According to the disclosed air conditioner with a pipe support, both a seat member and a holder member are provided by a base portion and a cover portion. The seat member is provided by the base end portion and the cover end portion. The holder member is provided by the base depression portion and the cover depression portion. The holder member is positioned behind the seat member and supports the end pipes. The base portion and the cover portion are connected by a connecting mechanism. Behind the seat member, the holder member supports the end pipes, so that the end pipes are held stably.

A vehicle air conditioner installed in a vehicle includes: an evaporator that causes heat exchange between air in an interior of a passenger compartment and a coolant; a condenser that causes heat exchange between the coolant and outside air; a spray nozzle that sprays water to a portion near the condenser; a rainwater collection port that is formed in a top surface of the vehicle and receives rainwater; and a water tank that stores, as the water to be sprayed by the spray nozzle, condensed water generated in the evaporator and the rainwater received through the rainwater collection port.

A vehicle air conditioner installed in a vehicle includes: an evaporator that is provided on a ceiling of the vehicle and causes heat exchange between air in an interior of a passenger compartment and a coolant; a condenser that causes heat exchange between the coolant and outside air; a spray nozzle that sprays water to a portion near the condenser; a water tank that is provided in a lower portion of the vehicle and stores the water to be sprayed; and a drain hose that guides condensed water generated in the evaporator to the water tank. The drain hose is provided through a pillar.

The invention pertains to a connecting element (1) for connecting a pipe end (2) to a component (3) of an air-conditioning system, wherein said connecting element comprises a base body (4) with a passage opening (5) for conveying through a refrigerant, a receptacle bore (6) for receiving the pipe end (2), wherein the receptacle bore (6) is arranged on a face side (7) of the base body (4) and corresponds to the passage bore (5), as well as a connection piece (8) that is arranged on the other face side (9) of the base body (4) and corresponds to the passage bore (5) on this side, wherein the connection piece (8) and the base body (4) consist of the same material and are realized in one piece, wherein at least one sealing element (12, 13) is arranged on the connection piece (8), and wherein the sealing element (12, 13) and the connection piece (8) are realized in one piece, as well as to a method for manufacturing such a connecting element.

An integrated thermal management module for a vehicle may include a chiller; a first reservoir portion through which electric part-cooling water passes, and a second reservoir portion through which high-voltage battery-cooling water passes; a first pump that circulates the electric part-cooling water through an electric portion, and a first valve that controls cooling water that has passed through the chiller or cooling water of the first reservoir portion to be selectively circulated through the electric portion by the first pump; and a second pump that circulates the high-voltage battery-cooling water through a high-voltage battery, and a second valve that controls the cooling water that has passed through the chiller or cooling water of the second reservoir portion to be selectively circulated through the high-voltage battery by the second pump.

The present invention relates to an air conditioner for a vehicle can enhance sealing performance and is resistant to noise and vibration, and prevent penetration of water into the interior of the vehicle by inducing water introduced into a seal into an air-conditioning case by a pressure difference. The air conditioner for a vehicle, which has a structure that a pipe of a heat exchanger penetrates through a dash panel (150) of the vehicle, includes: a bracket (140) for inserting and fixing the pipe; and a seal (160) for fixing the bracket (140) between an air-conditioning case and the seal to get in contact with the air-conditioning case.

A double-pipe heat exchanger including a heat exchange pipe and an integrated connector. The heat exchange pipe may include an inner pipe forming a first flow path, and an outer pipe accommodating the inner pipe therein and forming a second flow path outside the inner pipe. The integrated connector may include a main body including, at one side thereof, a heat exchange pipe engaging part with which one end of the heat exchange pipe is combined, a first connector flow path portion formed to be connected to the first flow path and discharging a first fluid flowing from the first flow path to an outside of the main body, and a second connector flow path portion formed to be connected to the second flow path and supplying a second fluid from the outside of the main body to the second flow path.

A heat pump system for a vehicle may heat or cool a battery module by use of a chiller in which a refrigerant and a coolant are heat-exchanged, and may improve heating efficiency by use of another chiller that recovers waste heat of electrical equipment.

A vehicle air conditioner includes an air-conditioning case having a drain hole through which an air passage communicates with an outside of a vehicle compartment, a heat exchanger disposed inside the air passage, and a seal member. The seal member is held between a dash panel and a seal wall of the air-conditioning case. The seal member has a through hole, and closes a through hole of the dash panel. The vehicle air conditioner includes a refrigerant pipe and a pressure reducing valve. The first case part and the second case part are fitted with each other in a fitting part below which, in the vertical direction, the air-conditioning case has a communication hole through which an outside of the air-conditioning case communicates with the air passage.

A vehicle air conditioner has a bypass pipe which passes a radiator, an outdoor expansion valve, and opening/closing valves. A controller is configured to execute a heating mode to open a first solenoid valve and close a second solenoid valve, and a dehumidifying and heating mode to close the first solenoid valve, open the second solenoid valve, let a refrigerant radiate heat in an outdoor heat exchanger, let the refrigerant absorb heat in a heat absorber, and generate heat in an auxiliary heater. When changing from the heating mode to the dehumidifying and heating mode, the controller sends the refrigerant to a receiver drier, controls a compressor to reduce a difference between pressures before and after the second solenoid valve, opens the second solenoid valve, closes the first solenoid valve, shuts off the outdoor expansion valve, and shifts the compressor to control in the dehumidifying and heating mode.