A vehicle frame structure has a front side member that extends forward from a dashwall. An engine cradle is attached to the front side member with a lateral side portion of the engine cradle being located beneath and spaced apart from a lower surface of the front side member. An engine installed to the engine cradle with a portion of the engine extending upward from the engine cradle adjacent to an inboard surface of the front side member, A push-off structure is attached to an outboard surface of the front side member adjacent to a front end surface of the front side member. A portion of the push-off structure extends outboard from the outboard surface. Another portion of the push-off structure extends downward below the lower surface of the front side member toward the lateral portion of the engine cradle and the engine.

A vehicle frame structure has a front side member that extends forward from a dashwall. An engine cradle is attached to the front side member with a lateral side portion of the engine cradle being located beneath and spaced apart from a lower surface of the front side member. An engine installed to the engine cradle with a portion of the engine extending upward from the engine cradle adjacent to an inboard surface of the front side member, A push-off structure is attached to an outboard surface of the front side member adjacent to a front end surface of the front side member. A portion of the push-off structure extends outboard from the outboard surface. Another portion of the push-off structure extends downward below the lower surface of the front side member toward the lateral portion of the engine cradle and the engine.

A vehicle frame structure has a front side member that extends forward from a dashwall. An engine cradle is attached to the front side member with a lateral side portion of the engine cradle being located beneath and spaced apart from a lower surface of the front side member. An engine is installed to the engine cradle with a portion of the engine extending upward from the engine cradle adjacent to the inboard surface of the front side member. An inboard push structure has an inboard surface, an upper portion and a lower portion. The upper portion is attached to an inboard surface of the front side member. The lower portion extends downward below a lower surface of the front side member. The inboard surface faces the engine proximate the lateral portion of the lateral side portion of the engine cradle.

A vehicle frame structure has a front side member that extends forward from a dashwall. An engine cradle is attached to the front side member with a lateral side portion of the engine cradle being located beneath and spaced apart from a lower surface of the front side member. An engine is installed to the engine cradle with a portion of the engine extending upward from the engine cradle adjacent to the inboard surface of the front side member. An inboard push structure has an inboard surface, an upper portion and a lower portion. The upper portion is attached to an inboard surface of the front side member. The lower portion extends downward below a lower surface of the front side member. The inboard surface faces the engine proximate the lateral portion of the lateral side portion of the engine cradle.

To sufficiently improve the distortion stiffness of a vehicle body in a case in which no floor tunnel largely bulging upward from a floor panel is provided. A vehicle-body structure includes a floor panel constituting a floor of an occupant space including a seat on which a passenger is to sit, a cross member provided at a rear portion of the floor panel and extending in a vehicle width direction, a center frame disposed to be higher than and away from the floor panel at a vehicle-width-direction central portion of the occupant space and extending in a vehicle front-rear direction, and a connecting member connecting the cross member and a rear portion of the center frame.

In a vehicle front part structure of a vehicle body, a gusset member is disposed in front of a front pillar. The gusset member is positioned so as to overlap with at least a front tire in the vertical direction of the vehicle body. The gusset member covers at least a portion of a lower portion of the front pillar on a front side in the longitudinal direction of the vehicle body. The gusset member has a stepped portion on a front side thereof in the longitudinal direction of the vehicle body. The stepped portion extends in the vertical direction of the vehicle body and makes a portion of the gusset member disposed inside in the vehicle width direction positioned relatively in front of a portion of the gusset member disposed outside in the vehicle width direction in the longitudinal direction of the vehicle body.

In a vehicle front part structure of a vehicle body, a gusset member is disposed in front of a front pillar. The gusset member is positioned so as to overlap with at least a front tire in the vertical direction of the vehicle body. The gusset member covers at least a portion of a lower portion of the front pillar on a front side in the longitudinal direction of the vehicle body. The gusset member has a stepped portion on a front side thereof in the longitudinal direction of the vehicle body. The stepped portion extends in the vertical direction of the vehicle body and makes a portion of the gusset member disposed inside in the vehicle width direction positioned relatively in front of a portion of the gusset member disposed outside in the vehicle width direction in the longitudinal direction of the vehicle body.

An assembly for a vehicle comprising a crossmember, which is provided for connecting to two pillars lying opposite each other with respect to the x-y plane of the vehicle; a mounting that is connected to the crossmember, protrudes therefrom in the radial direction, and has two mounts, which are mutually spaced in the y direction, and end-face connection means; and a panel-shaped instrument which is connected to the connection means of the mounting at a distance to the upper closure thereof and which is held such that the operating surface of the instrument faces the passenger compartment of the vehicle in the x direction. Each of the two mounts is designed in the form of a half shell which are arranged such that the opening side thereof faces in the y direction, wherein the two limbs of the mounts designed as half shells are arranged on the x-y plane, the web connecting said limbs is arranged on the y-z plane, and each of the mounts has at least one predetermined bending point, which is provided by the geometry of the mount, between the two connection points of the mount, said mounts bending at the predetermined bending point in the z and/or y direction in the event of a load (x direction).

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 vehicle side body structure is provided, which includes a hinge pillar having inner and outer hinge pillar members forming, in a vehicle side part, a closed section space extending in vehicle vertical directions, a side sill having a member forming, on a rear side of the hinge pillar, a closed section space extending in vehicle longitudinal directions, and a closed section space component forming a closed section space extending continuously in the longitudinal directions along an outer surface of the inner hinge pillar member and connecting to the closed section space of the side sill on the rear side. The inner hinge pillar member is formed with a bend-facilitating portion adjacently disposed on the front side of a front end of the closed section space component, extending vertically continuously or intermittently, and protruding outwardly due to a stress concentration by a frontal impact load applied to the hinge pillar.