A front vehicle-body structure may include a pair of front side members each disposed in a vehicle length direction at both sides of a front vehicle-body, a pair of mounting brackets each engaged with a corresponding front side member among the pair of front side members and disposed to protrude from an internal panel of the corresponding front side member in a width direction of the vehicle to face each other, a cross bar having an upper surface, a front surface, and a rear surface, having a cross-section having an open bottom side and an open lateral end portion, and engaged with the mounting bracket in a vehicle height direction thereof, and an engagement unit of engaging the cross bar to the pair of mounting brackets with a predetermined gap between the pair of front side members and the lateral end portion of the cross bar.

A rear section upper face of a front side frame is connected to a front face of an inclined wall of a dashboard panel. An attachment bracket that is provided to a rear section lower face of the front side frame and that has a triangular shape in side view supports a support of a subframe. An outrigger is provided that has a vehicle width direction inner end connected to a front wall and a lower wall of the attachment bracket and to a vehicle width direction outer wall of the front side frame, and that has a vehicle width direction outer end connected to a front end of a side sill.

A steering apparatus of a vehicle includes a plurality of coupling portions formed in a rack housing of a gear box and coupled to mounting portions of a vehicle body; and a nut member having a support surface and installed in each of the mounting portions of the vehicle body. In particular, each of the plurality of coupling portions has a seating surface formed as a curved surface with a predetermined curvature, and the seating surfaces are respectively seated on the support surface of the nut member installed in each of the mounting portions of the vehicle body such that the rack housing of the gear box is fixed to the vehicle body by a bolt which passes through each of the plurality of coupling portions to be engaged with the nut member of each of the mounting portions.

An upper plate portion of a suspension member and a bottom plate portion of a bracket that is placed on an upper side thereof, and the like, as objects to be fastened, are sandwiched between a weld nut and an end surface on a vehicle upper side of a collar. A protruding portion that protrudes toward a bolt through-hole side of the bottom plate portion of the bracket is formed on an end portion on the vehicle upper side of the collar. The protruding portion is formed along an entire periphery around an axis of the collar. Also, a drainage groove that leads from the end surface on the vehicle upper side to an outer peripheral surface of the collar is formed in the collar.

A side by side vehicle is disclosed having a vehicle frame having frame tubes extending from a front to a rear. A vehicle seat frame is positioned in a mid portion of the frame, and positions a seat frame at a raised position relative to the frame tubes. A powertrain is positioned rearward of the vehicle seat frame and is coupled to the vehicle frame. Side by side seats are supported by the seat frame; and one or more storage units are positioned under the side by side seats. The side by side vehicle also has a rear suspension comprising at least one rear alignment arm coupled to each side of a rear of the vehicle frame, where the alignment arms are coupled to the vehicle frame at front and rear connection points. A distance between the front connection points is greater than a distance between the rear connection points, and at least a portion of the powertrain is positioned between the front connection points of the alignment arms.

A method of assembling vehicle parts, the method including: measuring at least one of a dimension or a characteristic of each of plural types of vehicle parts, and, for types of vehicle parts of which there are plural in stock, measuring at least one of a dimension or a characteristic of each one of the plural vehicle parts that are in stock; determining a combination of the plural types of vehicle parts by selecting specific vehicle parts from among the types of vehicle parts of which there are plural in stock, such that the selected specific vehicle parts closely approximate specific vehicle specification reference values; and assembling the plural types of vehicle parts in accordance with the combination that has been determined.

An apparatus and method, according to an exemplary aspect includes, among other things, a bracket system having a first portion fixed to a vehicle panel and a second portion that is moveable relative to the first portion for adjustment purposes. At least one first fastener holds the first and second portions together prior to assembly of the vehicle panel to a pillar. The at least one first fastener is loosened to adjust a position of the second portion relative to the pillar. At least one second fastener secures the second portion to the pillar subsequent to adjustment, and the at least one first fastener is tightened subsequent to adjustment to hold the vehicle panel in a desired position relative to the pillar.

The present invention relates to a mounting assembly for a vehicle for coupling, to a chassis, a housing in which a steering device is mounted, the mounting assembly including: a first bush that is configured to be coupled to a mounting hole that is formed in the housing, and is configured to have a coupling groove formed therein; a second bush that is configured to be provided between the housing and the chassis, and is configured to have a through hole formed to lead to the coupling groove; and a bolt that is configured to fix the housing to the chassis, wherein the second bush is inserted into the bottom of the first bush to then be coupled, and the bolt is engaged with the coupling groove by passing through an assembly hole that is formed in the chassis and by passing the through hole.

A cutaway bus is provided with a monocoque body attached to an OEM cab frame having the chassis removed. The bus body includes a horizontal frame to which panels are attached to define a continuous, non-stepped floor for the passenger area of the bus. The floor resides at a lower level than the OEM cab frame. The bus entryway is sloped and includes a deployable ramp for wheelchair ingress and egress.

An automobile vehicle body and an automobile vehicle body manufacturing method is provided in which a metal joint is divided into an upper joint and a lower joint. The upper joint includes an upper wall which is fitted into a side member, a vehicle width direction inner wall and a vehicle width direction outer wall, and a lower joint includes a lower wall which is joined to a lower face and an outside face of a vehicle body floor, and the vehicle width direction outer wall, and therefore, the vehicle width direction outer wall of the upper joint is fastened to the vehicle width direction outer wall of the lower joint by a first bolt, and the vehicle width direction inner wall of the upper joint is fastened to an inside face of the side member by a second bolt.