The invention provides a portable lighting device with an elongated main body that includes a housing with receiver, and a power source positioned within the receiver. An operational mode selector assembly with a switch assembly that is actuated by a user is operatively coupled to the power source. An illumination assembly is electrically coupled to both the operational mode selector and the power source. The illumination assembly has a primary light source with a light emitter that emits light axially along a longitudinal axis of the main body or housing through a lens. A secondary light source with a light emitter emits light substantially perpendicular to the axis to illuminate an indicia located in a side region of the illumination assembly. During operation of the portable lighting device, the components of the illumination assembly are arranged such that: (i) the primary light source does not illuminate the indicia, (ii) the secondary light source does not emit light through the lens, (iii) an appreciable amount of light emitted from the primary light source does not mix with light that is emitted from the secondary light source within the portable lighting device, and (iv) an appreciable amount of light emitted from the secondary light source does not mix with light that is emitted from the primary light source within the portable lighting device.

Disclosed are a lamp and a mining lamp The lamp includes a reflector, which is a spherical or bowl-shaped structure, an inner wall of the reflector is provided with a plurality of reflective layers in a honeycomb or scaly shape, each of the plurality of reflective layers includes a row of reflective surfaces arranged in the honeycomb or scaly shape, and all the rows of reflective surfaces are of surface reflection.

An apparatus for providing reflective lighting. The apparatus includes a light source for providing an initial light wave having first light wave characteristics and a surface having a reflective material which alters the characteristics of the light emanating from the light source, providing a secondary light having second light wave characteristics. The first light wave may not be visible to the human eye and the secondary light may be visible to the human eye. The first light wave may include invisible frequencies which are converted to visible light frequencies upon striking the reflective material.

A combination illumination and reflector device 12 is disclosed having a reflective surface 11 and a plurality of flexible LED strips 13. Each of the flexible strips 13 are electrically connected to an LED controller 14. Power is provided by battery 15 or alternate power source 18. The LED controller 14 generally provides an on off switch to the LEDs 32 of the flexible strips 13. However controller 14 may also be connected, either by hard wire or over-the-air signal, to a smart device 17 running a light control application 16. A resilient frame, such as a flexible spring steel, is sewn into a fabric sleeve/edge seam about the perimeter 21 of the reflective surface 11 which provides a stand-alone structure when in an operative position.

A nail lamp is configured to cure light-curable nail product on a user's nails. The lamp includes an array of discrete light sources. A nail treatment space is disposed beneath the array and is sized to accommodate therein at least one nail of a user so as to expose the user's at least one nail to light from the array. The nail lamp includes a number of features to improve the uniformity of exposure of the at least one user nail to light relative to existing lamps. These features include one or more angled surfaces and light reflectors.

A lighting apparatus includes a top cover, a bottom cover, a light passing cover, a battery, a power circuit, a power switch and a light source plate. The top cover has an opening part for defining a light opening. The bottom cover is fixed to the top cover forming a containing space. The light passing cover has a larger diameter than the light opening. A peripheral edge of the light passing cover engages an inner surface of the opening part of the top cover. The battery is stored in the container space. The power circuit is connected to the battery for providing a current to the LED modules of the light source plate. The power switch is connected to the power circuit to control the LED modules. The light source plate has a top side mounted with multiple LED modules.

Provided is a cross-country running lamp which includes a lamp body, at least two lamp heads and at least one switch. The lamp heads are disposed on a peripheral side of the lamp body for illumination. The switch is disposed on the lamp body for controlling on-off and brightness of the lamp heads.

A portable light may employ a light source positioned adjacent an optical element. The light source may be configured as a light emitting diode generating light with a wavelength primarily within the range of 530 nm to 700 nm with a relative peak intensity of 550 nm to 650 nm. The optical element may be configured to manipulate the emitted light into a beam or other light pattern having specific characteristics such as a certain diameter and/or shape, a certain amount of spill, and/or a certain amount of backscatter. Certain embodiments may be especially useful for emergency and rescue operations performed under conditions such as fire generated smoke.

Provided is a fixture including a base; and a light guide, which is positioned on the base and is configured to receive light emitted from a light source in a first direction and guide the received light to be emitted in a second direction crossing the first direction.

The present invention provides a lighting equipment, which successively includes a lamp head portion, a connecting portion and a tail portion; the lighting equipment further includes a short distance light source, a long distance light source, a power supply and a control switch. The short distance light source and the long distance light source are arranged inside the lamp head portion, and the light emitting direction of the short distance light source is consistent with that of the long distance light source. The power supply is provided inside the connecting portion, a positive electrode and a negative electrode of which are electrically connected to two ends of the short distance light source and two ends of the long distance light source respectively. The control switch is used for controlling a light and shade state of the short distance light source and the long distance light source.