The invention disclosed herein is directed to a vehicle light and mounting assembly that extends the functionality of light brackets and housings by allowing commonly used accessories to be removably attached to a vehicle by other method, means, and in other locations. The vehicle light and mounting assembly includes a light housing assembly and a mounting assembly. The light housing assembly and the accessories are removably mounted, respectively, using the mounting assembly. The light housing assembly can be configured as a headlight, taillight, and/or auxiliary lights that can be removably mounted to a motorcycle, bicycle, truck, sports utility vehicle, car, recreational vehicle, trailer, first-alert vehicle, and any other motorized or unmotorized vehicle using the mounting assembly.

A light bar cover for covering a light bar is provided, which comprises a cover portion, hinges, cover handles, hook rings, and one or more hooks. The cover portion is configured for covering a front portion of the light bar. The hinges are installed between the cover portion and the light bar, so as to open and close the cover portion about the hinges. Each of the cover handles is disposed on an exterior surface of the cover portion. Each of the hook rings is disposed on an exterior surface of the light bar. The hooks are configured for holding each of the cover handles and a corresponding hook ring, so as to hold securely the cover portion in an open position or a close position.

Embodiments of the present disclosure relate to a vehicle head lamp with customized and/or variable lighting patterns. The vehicle lamp assembly may include an optical assembly, a first LED light source positioned to project light beams to the optical assembly a second LED light source positioned to project light beams to the optical assembly, and a control circuit configured to selectively operating the first LED light source and the second light source.

Disclosed is an aerial lift, including: a lower portion with members for ground connection; a lifting structure; a platform supported by the lifting structure; and a lighting system. The aerial lift includes a control console on the platform, whose position is variable relative to the ground connection members. The lighting devices are arranged on the lower portion of the aerial lift and/or on the lifting structure or the platform and selectively generate light beams directed towards the ground and the immediate environment of the aerial lift, including at least partially an area beyond the edge of the members for connecting to the ground. The light beams are directed towards four sides, consisting of two opposing pairs of sides, of the aerial lift regardless of the position of the control console relative to the members for connecting to the ground. Also disclosed is a method for implementing such an aerial lift.

A mount assembly for attaching a light bar to a tow mount of a vehicle. The mount assembly has a bracket with a channel that allows the tow mount to only enter the bracket from a first direction. The tow mount is secured within the channel by a blocking member that extends across at least a portion of the channel.

A utility vehicle includes a headlamp including a first connector, a headlamp housing accommodating the headlamp, and a harness including a second connector configured to be connected with the first connector, in which the headlamp housing includes a connector holding portion holding the first and second connectors connected with each other.

A terrain viewing apparatus is provided to enable greater viewability of environmental conditions around a vehicle. A housing of the terrain viewing apparatus may include a lighting apparatus for emitting light and illuminating environmental conditions during nighttime, dusk, or adverse weather conditions. The housing may further include a reflecting apparatus to increase an operator's ability to view environmental conditions outside the vehicle. One or more joints may enable the housing to be adjustable with respect to the vehicle. An internal joint may enable the reflecting apparatus to be adjustable with respect to the housing. The lighting apparatus may receive power from the vehicle. The lighting and reflecting apparatuses may be electrically coupled to the vehicle and may be controllable therefrom.

A lighting device is provided for controlling the photometric distribution of light emitted by two or more LEDs. The lighting device may be integrated with a control system of the vehicle and may be controlled by a remote controller. The lighting device may be capable of being operated in one or more modes of operation based on operating conditions, user input, or both. Operating conditions may include vehicle conditions, environmental conditions, and user conditions. The controller may operate a software application to enable the user to modify, control, or otherwise regulate any mode of operation or other feature of the lighting system.

A rotation adjustment mechanism includes a rotation target module supported by a fixation member to be freely rotatable around a first rotary shaft and an adjustment unit supported by the fixation member and including a slider movable along a slide axis pointing in a direction orthogonal to the first rotary shaft. The adjustment unit is supported to be freely rotatable around a second rotary shaft parallel to the first rotary shaft and provided on the fixation member. The rotation target module includes a connection groove. The fixation member includes a cam member. The cam member has a guide surface in an arc-like shape that maintains constant a rotation angle of a contact point where the connection groove and a projection part of the slider contact each other around the first rotary shaft with respect to a unit movement amount of the slider in a direction parallel to the slide axis.

A light mount for mounting a light to a steering arm on an axle may include a bracket designed to attach to the steering arm; and a bracket orifice extending through a portion of the bracket, the bracket orifice sized to accommodate a light pod fastener extending from a light pod, wherein the bracket and, thus, the light pod rotate with rotation of the steering arm. The bracket may have various forms and may be a Z-shaped bracket, a mounting perch integrated into the structure of a steering arm, or a mounting plate designed to be attached to an existing steering arm.