A vehicle cockpit module assembled to a front area of the interior of a vehicle, the vehicle cockpit module including a main module composed of a driver module corresponding to a driver seat and a center module disposed at a center of the vehicle, and comprising vehicle control parts, driver seat convenience parts, and driver seat safety parts, and a side module configured to be assembled to or separated from a side of the main module corresponding to a front passenger seat, and comprising front passenger seat convenience parts and front passenger seat safety parts, wherein the side module is configured to be connected to a front part of a vehicle body and a side end of the main module when assembled, and a space in which the side module previously existed is utilized as a storage space, in response to the side module being separated.

The invention relates to a heating, ventilation and/or air conditioning device (10) for a motor vehicle, comprising a housing (12) defining an air duct (11) for the passage of an airflow comprising—an inlet module (8), comprising at least one air inlet (15, 16), an air filter (70) being arranged within the inlet module (8), and—a distribution module (9) comprising at least one air outlet (27, 29, 30), the inlet module (8) and the distribution module (9) being detachably assembled to one another; according to the invention, the inlet module (8) is configured to be arranged in a first area of the vehicle, and the distribution module (9) is configured to be arranged in a second area of the vehicle, the air filter (70) being able to be removed from the second area of the vehicle. The invention also relates to a motor vehicle comprising such a device.

An inlet subassembly for a heating, ventilation, and air conditioning (HVAC) system. The inlet subassembly includes a divider defining a first airflow path and a second airflow path on opposite sides of the divider. The first airflow path extends from a first side of the recirculation air inlet and a first side of the fresh air inlet. The second airflow path extends from a second side of the recirculation air inlet and a second side of the fresh air inlet. A first inlet door is movable to control airflow into the first airflow path from the first side of the recirculation air inlet or the first side of the fresh air inlet. A second inlet door is movable to control airflow into the second airflow path from the second side of the recirculation air inlet or the second side of the fresh air inlet.

The present invention relates to an air conditioner for a vehicle, which can send air-conditioned air toward a rear seat of the vehicle in order to perform air-conditioning of a front seat of the vehicle and air-conditioning of a rear seat. The air conditioner includes an air passageway formed in an air-conditioning case, wherein the air passageway includes: a rear seat cold air passageway which is a passageway that the air passed through the heat exchanger for cooling bypasses the heat exchanger for heating and flows toward a rear seat of the vehicle; and a warm air passageway which is a passageway that the air passed through the heat exchanger for cooling passes through the heat exchanger for heating and flows toward a front seat or the rear seat of the vehicle. The air conditioner includes a rear seat temperature adjusting door for controlling an amount of air flowing from the warm air passageway to the rear seat air outlet and an amount of air flowing from the rear seat cold air passageway to the rear seat air outlet.

An adaptive air conditioning system, a method for the system, and a carrier equipped with the system are disclosed. The carrier includes at least one adaptive air conditioning system. The carrier has a body, which includes at least one cabin defining a compartment for accommodating transported objects, such as passengers or cargos. The adaptive air conditioning system includes data collecting apparatus, temperature control apparatus, and a microcontroller. The temperature control apparatus includes a liquid circulation unit, an air circulation unit, and a control switch. With the adaptive air conditioning system, the air and internal installation in the compartment can be controlled at a predetermined temperature more promptly, efficiently, uniformly, and flexibly, thus increasing comfort level for the passengers or meeting the temperature requirements for the cargos.

An air outlet apparatus for an interior of a motor vehicle includes a first ventilation gap and a second ventilation gap, which are spaced apart from each other, a decorative element, which is coupled to a fitting covering for the motor vehicle and arranged between the first and the second ventilation gap, and a control unit, which is coupled to the decorative element and has a first regulating element and a second regulating element. An intensity of an air flow through at least one of the ventilation gaps and, by way of the second regulating element, an alignment of the air flow through at least one of the ventilation gaps can be adjusted independently of each other.

The present invention relates to an air conditioner for a vehicle, and more particularly, to an air conditioner for a vehicle in which heating performance may be improved using an auxiliary heating heat exchanger and stability of a passenger may be improved by providing the auxiliary heating heat exchanger in an engine room.

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.

To increase the stiffness of a floor panel while maintaining a large foot space for a rear-seat passenger. A vehicle-body structure includes a floor panel constituting a floor provided with front-row and rear-row seats, and a center frame disposed to be higher than and away from the floor panel at a vehicle-width-direction central portion and extending in a vehicle front-rear direction. A recessed portion having a bottom surface on which the feet of a passenger sitting on the rear-row seat can be placed is formed at the floor panel. The floor panel includes a cross member extending in a vehicle width direction at a rear portion of the recessed portion. A rear portion of the center frame is connected to the cross member.

An HVAC system for a power machine can include a housing configured to be supported on a front frame member of the power machine forward of an operator enclosure. A ductwork section can be connected to the housing and direct air from the housing to a front opening in the operator enclosure.