A travel trailer generator mounting system for enabling installation of a permanent onboard generator system onto a travel trailer may include a generator mount designed to engage with the travel trailer frame. The generator mount may include a top planar surface with a generator storage portion extending downward therefrom, the generator storage portion sized to accommodate mounting of a generator therein; a front lip extending substantially perpendicularly upwards from a front edge of the top planar surface; and a rear lip extending substantially perpendicularly upwards from a rear edge of the top planar surface. The front lip and the rear lip may be configured to engage with cross members on the travel trailer for mounting of the generator mount to the travel trailer.

A receiving system for receiving at least one guided device, in particular an electric unit, in an instrument mount of a motor vehicle. The invention also relates to an electric module, which comprises a receiving system and a guided device, as well as a motor vehicle, which includes a receiving system or an electric module. The receiving system includes a receiving unit for spatially receiving the guided device in the receiving system, as well as a guide for implementing a guided slide-in movement of the guided device, in particular the electric unit, into the receiving unit. The guide is fixed in relation to the receiving unit and defines a nonlinear movement path, so that the guided device may be oriented in a first spatial orientation on an outside of the receiving system facing a driver of a motor vehicle.

A sensor mounting assembly for a vehicle includes a sensor that is operable to detect conditions outside of the vehicle, and a vehicle body structure having an inner wall and an outer wall located opposite the inner wall. A sensor mount is coupled to the outer wall with at least one fastener extending through the outer wall, inner wall, and sensor mount. The sensor mount defines an internal space in which the sensor is coupled.

An optical device includes a housing, a first optical subassembly, and a second optical subassembly. The housing includes first and second surfaces having respective first and second openings. The first optical subassembly includes a first lens and a first image sensor received in the first opening. The second optical subassembly is arranged at an angle with respect to a first optical axis, and includes a second lens and a second image sensor received in the second opening. The first and/or second opening is larger than the corresponding first or second image sensor such that a gap exists therebetween for the optical subassembly to be positioned with the corresponding optical axis at a given orientation before the optical subassemblies are attached to the housing.

A vehicle shown herein is a side by side powersports vehicle having a utility bed recessed in the rear body portion below an upper surface, the utility bed forming a stepped portion relative to the rear body portion and having a maximum lateral width greater than a diameter of at least one of the wheels, and a minimum width less than a diameter of at least one of the wheels, whereby a spare wheel may be stored on the stepped portion of the utility bed. As shown herein, the utility bed is defined as a removable tub, which can be removed from the rear body portion. The utility bed has defined troughs in a floor thereof angled rearwardly wherein the utility bed has drains which drain away from any heat source of the vehicle. The seats of the vehicle allow longitudinal movement and tilt capability.

A rooftop mount device for connecting to a roof of a portable gym and for attaching exercise equipment is described. The portable gym is a portable container, such as a shipping container, having a top surface, or roof, to which the rooftop mount is attachable. The rooftop mount device includes connection members. The rooftop mount can also include one or more horizontal stabilization members and equipment attachment elements. The connection members are attached to a roof of the container. Exercise equipment is attached to the parts of the rooftop mount device. The rooftop mount provides proper height and stability for the bars, racks, stands, cages, rigs and riggings, and other exercise equipment that are attached to the container's roof so that the equipment does not move during use by an exerciser. Systems and kits are also described, which include a rooftop mount device, various exercise equipment, and a portable container.

An attachment structure for an electronic component accommodation box including a vibration proof structure includes a damping structure between a vehicle body side attachment member and a casing in which at least one electronic component is mounted. The damping structure includes first sliding portions, second sliding portions, and damping members interposed between the first sliding portions and the second sliding portions. The damping members generate sliding resistance between each of the first sliding portions and each of the second sliding portions when the casing moves relative to the vehicle body side attachment member.

An accessory mounting track includes a forward edge, a rearward edge, an upper surface, a lower surface, a first end region with a first end, a second end region with a second end, and an intermediate region positioned between the first and second end regions. A cross-section of the intermediate region includes an angular portion positioned on either side of a planar portion. The planar portion and the angular portions are delineated by an inflection point at a junction between the planar portion and each of the angled portions. A distance between the upper surface and the lower surface at the angular portions decreases as a distance from a centerline of the intermediate region increases. A distance between the forward edge and the rearward edge at the first and second end regions increases as a distance from the intermediate region increases.

A bracket and restraints control module assembly attached to the tunnel in the floor of a vehicle. The bracket includes a base plate and an intermediate plate supporting the restraints control module. The intermediate plate defines a plurality of holes and is secured by a limited slip connector assembly that extend through laterally elongated slots defined by the base plate and holes in the intermediate plate, respectively. The connector assembly is tightened to a predetermined level of torque so that the intermediate plate can slide relative to the base plate on upper and lower slide surfaces when a collision force of sufficient magnitude is applied to the bracket and RCM assembly.

A method for detecting objects in a vehicle blind spot comprises the following steps: generating a region of interest onto an image taken from one camera placed on one side of the vehicle; generating a top view of the region of interest; detecting an object in the region of interest; determining if the object in the region of interest is a target object; and triggering a signal if it is determined that there is a target object in the region of interest.