Solar-powered lighting devices that may be portable and/or collapsible are described. The devices may include a housing including a first wall, a second wall, and one or more side walls between the first wall and the second wall, at least one solar panel to generate solar energy, and a rechargeable battery to store the solar energy generated. The devices may include a plurality of operating modes for controlling lights within the housing, and a microprocessor for controlling the operating modes.

A rechargeable flashlight configured to communicate via a wireless network, and associated systems and methods are disclosed herein. In some embodiments, the rechargeable flashlight includes a light emitter configured to generate light outputted by the flashlight and an imaging device configured to capture environmental data from an area exposed to the output light. The flashlight can also include a cylindrical handheld main body that includes one or more functionally distinct modules configured to be detachably coupled together to provide coordinated operation. The flashlight can also include at least one user-controlled switch operable to control operation of one or more of the interchangeable cylindrical modules.

The disclosure includes a convertible light device comprising a device housing, a battery pack removably coupled to the housing, and an elongate flexible light source detachably coupled to the device housing and electrically coupled to the battery pack, where the elongate flexible light source comprises a plurality of LEDs. In some embodiments, the convertible light device is configured to convert between a rope mode and a lantern mode. In the rope mode, the elongate flexible light source may be configured to extend from the device housing. In the lantern mode, the elongate flexible light source may be configured to wrap around the device housing.

Solar-powered lighting devices that may be portable and/or collapsible are described. The devices may include a housing including a first wall, a second wall, and one or more side walls between the first wall and the second wall, at least one solar panel to generate solar energy, and a rechargeable battery to store the solar energy generated. The devices may include a plurality of operating modes for controlling lights within the housing, and a microprocessor for controlling the operating modes.

The present invention offers a halo-illuminating light pattern for clearly showing areas of a pet's fur to the user performing brushing. Such a halo-illuminating light pattern provides a full, 360-degree light pattern of the pet's fur. This eliminates the necessity for using an additional light source, for example a flashlight or being made to settle on a light source that only highlights one side of a pet's fur, leaving another side in shadow.

A portable lighting device includes a housing, a light source supported by the housing, and an alkaline battery positioned within the housing and coupled to the light source. The alkaline battery is configured to provide a drive current to the light source, and an intensity of the light source is dependent on the drive current. The portable lighting device also includes an electronic processor positioned within the housing and coupled to the light source and the alkaline battery. The electronic processor is configured to monitor a voltage of the alkaline battery, and execute a ramp-up algorithm to control the drive current based on the voltage of the alkaline battery.

A flashlight assembly includes a light assembly with a light source and a heat sink, a power source, an electromechanical switch assembly for coupling the light source with the power source, and a metallic housing having first and second bodies coupled together to define an interior volume and including a power source compartment. The light assembly is disposed in the interior volume and compressed between the first and second bodies to secure it to the metallic housing.

An attachable lighting apparatus is presented for readily repositioning said lighting apparatus as attached to a viewing surface without detachment. The apparatus comprises a light housing section that adjusts to face a top surface of a viewing object, a side section attached to the light housing section that faces a side surface of the viewing object, a bottom section attached to the side section that faces a bottom surface of the viewing object, and a first roller device positioned about a mounting element, a portion of said first roller device protruding through an aperture within the light housing section, wherein a switch is triggered to activate one or more lighting elements of the light housing section when the light housing section faces the top surface of the viewing object.

Lighting devices are disclosed for use with handheld surgical instruments, along with holsters for supporting surgical instruments with lighting devices thereon and kits containing surgical instruments and lighting devices.

A compact precision illumination source mounts on a finger of a user for providing localized illumination for precision tasks such as surgical procedures and other tasks performed in dark or confined spaces. A frame having a circular or arcuate shape engages the finger, and secures an enclosure having a small but powerful bright, light focused on a predetermined region defined by the end of the digit that is likely the activity region for an instrument grasped by the digit. The frame engages a charge module for aligning external conductors for recharging a power supply in the illumination source.