A vehicle instrument panel structure is provided including a blower outlet and a guide member. The blower outlet is provided between a meter section on an instrument panel provided at a front section of a vehicle cabin and an interior member of a vehicle door, and is capable of blowing an airflow substantially toward a vehicle rear side. The guide member is provided at the vehicle rear side of the blower outlet so as to block the blower outlet from view of an occupant sitting in a vehicle seat provided inside the vehicle cabin, and extends at an angle toward the vehicle rear side on progression from a location corresponding to the blower outlet toward a vehicle width direction outer side.

Embodiments and examples are disclosed for placement configurations of HVAC units for electric vehicles. For one embodiment, a vehicle includes a front compartment, a cabin compartment, a vehicle body, and a HVAC unit. The front compartment is at a front end of the vehicle. The cabin compartment is at a center of the vehicle to contain passengers. The body of the vehicle contains a dashwall separating the front compartment from the cabin compartment. The heat ventilation air conditioning (HVAC) unit is situated in the front compartment, separated from the cabin compartment by the dashwall, where the HVAC unit provides heat, ventilation, and air conditioning to the user in the cabin compartment.

Provided is an instrument panel structure including: a lower panel portion that is provided with an air-conditioning device at an interior thereof, the lower panel portion having, in a vehicle upper portion thereof, a placement surface portion that extends in a vehicle width direction and a vehicle front-rear direction, and having an open portion, for the air-conditioning device, that opens toward a side of the placement surface portion; an upper panel portion that covers the placement surface portion as seen from a vehicle upper side and that is placed on the placement surface portion; and a slit-shaped air outlet portion that is formed between the lower panel portion and the upper panel portion, that extends in the vehicle width direction while facing a seat side, and that communicates the open portion with a vehicle cabin.

A holder for an interior trim part, in particular for covering the passenger compartment of a motor vehicle, has at least one supply line for guiding a temperature-controllable, liquid or gaseous fluid, to an outlet via which the fluid can emerge from the supply line, and an inlet via which the fluid can enter a discharge line. An interior trim part can be arranged on the holder in such a manner that the outlet of the holder is fluidically connected to an inlet of the interior trim part, and the inlet of the discharge line of the holder is fluidically connected to an outlet of the interior trim part.

The present invention relates to a vehicle cockpit module assembly in which a center speaker is seated, and the vehicle cockpit module assembly includes a cowl crossbar assembly fixed to a side portion and a dash panel in a vehicle body, a duct connecting part integrally coupled to the cowl crossbar assembly, an air conditioning module coupled to the duct connecting part to supply external air to the duct connecting part, a defrost duct coupled to an upper portion of the duct connecting part, and a connection duct having a center duct coupled to a front surface of the duct connecting part and a side duct coupled to each of both side portions of the duct connecting part.

A unitary defroster system for a motor vehicle windshield comprises an instrument panel substrate, an HVAC supply source, and an air supply plenum in fluid communication with the HVAC supply source and terminating in a plurality of individually configured defroster nozzle ducts conjoined with the instrument panel substrate and aligned in a substantially linear row parallel to and proximate an interior surface of the windshield. The unitary defroster system is formed by an additive manufacturing process and at least two of the ducts are configured and arranged to deliver a different air flow to the interior surface of the windshield.

An air-conditioning register includes an operation knob. The operation knob includes a knob body and a cap with its downstream end portion closed by a lens. The cap is made of a material softer than those of the knob body and the lens. The inner circumferential portion of the upstream end portion of the cap is pressed against the outer circumferential portion of the knob body with at least a part engaged with the outer circumferential portion of the knob body by a projection-recess relationship. The inner circumferential portion of the downstream end portion of the cap is pressed against the outer circumferential portion of the lens with at least a part engaged with the outer circumferential portion of the lens by a projection-recess relationship.

An air-guiding device for an interior of a motor vehicle includes a housing forming a cavity, slats accommodated in the cavity, and an outlet opening. The slats are formed pivotably in a direction of a body transverse axis and configured to deflect an air flow in the direction of the body transverse axis. The outlet opening enables the air flow to flow into the interior of the motor vehicle. The slats are arranged upstream of the outlet opening and spaced apart, for non-visibility, from the outlet opening in a direction of a body longitudinal axis. A central web is arranged in the cavity. The central web is configured to deflect the air flow in a direction of a motor vehicle vertical axis, and the central web divides the cavity in the direction of the motor vehicle vertical axis into a first flow duct and a second flow duct.

An assembly facilitating installation of a steering column on an original passenger's side of a truck cab includes an aftermarket dash panel having a steering column opening configured to be located on the original passenger's side of the truck cab and an HVAC access opening configured to be located on an original driver's side of the truck cab. A first bracket has a forward portion for connection to original HVAC ductwork of the truck cab and has a rearward portion for connection to the aftermarket dash panel. The aftermarket dash panel comprises a single piece that extends from a left side of the truck cab to a right side of the truck cab. A method for moving a steering column of a truck cab from an original driver's side of the truck cab to an original passenger's side of the truck cab is also described.

A cross-car beam is provided herein. The cross-car beam includes a composite elongated panel extending across a vehicle. A bracket is operably coupled with an elongated panel. An attachment feature and a cowl attachment structure are each integrally formed with the bracket and are disposed at opposing end portions of the bracket.