Some embodiments are directed to a deflector for use with a vehicle air intake system that directs air from a vehicle exterior to a vehicle interior. The deflector can include a base configured for attachment to a region of an interior wall of an air compartment adjacent a perimeter of a drain. The deflector can also include a barrier wall connected to the base and including an inner surface that is disposed over the drain when the base is attached to the interior wall of the air compartment. The barrier wall can be shaped to define a concavity between the drain and the inner surface. The barrier wall can define an air stream opening that is disposed to direct air traveling from the drain and through the concavity toward a section of the interior wall of the air compartment that opposes a shield.

Some embodiments are directed to a deflector for use with a vehicle air intake system that directs air from a vehicle exterior to a vehicle interior. The deflector can include a base configured for attachment to a region of an interior wall of an air compartment adjacent a perimeter of a drain. The deflector can also include a barrier wall connected to the base and including an inner surface that is disposed over the drain when the base is attached to the interior wall of the air compartment. The barrier wall can be shaped to define a concavity between the drain and the inner surface. The barrier wall can define an air stream opening that is disposed to direct air traveling from the drain and through the concavity toward a section of the interior wall of the air compartment that opposes a shield.

A windshield for a utility or off-road all terrain vehicle includes a plurality of slits through a bottom center of the windshield body. A slide plate with corresponding slits is slidably attached to the windshield body. The slide plate is formed of the same transparent or translucent material as the windshield body, but is not as thick and the windshield body and is not hardened. Fasteners are fixed to the windshield body and extend through slide slots in the slide plate, enabling a throw of the slide plate of at least the width of the slits. A spacer or seal strip is positioned between the windshield body and the slide plate.

A vehicular air conditioning system includes: an intake part including an intake door configured to open an outdoor air inlet to introduce an outdoor air in an outdoor air mode, open an indoor air inlet to introduce an indoor air in an indoor air mode, and control an opening degree of the outdoor air inlet or the indoor air inlet, and a blower configured to suck the indoor air or the outdoor air through the indoor air inlet or the outdoor air inlet and blow the indoor air or the outdoor air into a vehicle interior; and a control part configured to control a rotational speed of the blower according to an air flow rate level of the air conditioning system.

A leaf screen for an air intake of an HVAC system of a vehicle having a hood covering an engine compartment. The leaf screen includes a leaf screen body defining an air inlet opening covered by an integrally molded screen. A seal is integrally molded on a top surface of the leaf screen body in front of the air inlet opening. Bump-stops are integrally molded on the top surface that are engaged by an inner panel of the hood when closed. A method of making the leaf screen includes injecting a polymeric material into a mold to form a body portion. At least one elastomeric material is injected into the mold on one side of the body portion to form a seal and a plurality of bump-stops.

A leaf screen for an air intake of an HVAC system of a vehicle having a hood covering an engine compartment. The leaf screen includes a leaf screen body defining an air inlet opening covered by an integrally molded screen. A seal is integrally molded on a top surface of the leaf screen body in front of the air inlet opening. Bump-stops are integrally molded on the top surface that are engaged by an inner panel of the hood when closed. A method of making the leaf screen includes injecting a polymeric material into a mold to form a body portion. At least one elastomeric material is injected into the mold on one side of the body portion to form a seal and a plurality of bump-stops.

An air handling system for a heating, ventilation, and air conditioning system of a motor vehicle includes a conduit configured to convey air from the air handling system to a vent of the air handling system. A control door is rotatably disposed in the conduit. The control door selectively rotates between a first position and a second position. The first position blocks passage of the air flowing through the conduit. The second position blocks passage of the air flowing through a first portion of the conduit and allows the air to flow through a second portion of the conduit. A control feature is disposed in the second portion of the conduit to control at least one of a volumetric flow rate and a pressure of the air flowing through the second portion.

An air handling system for a heating, ventilation, and air conditioning system of a motor vehicle includes a conduit configured to convey air from the air handling system to a vent of the air handling system. A control door is rotatably disposed in the conduit. The control door selectively rotates between a first position and a second position. The first position blocks passage of the air flowing through the conduit. The second position blocks passage of the air flowing through a first portion of the conduit and allows the air to flow through a second portion of the conduit. A control feature is disposed in the second portion of the conduit to control at least one of a volumetric flow rate and a pressure of the air flowing through the second portion.

A fuel cell-equipped vehicle includes a fuel cell stack disposed in a front space of a vehicle body by a partition member, and an air conditioner disposed in a rear space of the vehicle body separated by the partition member, wherein external air is introduced into the air conditioner through an external air intake port formed at a portion of the partition member located on a first side with respect to a center in a vehicle width direction of the vehicle body, downstream end of the exhaust duct configured to discharge a reaction gas in the casing communicates with an outside of the vehicle body at a portion located on a second side with respect to the center in the vehicle width direction.

A fuel cell-equipped vehicle includes a fuel cell stack disposed in a front space of a vehicle body by a partition member, and an air conditioner disposed in a rear space of the vehicle body separated by the partition member, wherein external air is introduced into the air conditioner through an external air intake port formed at a portion of the partition member located on a first side with respect to a center in a vehicle width direction of the vehicle body, downstream end of the exhaust duct configured to discharge a reaction gas in the casing communicates with an outside of the vehicle body at a portion located on a second side with respect to the center in the vehicle width direction.