The invention relates to a lighting-means carrier (5) for a strip-lighting luminaire, comprising: at least one lighting-means circuit board (30) having light-emitting diodes (33) that can be arranged thereon; and at least one heat sink (31) thermally connected to the lighting-means circuit board (30). In a central region, the lighting-means circuit board (30) is rigidly connected to the heat sink (31) in such a way that substantially no relative motion between the lighting-means circuit board (30) and the heat sink (31) is possible. In at least two further regions, the lighting-means circuit board (30) is connected to the heat sink (31) in a floating manner, the lighting-means circuit board (30) therefore being arranged on the heat sink (31) in such a way that the lighting-means circuit board can be moved in relation to the heat sink (31) outside of the central region. The invention further relates to a strip-lighting luminaire having at least one lighting-means carrier (5) according to the invention.

A lamp has an optically transmissive enclosure and a base. A tower extends from the base into the enclosure and supports an LED assembly in the enclosure. The LED assembly comprises a plurality of LEDs operable to emit light when energized through an electrical path from the base. The tower and the LED assembly are arranged such that the plurality of LEDs are disposed about the periphery of the tower in a band and face outwardly toward the enclosure to create a source of the light that appears as a glowing filament. The tower forms part of a heat sink that transmits heat from the LED assembly to the ambient environment. The LED assembly has a three-dimensional shape. An electrical interconnect connects a conductor to the heat sink where the conductor is in the electrical path between the LED assembly and the base.

An enclosure is divided into first and second portions by a theoretical plane defined by a horizontal line. LEDs are mounted on an LED board in the enclosure and are operable to emit light when energized through an electrical path. A first pin is mounted to a first end of the enclosure and a second pin mounted to a second end of the enclosure, both pins being in the electrical path. Braces support the LED board and comprise first and second legs. The first leg and second leg extend to a first point and a second point of intersection of the plane and the internal surface of the enclosure, respectively. A first conductor connects the first pin to the LED board and a second conductor connects the second pin to the LED board. The first conductor and first pin and the second conductor and the second pin are one-piece.

A holder to be placed on a base portion together with a light-emitting module having a board-like shape includes: a body portion; and a claw portion that is provided in the body portion, and locks onto at least a portion of a base portion-side face of the light-emitting module to temporarily hold the light-emitting module when the light-emitting module is to be placed on the base portion. In a state prior to when the holder is placed on the base portion, at least a portion of the claw portion is located closer to the base portion than a base portion-side face of the holder is. The claw portion has a shape that releases the temporary holding of the light-emitting module as a result of the claw portion abutting the base portion when the holder is placed on the base portion in a state where the light-emitting module is temporarily held.

A retrofit lamp (1) comprises a heat sink (8), a light source module (10) with a circuit board (11), whose rear side lies two-dimensionally on the heat sink (8) and at the front side of which at least one semiconductor light source (12) is arranged, and a ring (6) partially covering the front side of the light source module (10), wherein the ring (6) presses the light source module (10) onto the heat sink (8). A method serves for producing a retrofit lamp (1), wherein the rear side of the circuit board (11) of the light source module (10) is laid on the heat sink (8) and the ring (6) is put on the retrofit lamp (1) from the front such that it presses the light source module (10) onto the heat sink (8). The invention is particularly applicable to LED retrofit lamps for replacing conventional light bulbs or halogen lamps.

A lighting unit includes a housing, a bus bar and a circuit substrate. In a state where the bus bar is installed in the housing, a base part and a first spring part of the bus bar are held by the housing in a first direction, and the bus bar is positioned with respect to the housing in the first direction. In a state where the circuit substrate is installed to the bus bar installed in the housing, a bus bar contact part of the circuit substrate contacts a substrate contact part provided to a second spring part of the bus bar such that the circuit substrate is held by the base part and the second spring part in the first direction, and the circuit substrate is positioned with respect to the bus bar in the first direction.

A luminaire with a tool-less assembly feature that enhances ease of installation and serviceability in the field. The luminaire's housing defines a compartment accessible via a window adjacent a pair of opposed shoulders. The luminaire further includes a lighting module dimensioned to be received and retained in the window in an interference fit with the shoulders. The lighting module may include an LED module/light guide plate and/or an LED refractor assembly/LED gear tray. A resilient member is supported on the housing in position to abut the lighting module and deflect during insertion of the lighting module through the window, and to at least partially resile to maintain the lighting module against the shoulders in an operative position on the housing. Further, the resilient member is positioned to deflect during removal and to resile to tilt or otherwise assist in ejecting the lighting module from the housing during tool-less disassembly.

An LED support clip enables mounting of light-emitting diode (LED) modules onto support elements which may be pre-existing, such as tubing, while avoiding problems with current mounting methods. One or more LED light modules may be clamped into the LED support clip without the need for adhesives or screws, thereby forming an LED light assembly. One or more LED light assemblies may be clamped onto the support element. The LED support clip may comprise multiple clamps configured with spring tension jaws designed into the manufacturing process of the LED support clip. Support elements may be oriented horizontally, vertically or at various angles and may have a variety of cross-sectional shapes, including: square, triangular, rectangular, pentagonal, hexagonal, “I”-shaped, “L”-shaped, and round, over a wide cross-sectional dimension range.

The present invention is based on a fastening system for flush mounting a device in a wall and/or ceiling and/or similar through a hole and on the device that comprises the fastening system, wherein said fastening system comprises a gripping means and a securing system. The fastening system enables the device to be flush mounted in a wall and/or ceiling and/or similar through a hole such that the perimeter of the visible face of the device is flush with the wall and/or ceiling and/or similar.

The present invention discloses a lighting apparatus and manufacturing method thereof, including a lampshade, a lamp holder, a light source component and an electronic component; the light source component and the electronic component are electrically connected with each other; the lampshade includes a lampshade body and a mounting part; the mounting part is inserted into the lamp holder; the mounting part is engaged with a lamp pole by interference fit; the lamp pole is provided with through holes for the electronic component or wire to pass through; each of the through holes passes from a first side of the lamp pole to a second side of the lamp pole. The electronic component of the lighting apparatus of the present invention passes through the through hole of the lamp pole, thereby effectively prevent displacement of the electronic component and decreasing attrition rate of the lighting apparatus.