A decorative member according the present disclosure includes: a wooden veneer having a plurality of through-holes which transmit light from a back face side to a front face side; a transparent reinforcing layer laminated to a back face side of the veneer; and a coating layer which is laminated to a front face side of the veneer and fills interiors of the plurality of through-holes.

A ball is provided forming an inside structure of the snow person, the ball having an inner and outer surface. The ball is a unitary work piece that is free and unconnected to other work pieces. An adhesion surface is disposed on the outer surface of the ball, the adhesion surface provided with nodules that extend away from the surface of the ball to adhere snow while the ball is rolled. Light units are integrated into the surface of the ball and having light emitting portions that extend away from the surface of the ball. A light output of the light units is selected to transmit light through a layer of snow. Connections between the light units situated within the ball connect the light units together.

A light emitting device (1) comprising a light exit surface (41) and at least one light source (5) configured to, in operation, emit light, wherein the light emitting device is configured to provide a light output at the light exit surface (41), the light output comprising at least one peak intensity in a first direction (A) and an intensity cut-off in at least one second direction (B), where the intensity in the at least one second direction (B) is less than 10% of the peak intensity in the first direction (A), and wherein the light emitting device (1) comprises a plurality of sparkling elements (6) arranged in the optical path of at least a part of the light emitted by the at least one light source (5), at least two sparkling elements of the plurality of sparkling elements (6) being configured and arranged to be visible when observed from a viewing position corresponding to the at least one second direction (B).

A lamp comprises a motor having a shaft. A rotor is driven by the shaft to rotate about a first rotational axis and having an offset support defining a second rotational axis that is not parallel to the first rotational axis and that is offset from the first rotational axis. A light source is mounted to the offset support so as to rotate about the second rotational axis, the light source having one or more lights. A system constrains movement of the light source relative to the second rotational axis when the rotor rotates about the first rotational axis. A controller unit actuates the motor and the light source.

A cake decoration that enables visual shows controlled by a controller that is either remote to the decoration or integral with the decoration.

The present invention relates to a lighting apparatus (100) for a flagpole for illuminating a flag hoisted on the flagpole. The lighting apparatus (100) comprises a star polygon shaped disc (102) having an upper surface (102-1) and a lower surface (102-2), the lower surface (102-2) comprising a plurality of panels (106). Each of the plurality of panels (106) is inclined at an angle with respect to an adjacent panel (106). The lighting apparatus (100) further comprises a plurality of solar panels (104) installed on the upper surface (102-1) of the disc (102), and a plurality of lighting units (108) arranged in each of the plurality of panels (106) of the lower surface (102-2) of the disc (102). The lighting apparatus (100) emits light rays in the form of a star pattern and illuminates a wide coverage of the flag.

A decorative ring includes a body having a hollow tubular structure and defining a body space. A plurality of electrical energy generating elements is located in the body space and spaced apart from each other. The body space is divided into a plurality of sub-body spaces separated from each other. Each of plurality of electrical energy generating elements includes a first porous electrode, an eggshell membrane, and a second porous electrode stacked on each other in that order. A light emitting element is located on the body and electrically connected to one of the plurality of electrical energy generating elements. A liquid having positive ions and negative ions in the body space.

A stringed holiday lighting ornament contains both drain holes at its base to alleviate moisture build-up, and protruding magnets for secure attachment to ferromagnetic surfaces, whereby such protrusion permits the drain holes to be exposed to the air and thus flow and/or evaporate away accumulated moisture.

An electric fireplace (10) includes a fireplace housing (12) and an electrical insert (40). The fireplace housing (12) includes a base panel (30) having a base opening (230A), a back panel (32), and at least one side panel (34). The electrical insert (40) is sized and shaped to fit and be supported and retained within the base opening (230A). Additionally, the electrical insert (40) can include a heater (26), and a controller (28) including a processor that is configured to control operation of the electric fireplace (10). Further, each of the base panel (30), the back panel (32) and the at least one side panel (34) can be manufactured and installed independently of one another. The fireplace housing (12) can further include a front frame (236) that is manufactured and installed independently of each of the base panel (30), the back panel (32) and the at least one side panel (34). Still further, at least one of the back panel (32) and the at least one side panel (34) can be foldable.

Disclosed is a light emitting device, which includes a housing having a light transmittable portion, which has a first region and a second region; a light shield layer, covered on a wall surface of the first region; and a light emitting assembly, arranged in the housing, the light emitting assembly is configured to emit a first beam able to travel through the housing and project a pattern to an ambient environment. The light emitting assembly is further configured to emit a second beam able to transmit through the light transmittable portion; and the second beam transmitted through the first region and the light shield layer has a first brightness, the second beam transmitted through the second region has a second brightness greater than the first brightness.