In a vehicle bottom structure, a floor panel to which a cross member is fixed is connected to a rocker inner which is a skeleton member. The floor panel and the rocker inner are sealed from a lower side by a lower seal member, but a region near the reinforcement member is a lower non-sealed part which cannot be sealed. Further, the floor panel and the rocker inner are sealed from an upper side by an upper seal member, but a region near the cross member is an upper non-sealed part which cannot be sealed. On respective sides of the upper non-sealed part, connecting seal members are provided, so that the lower seal member and the upper seal member are connected and a waterproof line is formed.

The present invention is directed to a hardtop for a vehicle that has an exterior thermoplastic roof panel and sides. The hardtop includes a top frame formed of at least two longitudinal sides and at least one cross vehicle piece formed from fiber reinforced polymer. Connected to the top frame is at least one roof panel forming an outer surface of the hardtop. There are also one or more side frames each having a side panel connected thereto. The roof panel and side panel are all formed of thermoplastic, so it is possible to have a Class A finish paint surface or mold in color finish.

A cover configured for attachment to the roof of an operator station of a work machine is disclosed. The cover may include at least one first compartment configured for partially containing a lighting device of the work machine. In addition, the cover may include at least one second compartment configured for partially containing a roof-mounted antenna of the work machine, the second compartment disposed in a generally upwardly-exposed portion of the cover when the cover is attached to the roof. Further, a roof assembly for an operator station of a work machine that incorporates the cover is disclosed. Furthermore, a method of manufacturing the cover is disclosed.

A structural reinforcement for insertion into a cavity of a vehicle structure including a base reinforcing portion, an expandable material and a localized reinforcement is disclosed. The localized reinforcement is placed within the structural reinforcement at a location of anticipated increased deformation during vehicle impact in an effort to reduce deformation and control the load distribution post-impact.

A frame and soft top assembly which includes lift assist and improved fabric management. The assembly includes a pair of front arms pivotally attached to rear side rails and are attached to the vehicle roll bar. A plurality of fabric control bows connected with pivot links provide fabric control to the top material during pivoting of the front side rails. A pair of bow pivot links are pivotally connected to the rear side rail. A rear gas strut and a front gas strut are attached longitudinally to either side of the pair of bow pivot links, one providing lift assistance at the start of the pivotal opening of the sunroof while the other of the struts gets loaded as the top is deployed and buffers the closing of the roof which also loads the strut to provide assistance in the closing direction when it is time to close the sunroof.

To allow receiving rain water by moving a drip member upward and downward in a substantially horizontal direction with a tilting motion of a roof panel, a drip mechanism has a drip member including a trough in an upper surface and covering the entire length of a lower side of a rear edge of a roof panel; left and right movable bodies disposed on guiderails in left and right side portions of a frame; a lifting unit connecting the drip member to the left and right movable bodies that allows the drip member to move upward and downward; and an interlocking member connecting the drip member with the roof panel. In the lifting unit, front and rear link members connect the drip member with the movable body and a member urging, in a rising direction, portions of these front and rear link members and on the drip member-connected side.

A front vehicle-body structure includes a front wheel including a wheel; and a side sill that extends in a front-rear direction on a rear side of the front wheel and has side sill inner and outer portions positioned on vehicle-width-direction inner and outer sides, respectively. Vehicle-width-direction end portions of the inner and outer portions are joined at a joined portion formed by the vehicle-width-direction end portions abutting against each other. The inner portion has a higher buckling strength in the front-rear direction than the outer portion. The joined portion has a second joined portion extending inclined to the vehicle-width-direction outer side toward a rear side, and a first joined portion bent from the second joined portion, extending to a front side, and positioned on a front-end portion of the side sill closer to the vehicle-width-direction inner side than a center line of the wheel in the vehicle width direction.

A drainage system for a vehicle is disclosed herein. A drain is disposed within a vehicle substrate and has a floor. A receiver is disposed proximate to the floor. A cap feature is operably coupled to the drain and is operable between first and second positions relative to the drain. The cap feature includes an upper platform and a sidewall that extends generally downward from the upper platform. A cutout is defined by the cap feature and is configured to allow liquid to flow through the cap feature. An engagement feature is coupled to the cap feature and is operable between a disengaged position and an engaged position in which the engagement feature is engaged with the receiver. Movement of the cap feature from the first position to the second position moves the engagement feature from the disengaged position to the engaged position.

The present disclosure is to provide a body structure of an eco-friendly vehicle for supporting a battery including an intermediate floor panel composed of a first intermediate floor panel connected to a center floor panel and a second intermediate floor panel connected to a rear floor panel; a rear cross reinforcement panel and an extension reinforcement member mounted on a bottom portion in a battery seating area of the intermediate floor panel; and an intermediate floor upper panel mounted on a front portion in the battery seating area of the intermediate floor panel.

A structural element of a body shell, which includes a firewall, two front steel fins and two steel side rails, is mounted by: a) providing a structural element made of aluminium alloy and including, a top, and an inner side edge opposite an outer side edge; b) placing the structural element adjacent to the firewall, while the outer side edge is connected together with one of the front fins and the inner side edge is connected with one of the corresponding side rails. In step a), an outer side mounting part made of steel is also provided and secured to the outer side edge.