A front end structure of a vehicle is disclosed and includes a housing having a fluid reservoir portion, a fan shroud portion, a back face, a bolster portion, a first air passage communicating airflow to an air intake system, and a second air passage in communication with a higher pressure airflow. A fan assembly is mounted within the fan shroud portion and a radiator mounted to the back face of the housing. A battery compartment is in communication with airflow from the second air passage for maintain battery temperature within a predefined range. A headlight also receives an airflow to actively remove moisture from an inner cavity. A method of assembling a front end structure is also disclosed.

The present disclosure generally relates to apparatus and methods for controlling ventilation and temperature around a light source. A ventilation and temperature control assembly configured to selectively facilitate air circulation in an enclosure around a light source is disclosed. In some embodiments, a temperature sensor may be disposed near the light source. The air circulation may be switched on and off according to temperature measurement of the temperature sensor. In some embodiments, the ventilation and temperature control assembly includes a valve to selectively open and close a flow path in the ventilation and temperature control assembly.

The present disclosure generally relates to apparatus and methods for controlling ventilation and temperature around a light source. A ventilation and temperature control assembly configured to selectively facilitate air circulation in an enclosure around a light source is disclosed. In some embodiments, a temperature sensor may be disposed near the light source. The air circulation may be switched on and off according to temperature measurement of the temperature sensor. In some embodiments, the ventilation and temperature control assembly includes a valve to selectively open and close a flow path in the ventilation and temperature control assembly.

A headlamp illumination source that switches from a first configuration conforming to on-road illumination standards to a second configuration that does not conform to on-road illumination standards. The switching is preferably controlled by a wireless signal but in some embodiments the switching can be controlled by a hard-wired signal or by a switch proximate the illumination source itself.

The present disclosure generally relates to apparatus and methods for controlling ventilation and temperature around a light source. A ventilation and temperature control assembly configured to selectively facilitate air circulation in an enclosure around a light source is disclosed. In some embodiments, a temperature sensor may be disposed near the light source. The air circulation may be switched on and off according to temperature measurement of the temperature sensor. In some embodiments, the ventilation and temperature control assembly includes a valve to selectively open and close a flow path in the ventilation and temperature control assembly.

The present disclosure generally relates to apparatus and methods for controlling ventilation and temperature around a light source. A ventilation and temperature control assembly configured to selectively facilitate air circulation in an enclosure around a light source is disclosed. In some embodiments, a temperature sensor may be disposed near the light source. The air circulation may be switched on and off according to temperature measurement of the temperature sensor. In some embodiments, the ventilation and temperature control assembly includes a valve to selectively open and close a flow path in the ventilation and temperature control assembly.

A control Spot lights and display drone, which has an auxiliary generator or battery to supply power for a combination of voltage, for lighting LED spot light and other auxiliary equipment and powering the drones, a wire tethering device that can move in conjunction with the drone; the drone lighting also can change colors to create a flashing lights effect (as a like police cars flashing lights). The remote LED spotlight controller is for changing colors of the LED lights for outside party lights or blinking lights; or just bright white lights, a voltage reducer that's piggyback off the power wires; a battery or a generator for supplying power to power the drone body internal and external components such as a display and lights; a mounting bracket for mount the LED spot lights; a LED spot lights mounting bracket that has at least two holes for mounting LED spot lights to bracket; a voltage reducer; whereby the allowing the drone or drones to fly for a longer period of time, also longer illumination and illustrating time in the air; also, the use of solar cells to aid in powering the drones;

A control Spot lights and display drone, which has an auxiliary generator or battery to supply power for a combination of voltage, for lighting LED spot light and other auxiliary equipment and powering the drones, a wire tethering device that can move in conjunction with the drone; the drone lighting also can change colors to create a flashing lights effect (as a like police cars flashing lights). The remote LED spotlight controller is for changing colors of the LED lights for outside party lights or blinking lights; or just bright white lights, a voltage reducer that's piggyback off the power wires; a battery or a generator for supplying power to power the drone body internal and external components such as a display and lights; a mounting bracket for mount the LED spot lights; a LED spot lights mounting bracket that has at least two holes for mounting LED spot lights to bracket; a voltage reducer; whereby the allowing the drone or drones to fly for a longer period of time, also longer illumination and illustrating time in the air; also, the use of solar cells to aid in powering the drones;

A vehicle lighting assembly includes a solid state light emitter mounted on a first side of a substrate. A second side of the substrate is connected or adjacent to a heatsink. The heatsink may have a lower thermal conductivity than the second side of the substrate. A blower fluidly engages with the heatsink to flow fluid, e.g., air, through passages in the heatsink. The heatsink can include at least one aperture such that the moving fluid from the blower contacts at least a portion of the second side of the substrate.

A vehicle lighting assembly includes a solid state light emitter mounted on a first side of a substrate. A second side of the substrate is connected or adjacent to a heatsink. The heatsink may have a lower thermal conductivity than the second side of the substrate. A blower fluidly engages with the heatsink to flow fluid, e.g., air, through passages in the heatsink. The heatsink can include at least one aperture such that the moving fluid from the blower contacts at least a portion of the second side of the substrate.