An air-conditioning unit for a vehicle has a case, a blower, a cooling heat exchanger and a heating heat exchanger. The cooling heat exchanger is located upstream of the blower inside the case. The heating heat exchanger is located downstream of the blower inside the case. The ventilation passage includes a before-heating passage extending from an air discharge port of the blower toward an air inlet of the heating heat exchanger. The before-heating passage includes, as a part of the before-heating passage, a flow-changing path that is curved to change a flow direction of the air discharged from the blower.

This vehicular air conditioning device includes: an evaporator; a heater core; a unit case including a cooling space configured to accommodate the evaporator, a heating space connected to the cooling space and configured to accommodate the heater core, an air mixing space connected to the cooling space and the heating space, and a foot outlet flow channel; an air mixing damper provided among the cooling space, the heating space, and the air mixing space, and configured to rotate between a maximum cooling position (Pc) and a maximum heating position (Ph) to adjust a ratio of air to be introduced into the air mixing space; and a foot switching damper capable of partitioning the air mixing space and the foot outlet flow channel. The air mixing damper includes a reheat preventing damper having a principal plane. The foot switching damper does not protrude further toward the air mixing space side than an imaginary plane including the principal plane.

An air conditioner includes a blower device and a heat-exchange device. The blower device has a centrifugal fan and a first casing provided with an intake opening and a discharge opening. The heat-exchange device has a long heater element and a second casing provided with an introduction opening and an ejection opening. The second casing is configured such that a flow of air introduced into the interior of the second casing via the introduction opening spreads out in the lengthwise direction of the heater element.

A vehicle HVAC system may include a housing, a blower disposed in the housing to blow air, an evaporator core disposed in the housing to cool the air having passed through the blower, a heater core disposed in the housing to increase a temperature of the air having passed through the evaporator core, a temperature door assembly including a pair of slidable temperature door plates to control the air having passed through the blower, and a mode door assembly including a slidable mode door plate to control a vent outlet and a floor outlet such that one thereof is closed, or to control air to be discharged through the vent outlet and the floor outlet.

An air conditioning module, which can perform cooling and heating through a single module, which is capable of being compact-sized, which can prevent problems caused by condensate water because the condensate water can be easily discharged out, and which can control all of two doors for heating and cooling by actuating means.

This vehicular air conditioning device includes: an evaporator; a heater core; a unit case including a cooling space configured to accommodate the evaporator, a heating space connected to the cooling space and configured to accommodate the heater core, an air mixing space connected to the cooling space and the heating space, and a foot outlet flow channel; an air mixing damper provided among the cooling space, the heating space, and the air mixing space, and configured to rotate between a maximum cooling position (Pc) and a maximum heating position (Ph) to adjust a ratio of air to be introduced into the air mixing space; and a foot switching damper capable of partitioning the air mixing space and the foot outlet flow channel. The air mixing damper includes a reheat preventing damper having a principal plane. The foot switching damper does not protrude further toward the air mixing space side than an imaginary plane including the principal plane.

Systems for a vehicle air duct including a passage, the passage including an inlet at a downstream portion of a front wheel well of the vehicle and an outlet upstream of a rear wheel well of the vehicle.

Systems for a vehicle air duct including a passage, the passage including an inlet at a downstream portion of a front wheel well of the vehicle and an outlet upstream of a rear wheel well of the vehicle.

An air conditioning unit for a vehicle includes: a heat exchanger arranged in an engine compartment partitioned by a fire wall from a cabin; a first case arranged in the engine compartment to house the heat exchanger; and a second case arranged in the cabin to send air from the heat exchanger into the cabin. The fire wall has: a through hole passing through the fire wall so as to connect the first case and the second; and an air passage hole that defines an air passage to send air from the cabin into the engine compartment. The heat exchanger is arranged so that an entire area of the air passage hole is located inside a projection area defined by projecting the heat exchanger from a front to a rear of the vehicle.

In an air conditioner system for a mobility device, some inside air communicates with an outdoor heat exchanger when outside air for indoor ventilation is introduced, thereby improving heat pump performance. That is, by allowing indoor cold air to communicate with the outdoor heat exchanger upon mixing the inside and outside air during indoor cooling and allowing indoor warm air to communicate with the outdoor heat exchanger upon mixing the inside and outside air during indoor heating, it is possible to increase the heat pump efficiency as the outdoor heat exchanger recovers the heat of the indoor air during indoor cooling and heating. In addition, introduced is an air conditioner system for a mobility device in which a structure is simplified as inside air may be selectively transmitted to an outdoor heat exchanger side only by applying a flow path structure and a valve.