air and evaporate the refrigerant. The evaporated refrigerant rises upwardly back to the low pressure of the cold manifold. | 09-26-2013 |
20140284033 | HEAT EXCHANGER - A heat exchanger includes a stack of heat exchanger plate pairs that each define an internal volume and include an inlet and an outlet such that a first medium flows from the inlet to the outlet along a flow axis. The inlets together form an inlet header through the heat exchanger plate pairs and the outlets together form an outlet header through the heat exchanger plate pairs. The heat exchanger also includes an array of fins disposed between and in thermal contact with adjacent heat exchanger plate pairs. The array of fins defines flow channels between the adjacent heat exchanger plate pairs such that a second medium flows through the flow channels along the flow axis. One end of the array of fins includes a cut-out area which causes a first portion of the array of fins to be positioned laterally from either the inlet header or the outlet header. | 09-25-2014 |