A modular transmission support secures a variety of transmissions to various vehicle frames. The modular transmission support comprises a crossmember that provides user-selectable positioning and attachment of vehicle transmissions. The crossmember comprises one or more trusses and a mounting pad or a set of mounting pads that may be secured at various positions at a concave section of the crossmember's trusses. One or more truss supports secure the crossmember to a vehicle at one or more predefined locations.

A mounting device is provided for oscillatingly mounting a range extender, which consists of an internal combustion engine and a generator, on a body and/or a chassis of a motor vehicle by way of vibration-damping elements. At least two of the vibration-damping elements are integrated in load-carrying bearings and one additional one is integrated in a supporting bearing for supporting moments. The mounting device is characterized in that the vibration-damping elements of the mounting device at least for the load-carrying bearings are secured to the range extender, i.e. a first vibration-damping element is secured to the internal combustion engine and a second vibration-damping element is secured to the generator.

A tractor includes an engine that is mounted on a vehicle body frame, a hood that houses the engine and is configured to pivot about a front pivot in a top-bottom direction between a closed position at which the hood covers the engine, and an open position at which the hood exposes the engine, a mounting rubber that is provided between the engine and the vehicle body frame to support the engine in an anti-vibration manner, and a hood stay that supports the hood such that the hood is pivotable up/down about the front pivot. The hood stay includes an abutting-target portion against which the engine can abut from a rear side, to prevent the engine from swinging forward in a front-rear direction of the vehicle body.

A working machine includes a travel device, a motive power transmission device configured to transmit a motive power to the travel device, a transmission case configured to house the motive power transmission device, and a hydraulic operation fluid tank disposed on an upper surface of the transmission case.

A working machine includes a travel device, a motive power transmission device configured to transmit a motive power to the travel device, a transmission case configured to house the motive power transmission device, and a hydraulic operation fluid tank disposed on an upper surface of the transmission case.

A vehicle includes a side support extending in a vehicle longitudinal direction, a drive unit spaced apart from the side support in a vehicle lateral direction, where the drive unit includes a crankshaft extending in the vehicle lateral direction, and a spacer member positioned between the side support and the drive unit in the vehicle lateral direction, where the spacer member coupled to one of the drive unit and the side support, and the spacer member is detached and spaced apart from the other of the drive unit and the side support, and where the spacer member is positioned rearward of the crankshaft in the vehicle longitudinal direction.

A vibration dampening engine mount configured to mount an engine to a vehicle frame includes: a first bolt receiver having a first through hole configured to receive a first bolt; a second bolt receiver having a second through hole configured to receive a second bolt; and a mass damper connector integrally connecting the first bolt receiver and the second bolt receiver, wherein the vibration dampening engine mount has a predetermined mass.

A vehicle includes a frame, a subframe, a powertrain, a steering gear, and a bracket. The subframe is fastened to the frame at a subframe attachment point, and the subframe is movable relative to the frame along a collision path in response to a frontal collision. The powertrain is attached to the subframe. The steering gear is coupled to the subframe and disposed in the collision path between the powertrain and the subframe attachment point. The bracket is attached to the powertrain and disposed in the collision path between the powertrain and the steering gear. The bracket is positioned to wedge the steering gear between the subframe and the frame during the frontal collision to deform the subframe at the subframe attachment point.

A sub-frame structure includes right and left side members extending in a vehicle front-rear direction, and a rear cross member extending in a vehicle width direction. The sub-frame structure is configured to support a vehicle power plant such as an engine through antivibration devices, and to be supported by a vehicle body frame. The right and left side members are rigidly fixed to a vehicle body frame through bolts. A first antivibration device is mounted on a front cross beam. First bushes and second bushes are provided in order to support the front cross beam in a floating manner relative to the right and left side members.

A bracket is provided with the cylindrical part which opens in the Y direction. An inner member is arranged within the cylindrical part and faces in the Y direction. An elastic body connects the inner member and the cylindrical part and includes a pair of X direction elastic parts, a projecting part, and a Y-direction elastic part. The X direction elastic parts connect the inner member and the cylindrical part in an X direction. The projecting part is provided in an end in the Y direction of the cylindrical part. The Y direction elastic part is connected to a Y direction supporting part of a bottom wall. The projecting part partially overlaps with the Y direction supporting part of the inner member in the Y direction. No part projects outwardly of the cylindrical part and interferes with the vehicle body or surrounding members, increasing a degree of freedom in layout.