A gutter member has a flow path portion that receives the water dripping from a front windshield and flows the received water in the vehicle width direction and a drain portion that drains the water to a drain member on the inner side in the vehicle width direction of the flow path portion, in which at least a part of the flow path portion overlaps with the drain path in vehicle plan view, the gutter member has guide portions that guide the water dripping from the drain portion to the drain path, and the guide portions, include a cushioning material that absorbs an impact load at least in the vertical direction.

An inflator bracket includes an elongate body having a first end and a second end. The elongate body defines an aperture proximate to the first end. A hook extends from the first end. An absorption feature has a proximal end coupled to the elongate body proximate to the aperture. The absorption feature defines a curve between the proximal end and a distal end. The distal end is spaced from the elongate body and the aperture.

The disclosure provides an instrument panel structure of a vehicle, which is connected to a steering device of the vehicle and configured to mount an in-vehicle device. The instrument panel structure of the vehicle includes an the instrument panel, a hanger beam member, and a bracket. The instrument panel has an instrument panel upper portion, and an instrument panel middle portion located below the instrument panel upper portion and having an opening for placing the in-vehicle device. The hanger beam member is configured to support the instrument panel and extends in a left-right direction of the vehicle and is connected between a left side and a right side of a vehicle body. The bracket is disposed on the hanger beam member and configured to support the in-vehicle device. The in-vehicle device and the instrument panel middle portion are connected to the hanger beam member via the bracket.

A vehicle includes a steering column connected to a steering wheel, a column cover that covers the steering column, and an air duct that is disposed inside an instrument panel and passes in front of the column cover. Buckling strength of the air duct in a vehicle body front-rear direction in front of the steering wheel is lower than buckling strength of the column cover in the vehicle body front-rear direction.

A vehicle includes an instrument panel reinforcement that extends in a vehicle width direction inside an instrument panel, a steering wheel located behind the instrument panel reinforcement, and an air duct that is disposed inside the instrument panel and passes between the instrument panel reinforcement and the steering wheel.

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.

An instrument panel includes an instrument panel body fixed to a vehicle body, and a cover that covers a space of the instrument panel body from a rear in a front-rear direction of a vehicle and faces an occupant in the front-rear direction of the vehicle. The instrument panel body includes a harness holder configured to hold a wire harness arranged in a vehicle width direction. The harness holder extends along the vehicle width direction in the space of the instrument panel body, and includes a fragile portion provided in at least one position in a longitudinal direction of the harness holder. A sectional area of the fragile portion is smaller than a sectional area of the other portion of the harness holder.

A mounting structure of two resin components includes a primary component including an insertion piece extendedly provided from a base portion, and an engagement recessed portion formed in the insertion piece; and a secondary component formed capable of being mounted to the primary component and including an insertion portion configured to guide the insertion piece formed at the base portion, an engagement protruding portion formed in the insertion portion and configured to fit into the engagement recessed portion of the insertion piece, and a restriction wall configured to cover a root side of the insertion piece inserted into the insertion portion, and in a top plan view, a width of the restriction wall being gradually decreased toward a direction separating from a side where the primary component is mounted.

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.

A trim assembly having a trim element and an air vent designed to be supplied with air. The trim element includes a first face designed to be oriented toward a user, a second face opposite the first face, and an edge extending between the first face and the second face. The air vent is positioned to generate a jet of air flowing along the second face toward the edge.