Novelty customized themed covers and shrouds for rooftop AC units on recreational vehicles which may have forward sloping aerodynamic front ends, two sides having air vents as necessary and a rear end having air exhaust openings. The themes may include without limitation various sport themes, such as racing, football, baseball or other sports, as well as advertising vehicles or any other desired theme.

Provided is a damper opening/closing mechanism of a vehicle air-conditioning device, the damper opening/closing mechanism being configured such that a pin (28) of a damper lever (26) is fitted in a cam groove (24) of a link plate (22) rotatably driven by a stepping motor and that a damper (19) is opened/closed through the damper lever (26) rotated by rotation of the link plate (22). One end portion of the cam groove (24) for reference positioning of the stepping motor is in such a shape that a connection surface (32) not contacting an outer peripheral surface of the pin (28) connects between the point of contact of the outer periphery of the pin (28) with one end surface of the cam groove (24) and the point with a side wall surface (24A) of the cam groove (24) when the damper (19) is in a closed state.

The invention relates to an air conditioning system for conditioning the air of a passenger space of a motor vehicle, the system including a refrigerant circuit with a compressor, a first heat exchanger for the heat exchange between the refrigerant and the environment and a second heat exchanger for supplying heat from the refrigerant to the air supply to be conditioned for the passenger space. The refrigerant circuit further includes, in the flow direction of the refrigerant after the compressor, a valve arrangement. The valve arrangement comprises a branch, a first valve arranged between the branch and the second heat exchanger, and a second valve arranged between the branch and the first heat exchanger. The first valve is designed with a normally open (NO) valve characteristic and the second valve with a normally closed (NC) valve characteristic.

Air conditioning system for multi-zone air conditioning of a motor vehicle interior comprising a casing with a mixing chamber and several zone outlets outgoing from mixing chamber, in which an evaporator and at least one heat exchanger are disposed such that main air flow from evaporator through at least one heat exchanger into zone outlets is linear and at least two bypass channels, each comprising a louver, in order to circumvent at least one heat exchanger connect a region downstream of evaporator and a region downstream of at least one heat exchanger, wherein the first bypass channel, as a mixing bypass channel, opens out into mixing chamber and the second bypass channel, as a stratification bypass channel, opens out into a zone outlet.

Improved thermal energy storage materials, devices and systems employing the same and related methods. The thermal energy storage material may be employed in a heater module capable of generating and storing heat. The thermal energy storage materials may include a phase change material that includes a metal-containing compound. The thermal energy storage materials may be encapsulated. Preferably the heater module includes an electric heater and/or a fan.

When at least one of a first condition that a set compressor rotational speed is equal to or less than a compressor rotational speed limit set in advance based on a predetermined noise regulation value and a second condition that a set fan rotational speed is equal to or less than a fan rotational speed limit set in advance based on the predetermined noise regulation value is not satisfied, a cooling device sets a corrected compressor rotational speed such that noise generated with actuation of a compressor and a fan reaches the predetermined noise regulation value or less, and sets a corrected fan rotational speed based on the corrected compressor rotational speed. The cooling device sets a lower value of the corrected fan rotational speed for a higher corrected compressor rotational speed.

A vehicle air conditioning system includes: a dehumidifying device; a power source; an inflow pipe for allowing air from a vehicle interior or a vehicle exterior to flow into the dehumidifying device; a first outflow pipe for returning the air that has been dehumidified by the dehumidifying device to the vehicle interior; a second outflow pipe through which the air containing moisture released by a regeneration process of the dehumidifying device is circulated; and a switching valve provided at a branch portion between the first outflow pipe and the second outflow pipe, the switching valve being capable of switching the flow of the air to the first outflow pipe or the second outflow pipe. A steam trap is provided in the second outflow pipe. The second outflow pipe merges with the first outflow pipe on a downstream side of the steam trap.

A system for an electric vehicle includes: a first heat sink including a cooling pipe extending in an axial direction; a housing including a port to receive the cooling pipe, the port including an alignment feature; and a second heat sink between the first heat sink and the housing, the second heat sink including an opening to cooperate with the alignment feature of the port to align the second heat sink with the housing.

An air-guiding device (7) can be arranged in a wheel house of a motor vehicle and has a plurality of slats (12). Each slat (12) has at least one first region (11.1, 11.3) with a first profile and at least one second region (11.2, 11.4) with a second profile. The respective profile of the respective region (11) of the respective slat (12) is matched to the respective flow conditions present by a respective shaping and a respective angle of attack. Therefore an air stream approaching the slats (12) has to overcome a reduced aerodynamic drag when passing through the respective slats (12).

The invention relates to an electric fan set, notably for a motor vehicle heating, ventilation and/or air conditioning installation, comprising: a motor, a motor support (11), and a control module support (23) forming a bearing support for the motor.

According to the invention, the motor support (11) and the control module support (23) each comprise at least one fixing zone, the fixing zones being able to cooperate with one another for the assembly of the motor support (11) with the control module support (23), according to at least two different positions of the motor support (11) relative to the control module support (23).