Disclosed is a lighting fixture with a shroud that can be removed and repositioned on the housing of the lighting fixture. The shroud may have a first end with a first shape and a second end with a second shape that is different than the first shape. The user may reorient the shroud to face one of the two ends away from and at different elevations relative to the lens to provide different shapes to the light emitted from the fixture.

A portable solar light system is configured to move from outdoors during the day, wherein batteries are charge by photovoltaic cells, to indoors at night to provide lighting. A portable solar light system has a Sight fixture that has one or more solar light assemblies attached thereto. A photovoltaic cell is configured on a top surface of the tight fixture and the light projects light from the bottom surface of the light fixture, Sn addition, a light fixture has a top and bottom connector to allow easy placement of the fight fixture both outdoors and indoors. The top and/or bottom connectors have attachment features to allow a hook to be attached to enable the light fixture to be hung in a desired location and the bottom connector may be attached to a stand-base to form a floor lamp. An extension rod may be configured into the top or bottom connectors.

The invention provides an angle adjustable lamp, which comprises a lamp body, radiators, connecting rods and fight-transmissive covers. The radiators are rotationally connected with a side wall of the lamp body through the connecting rods, and the radiators are rotationally symmetrically distributed around a longitudinal central axis of the lamp body. The light-transmissive cover is installed at one side of the radiator away from the lamp body, and when the radiator rotates around the connecting rod, the angle between the light-transmissive cover and the lamp body changes accordingly, and the light-emitting angle of light transmitted through the light-transmissive cover also changes accordingly. For the above-mentioned adjustable lamp, a focus lighting position can be adjusted by users as required.

The invention provides an angle adjustable lamp, which comprises a lamp body, radiators, connecting rods and fight-transmissive covers. The radiators are rotationally connected with a side wall of the lamp body through the connecting rods, and the radiators are rotationally symmetrically distributed around a longitudinal central axis of the lamp body. The light-transmissive cover is installed at one side of the radiator away from the lamp body, and when the radiator rotates around the connecting rod, the angle between the light-transmissive cover and the lamp body changes accordingly, and the light-emitting angle of light transmitted through the light-transmissive cover also changes accordingly. For the above-mentioned adjustable lamp, a focus lighting position can be adjusted by users as required.

Disclosed is an integrated lamp stand, including: a support stand having three leg tubes, a center tube assembly, and a sliding connector slidably sleeved on the center tube assembly; a pivot member coupled on a top of the center tube assembly; and a lamp body pivotably connected to the pivot member. In an expanded state, the leg tubes are expanded, the sliding connector is moved to a predetermined position of the center tube assembly, the center tube assembly is elongated, and the lamp body is adjusted to a predetermined angle. In a collapsed state, the leg tubes are collapsed, the sliding connector is moved to another predetermined position of the center tube assembly, the center tube assembly is adjusted to a minimum length, and the lamp body is adjusted to another predetermined angle, whereby the lamp body and the support stand are collapsed to a slender shape.

Disclosed is an integrated lamp stand, including: a support stand having three leg tubes, a center tube assembly, and a sliding connector slidably sleeved on the center tube assembly; a pivot member coupled on a top of the center tube assembly; and a lamp body pivotably connected to the pivot member. In an expanded state, the leg tubes are expanded, the sliding connector is moved to a predetermined position of the center tube assembly, the center tube assembly is elongated, and the lamp body is adjusted to a predetermined angle. In a collapsed state, the leg tubes are collapsed, the sliding connector is moved to another predetermined position of the center tube assembly, the center tube assembly is adjusted to a minimum length, and the lamp body is adjusted to another predetermined angle, whereby the lamp body and the support stand are collapsed to a slender shape.

The present invention creates the world's first Digital Lampshade Display utilizing new lighting and display technologies such as Organic Light Emitting Diodes (OLED), Active-Matrix Organic Light-Emitting Diodes (AMOLED), Organic Light Emitting

Transistors (OLET), and E-Ink, among others. The invention herein can emit light from both the exterior and interior surface(s) of its lampshade, and will provide the user with a display upon which digital images and non-static motion imagery may be viewed. The invention will further allow the user to download images and motion imagery onto its display lampshade, to change a room's decorative and aesthetic feel. The invention will further enable the user to use the Wireless Remote Control to control the lampshade's functions such as adjusting brightness and/or contrast, selecting images to display, etc. Thus the invention herein will give the user the ability to customize on-command the color, design, pattern, and illumination characteristics of their lampshade(s).

The present invention creates the world's first Digital Lampshade Display utilizing new lighting and display technologies such as Organic Light Emitting Diodes (OLED), Active-Matrix Organic Light-Emitting Diodes (AMOLED), Organic Light Emitting

Transistors (OLET), and E-Ink, among others. The invention herein can emit light from both the exterior and interior surface(s) of its lampshade, and will provide the user with a display upon which digital images and non-static motion imagery may be viewed. The invention will further allow the user to download images and motion imagery onto its display lampshade, to change a room's decorative and aesthetic feel. The invention will further enable the user to use the Wireless Remote Control to control the lampshade's functions such as adjusting brightness and/or contrast, selecting images to display, etc. Thus the invention herein will give the user the ability to customize on-command the color, design, pattern, and illumination characteristics of their lampshade(s).

Disclosed is an integrated lamp stand, including: a support stand having three leg tubes, a center tube assembly, and a sliding connector slidably sleeved on the center tube assembly; a pivot member coupled on a top of the center tube assembly; and a lamp body pivotably connected to the pivot member. In an expanded state, the leg tubes are expanded, the sliding connector is moved to a predetermined position of the center tube assembly, the center tube assembly is elongated, and the lamp body is adjusted to a predetermined angle. In a collapsed state, the leg tubes are collapsed, the sliding connector is moved to another predetermined position of the center tube assembly, the center tube assembly is adjusted to a minimum length, and the lamp body is adjusted to another predetermined angle, whereby the lamp body and the support stand are collapsed to a slender shape.

Disclosed is an integrated lamp stand, including: a support stand having three leg tubes, a center tube assembly, and a sliding connector slidably sleeved on the center tube assembly; a pivot member coupled on a top of the center tube assembly; and a lamp body pivotably connected to the pivot member. In an expanded state, the leg tubes are expanded, the sliding connector is moved to a predetermined position of the center tube assembly, the center tube assembly is elongated, and the lamp body is adjusted to a predetermined angle. In a collapsed state, the leg tubes are collapsed, the sliding connector is moved to another predetermined position of the center tube assembly, the center tube assembly is adjusted to a minimum length, and the lamp body is adjusted to another predetermined angle, whereby the lamp body and the support stand are collapsed to a slender shape.