This system for detecting the surrounding conditions of a moving body forcibly changes the state of at least one of a plurality of lighting devices (change from an unlit sate to a lighting state or a blinking state, change in the emission color, or change in the luminance) installed inside the moving body, if an object to which attention must be paid during traveling of the moving body is detected in the surroundings of the moving body.

A light bar for a motor vehicle has a plurality of lights mounted to an elongated support member is rotatably connected to opposing end walls of a rectangular frame. An offset cam is connected to the support member and moved by an actuating mechanism between a first and second position which cause the support member and lights to rotate about an axis to corresponding first and second positions. When the support frame and lights are in a first position they are shielded by and substantially enclosed by the sides and ends of the rectangular frame, and when in a second position the lights extend above and generally parallel to the rectangular frame to shine above and forward of the rectangular frame. A power switch energizes the actuating mechanism to move the lights and support member between the first and second positions.

A sealing means of a pivot joint system between a base assembly and a head assembly of a rear view device, including a two-component pivot seal including a hard component including at least one of one or more attachment and holding means for at least one of attachment of the sealing means to the base assembly and holding at least one cable, and a soft component. A base assembly and a rearview device are also described.

An input device includes: a rotating member that rotates about a predetermined rotation axis; and a mover that includes a protrusion protruding toward an inner peripheral surface of the rotating member and moves in a direction different from a rotation direction of the rotating member along with rotation of the rotating member. The protrusion protrudes toward an inner peripheral surface of the rotating member. The rotating member includes a first projection and a second projection that project from the inner peripheral surface toward the mover. The protrusion of the mover is inclined with respect to the predetermined rotation axis and disposed between the first projection and the second projection.

The invention relates to a method for producing a semi-transparent motor vehicle design element (3), comprising the following steps:

A providing a dimensionally stable, at least partially light-permeable substrate (1) which is heat-resistant for a temperature of at least 60° C., the substrate (1) having a front side (1a) and a rear side (1b),

B introducing the substrate (1) into a vacuum chamber (2) and applying a first metallic semi-transparent layer (L1) by means of a PVD process to the substrate (1) according to step a) which is situated in the vacuum chamber (2), and

C applying a light-impermeable cover layer (LD) to the front or rear side (1a, 1b) of the substrate (1), the light-impermeable cover layer (LD) containing at least one light-permeable opening (8) for reproducing at least one graphical symbol (SYM),

steps B and C being carried out such that light (LSQ) passing through the at least one opening (8) in the light-impermeable cover layer (LD) from the rear side (1b) towards the front side (1a) of the substrate (1) is incident on the first metallic semi-transparent layer (L1) and at least partially passes outwards through the first metallic semi-transparent layer (L1) in order to project the at least one graphical symbol (SYM) represented by the at least one opening (8).

In one embodiment, an apparatus may include a light source. The apparatus also includes a measuring laser, such as a semiconductor laser. The measuring laser is configured to generate pulses with a maximum pulse duration of 10 ns. A wavelength of maximum intensity of the measuring laser radiation generated by the measuring laser ranges from 400 nm to 485 nm inclusive. The measuring laser radiation is used for distance measurement by means of LIDAR, for example in a car headlight.

The present invention provides a straddle type vehicle, comprising: a taillight disposed in a rear portion of a vehicle and configured to emit light to rearward of the vehicle and a detection unit configured to emit radio waves and detect surrounding conditions behind the vehicle, wherein the taillight includes a light source and a housing for accommodating the light source, the detection unit is provided inside the housing, the housing has a transmitting portion that includes a first region for transmitting light emitted from the light source and a second region for transmitting the radio waves emitted from the detection unit, and the first region has an uneven shape for diffusing the light emitted from the light source, and the second region does not have the uneven shape.

When an industrial vehicle encounters a geo-feature, one or more messages for conveyance on the industrial vehicle are determined based on a current operating state of the industrial vehicle and an expected operating condition associated with the encountered geo-feature. In an example implementation, the geo-feature can implement aisle control in a warehouse or similar environment to ensure that only authorized vehicles are permitted to enter the aisle. Here, authorization may be predicated upon an assigned task from a warehouse management system. In another example implementation, the industrial vehicle includes a display that provides a graphical representation of the geo-feature.

A method for modifying a brightness level of an automobile vehicle backup light includes: receiving electronic signals in a brightness evaluator and light controller defining at least one image captured within a field-of-view (FOV) of an automobile vehicle camera; dividing the at least one image into multiple independent zones; evaluating an environmental brightness level of individual ones of the multiple independent zones; comparing a brightness level of at least one backup light of the automobile vehicle to the environmental brightness level; and sending a control signal to the at least one backup light to modify the brightness level of the least one backup light.

A light assembly having a projector integrally connected to a light bar. The projector and the light bar share power and control wires from a wire harness. The projector includes a projector aperture whereby light (oftentimes in a pattern or logo formation) passes therethrough and directs onto a ground surface. The projector includes a light assembly configured to hold the components for projection.