Provided is a surface light emitting illumination device including: a light guide panel on which a fine pattern is formed; a channel formed in a closed curve shape inside an edge of the light guide panel; an LED strip inserted in the channel, in which a plurality of LED chips are mounted on a flexible substrate at regular intervals; a fixing band inserted in the channel to fix the LED strip so that the LED strip is not separated from the channel; a channel communication part formed in the light guide panel to communicate with the channel.

Apparatus and associated methods relate to an energy efficient and pollution reducing post top lamp. In an illustrative example, a replaceable light unit (RLU) includes a LED package distributed about a first axis of the RLU. The LED package, for example, may emit a light being redirected by a first optical element to generate a first optical distribution along a first optical axis in a first direction, the first optical axis being substantially parallel to the first axis. The first optical distribution may be, for example, reflected by a second optical element such that at least a portion of the light in the first optical distribution may be reflected into a second optical distribution. For example, at least fifty percent of the light in the second optical distribution may be greater than fifty degrees from the first optical axis. Various embodiments may advantageously conserve energy and/or reduce light pollution.

Apparatus and associated methods relate to an energy efficient and pollution reducing post top lamp. In an illustrative example, a replaceable light unit (RLU) includes a LED package distributed about a first axis of the RLU. The LED package, for example, may emit a light being redirected by a first optical element to generate a first optical distribution along a first optical axis in a first direction, the first optical axis being substantially parallel to the first axis. The first optical distribution may be, for example, reflected by a second optical element such that at least a portion of the light in the first optical distribution may be reflected into a second optical distribution. For example, at least fifty percent of the light in the second optical distribution may be greater than fifty degrees from the first optical axis. Various embodiments may advantageously conserve energy and/or reduce light pollution.

An omnidirectional light-emitting bulb shell and a light bulb having the same, comprising a light-transmitting bulb shell, wherein, the light-transmitting bulb shell forms an enclosed space, at least one heat dissipation channel is arranged through the light-transmitting bulb shell, two ends of the heat dissipation channel are communicated with outside of the bulb shell respectively, and at least one LED filament is arranged in the enclosed space on the surface of at least part of the heat dissipation channels that is within the enclosed space. The bulb shell and the light bulb having the same can implements 360 degree omnidirectional illumination with large light-emitting angle and high light-emitting efficiency, and have good heat dissipation performance, thereby increasing the service life of the LED lamp.

An omnidirectional light-emitting bulb shell and a light bulb having the same, comprising a light-transmitting bulb shell, wherein, the light-transmitting bulb shell forms an enclosed space, at least one heat dissipation channel is arranged through the light-transmitting bulb shell, two ends of the heat dissipation channel are communicated with outside of the bulb shell respectively, and at least one LED filament is arranged in the enclosed space on the surface of at least part of the heat dissipation channels that is within the enclosed space. The bulb shell and the light bulb having the same can implements 360 degree omnidirectional illumination with large light-emitting angle and high light-emitting efficiency, and have good heat dissipation performance, thereby increasing the service life of the LED lamp.

This application relates to an incandescent bulb-type LED lamp having a heat dissipation function. In one aspect, the LED lamp includes a globe forming an external shape of the lamp, and an LED module supported by a stem in which a gas injection portion is formed and installed inside the globe. The LED lamp may also include a power supply unit for supplying power to the LED module, and a base bonded to one side of the globe and connected to a socket to supply commercial power to the power supply unit. The LED lamp may further include a heat conduction member filled in an internal space formed by an inner surface of the base and a printed circuit board (PCB) of the power supply unit and configured to dissipate heat generated from the LED module and the power supply unit to the outside through the base.

This application relates to an incandescent bulb-type LED lamp having a heat dissipation function. In one aspect, the LED lamp includes a globe forming an external shape of the lamp, and an LED module supported by a stem in which a gas injection portion is formed and installed inside the globe. The LED lamp may also include a power supply unit for supplying power to the LED module, and a base bonded to one side of the globe and connected to a socket to supply commercial power to the power supply unit. The LED lamp may further include a heat conduction member filled in an internal space formed by an inner surface of the base and a printed circuit board (PCB) of the power supply unit and configured to dissipate heat generated from the LED module and the power supply unit to the outside through the base.

A two-part device, automotive lighting unit and method of manufacture are described herein. A two-part device includes an assembly. The assembly includes a first part having a first fixation face and a second part separate from the first part. The second part has a second fixation face. The first and second parts are arranged adjacent one another with the first fixation face in contact with the second fixation face. The assembly further includes a circlip fixation position that has a rounded shape transverse to the fixation face. The two-part device also includes a circlip, which engages the rounded shape at the circlip fixation position, fixing the first and second parts together.

Provided is a surface light emitting illumination device including: a light guide panel on which a fine pattern is formed; a channel that includes a pair of first and second channels inside an edge of the light guide panel, and a third channel that connects the first and second channels; first and second LED strips inserted in the first and second channels, in which a plurality of LED chips are mounted on a flexible substrate; an electric wire inserted in the third channel to connect the first and second LED strips; first and second fixing bands inserted in the first and second channels to fix the first and second LED so that the first and second LED strips are not separated from the first and second channels; and a channel communication part formed in a side wall of the light guide panel to communicate with the first channel.

Provided is a surface light emitting illumination device including: a light guide panel on which a fine pattern is formed; a channel that includes a pair of first and second channels inside an edge of the light guide panel, and a third channel that connects the first and second channels; first and second LED strips inserted in the first and second channels, in which a plurality of LED chips are mounted on a flexible substrate; an electric wire inserted in the third channel to connect the first and second LED strips; first and second fixing bands inserted in the first and second channels to fix the first and second LED so that the first and second LED strips are not separated from the first and second channels; and a channel communication part formed in a side wall of the light guide panel to communicate with the first channel.