Patent application number | Description | Published |
20110120146 | Air Conditioner for vehicle - An air conditioner for a vehicle includes first and second heating heat exchangers disposed to heat air by using a cooling fluid for cooling an engine as a heat source, a heater disposed to heat the cooling fluid flowing to the second heating heat exchanger, and a controller that outputs an operation request signal to the engine when a temperature of the cooling fluid is lower than a predetermined temperature. The first and second heating heat exchangers are arranged in parallel with respect to a flow direction of the cooling fluid. In the air conditioner, the controller controls a flow amount of the cooling fluid flowing into the second heating heat exchanger to be, smaller than a flow amount of the cooling fluid flowing into the first heating heat exchanger when the heater heats the cooling fluid flowing to the second heating heat exchanger. | 05-26-2011 |
20110284202 | Vehicle air conditioner - A vehicle air conditioner includes a heating heat exchanger, a first temperature adjustment mechanism for adjusting a temperature of air to be blown toward a driver's seat side in a vehicle compartment, and a second temperature adjustment mechanism for adjusting a temperature of air to be blown toward a front-passenger's seat side in the vehicle compartment. In the vehicle air conditioner, the first and second temperature adjustment mechanisms are controlled to perform a one-seat priority mode control such that the temperature of air to be blown toward the front-passenger's seat side is lower than the temperature of air to be blown toward the driver's seat side, when only the driver is in the vehicle compartment and the heating condition is determined as the air conditioning state. | 11-24-2011 |
20120061365 | Radiation heating system for vehicle - A radiation heating system for a vehicle includes a heating device and an exterior member. The heating device serves as a heat source and is for generating radiation heat to warm up an interior of the vehicle. The exterior member is disposed on a vehicle interior-side of the heating device. Given that: thermal transmittance of the exterior member is K′ [W/(m | 03-15-2012 |
20120102974 | Air conditioner for vehicle - In a vehicle air conditioner, a heating heat exchanger is disposed in an air passage of a casing to heat air to be blown toward a vehicle compartment by performing heat exchange between air and a heating fluid, a heat radiation portion is disposed to radiate heat to the heating fluid before being heat-exchanged in the heating heat exchanger, a heat absorption portion is disposed to absorb heat from the heating fluid after being heat-exchanged in the heating heat exchanger, and a Peltier element is disposed between the heat radiation portion and the heat absorption portion to pump heat from the heat absorption portion to the heat radiation portion. Furthermore, the heat radiation portion is disposed in the air passage of the casing, in which the heating heat exchanger is disposed. Thus, heat discharged from the Peltier element can be effectively used. | 05-03-2012 |
20120129439 | AIR CONDITIONING SYSTEM FOR VEHICLE - An air conditioning system for a vehicle includes a seat part having a seating surface and an air flow passage, an air conditioning unit, and a blower. The passage includes a suction port on the seating surface and an air outlet at a region of the seat part other than the seating surface. The unit includes a face air outlet and a lower air outlet through which conditioned air from the unit is blown out toward the seating surface. The blower forms a flow of air in the passage from the suction port toward the air outlet. At time of cooling vehicle interior by the unit, the conditioned air blown out of the lower outlet is suctioned from the seating surface, and air that has passed through the passage is blown out of the region of the seat part other than the seating surface. | 05-24-2012 |
20120142264 | AIR CONDITIONER FOR VEHICLE - A vehicle air conditioner includes a blower for blowing air into a space of a vehicle compartment, and an air-conditioning mode switching portion for switching between air conditioning modes. The air conditioning modes include a normal air conditioning mode in which air conditioning of a specific region including a driver seat and air conditioning of a non-specific region not including the specific region in the space of the vehicle compartment are performed, and a specific-region prioritizing air conditioning mode in which an air conditioning capability for the non-specific region is decreased as compared to the normal air conditioning mode. The air-conditioning mode switching portion adjusts the air conditioning capability for the non-specific region based on a pressure of air drawn into the blower, in the specific-region prioritizing air conditioning mode. | 06-07-2012 |
20120240607 | AIR CONDITIONER FOR VEHICLE - A vehicle air conditioner includes a cooling heat exchanger arranged in a casing, a compressor control portion which controls a compressor such that a cooling temperature at the cooling heat exchanger approaches a target cooling temperature, and a dryness determination portion which determines whether an outer surface of the cooing heat exchanger is dry or not based on a humidity in the casing. A target temperature determination portion determines the target cooling temperature to be any one of target temperatures including a first target temperature that is lower than a dew-point temperature in the casing, when the dryness determination portion determines that the cooling heat exchanger is not dry. The target temperature determination portion determines the target cooling temperature to be any one of the target temperatures other than the first target temperature, when the dryness determination portion determines that the cooling heat exchanger is dry. | 09-27-2012 |
20120267354 | RADIANT HEATING SYSTEM FOR VEHICULAR USE - A radiant heating system for vehicular use which is attached to an interior member of a passenger compartment, has a heating means for generating radiant heat, a protective member which is arranged at a passenger compartment side from the heating means and which prevents a driver from contacting the heating means, and supporting members which support the protective member, wherein the front surface of the protective member is provided with a plurality of projecting members, the supporting members are provided so as to form an air space at an opposite side of the protective member from the compartment side, the protective member flexes when the driver pushes against one of the projecting members, projecting members which adjoin the pushed member tilt to the pushed member side, and the distances between the front ends of the pushed projecting member and the adjoining projecting members become smaller. | 10-25-2012 |
20130059522 | AIR CONDITIONER FOR VEHICLE - An air conditioner for a vehicle includes an electric heater arranged downstream of a heat exchanger in an air flow direction, a defroster air outlet, a driver-foot air outlet through which air is blown toward a foot area of a driver, a knee air outlet through which air is blown toward a knee area of the driver, a door device which controls an air amount blown into a vehicle compartment by opening or closing the air outlets. When an immediate heating operation is performed by an operation of an immediate heating switch, the door device opens the defroster air outlet and at least one of the driver-foot air outlet and the knee air outlet, and the electric heater heats a total amount of air that is to be blown through the at least one of the driver-foot air outlet and the knee air outlet. | 03-07-2013 |
20140165838 | AIR CONDITIONING SYSTEM - As a permeable membrane of an air conditioning system that performs as supply to a space to be air conditioned through the permeable membrane and/or gas discharge from the space to be air conditioned through the permeable membrane, an asymmetric membrane is used. The asymmetric membrane is made of a cyclic olefin addition polymer obtained by addition polymerization of a cyclic olefin functionality siloxane, or by addition polymerization of the cyclic olefin functionality siloxane and a cyclic olefin compound, and in which a rate of a structural unit derived from the cyclic olefin functionality siloxane is 5 to 100 mol % of the addition polymer, and a number average molecular weight (Mn) is 10,000 to 2,000,000 in terms of polystyrene conversion measured by a GPC using tetrahydrofuran as a solvent. | 06-19-2014 |