An apparatus for automatically opening and closing a trunk lid includes an actuator having a first end configured to be coupled to a vehicle body and a second end configured to be coupled to a hinge arm coupled to the trunk lid, a closing trigger link having a first end rotatably coupled to the actuator, an opening trigger link rotatably coupled to the closing trigger link, a spring assembling pin having a first end coupled to the closing trigger link and the opening trigger link, and a spring having a first end coupled to a second end of the spring assembling pin, and a second end configured to be coupled to the vehicle body or a panel configured to be mounted on the vehicle body.

An apparatus for automatically opening and closing a trunk lid includes an actuator having a first end configured to be coupled to a vehicle body and a second end configured to be coupled to a hinge arm coupled to the trunk lid, a closing trigger link having a first end rotatably coupled to the actuator, an opening trigger link rotatably coupled to the closing trigger link, a spring assembling pin having a first end coupled to the closing trigger link and the opening trigger link, and a spring having a first end coupled to a second end of the spring assembling pin, and a second end configured to be coupled to the vehicle body or a panel configured to be mounted on the vehicle body.

A vehicle hood includes a unitary metallic hood frame including a plurality of embosses having respective curved surfaces and a plurality of openings. The vehicle hood includes a metallic reinforcement material welded to a subset of the respective curved surfaces of the metallic hood frame. The vehicle hood includes a hood skin attached to the hood frame. The selective placement of metallic reinforcement material may reduce deflection of the vehicle hood while reducing weight compared to metal supports or a thicker metallic hood frame.

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.

A concrete mixer vehicle includes a chassis, a cab coupled to the chassis, a drum assembly coupled to the chassis, and a module coupled to the chassis and positioned rearward of the drum assembly. The module includes a prime mover, a cooling system, and a hood. The hood has a first end positioned proximate the drum assembly, an opposing second end positioned proximate a rear end of the chassis, and a top surface. The hood defines an internal cavity within which the prime mover and the cooling system are disposed. The first end defines an inlet airflow cavity. The inlet airflow cavity has a bottom surface and an air inlet positioned between the top surface and the bottom surface. The air inlet connects the inlet airflow cavity to the internal cavity.

This disclosure relates to a front trunk including a multi-action closure assembly. In some aspects, the techniques described herein relate to a motor vehicle, including: a front trunk establishing a cargo space; a frame rotatably mounted relative to the cargo space; a first panel rotatably mounted to the frame; a second panel rotatably mounted to the frame; and wherein, when the first and second panels are in closed positions, the frame is rotatable to an open position to uncover the front trunk, wherein, when the frame is in a closed position, the first and second panels are rotatable to open positions to uncover the front trunk.

A vehicle disclosed in the present specification includes a vehicle body that has a front compartment, a radiator that is disposed in the front compartment, a radiator support upper crossmember that makes up part of the vehicle body and that also extends in a right-left direction along an upper edge of the radiator, a hood that is pivotably linked to the vehicle body and that is movable between an open position for opening the front compartment and a closed position for closing the front compartment, and a hood lock that is fixed to the radiator support upper crossmember and that also locks the hood in the closed position. The hood lock is positioned rearward of a center of the radiator support upper crossmember in a front-rear direction.