An anti-loosing structure includes a first buckle element and a second buckle element. The first buckle element has a first substrate and a clamping portion disposed on the first substrate. The second buckle element has a second substrate, an embedding portion disposed on the second substrate, and an anti-loosing block. The embedding portion is made of an elastic material, the anti-loosing block is movably disposed in the embedding portion, and is configured to cause the embedding portion to be elastically expanded. The embedding portion is configured to be inserted into the clamping portion, causing the embedding portion to connect to the clamping portion by interference fitting.

The present invention relates to a light emitting device (100). The light emitting device comprising a carrier (130). The carrier comprising a first plurality of LEDs (110) arranged in a matrix arrangement, the matrix arrangement having a plurality of LED columns (112, 114, 116) and a plurality of LED rows (113, 115, 117), wherein LED columns of the plurality of LED columns (112, 114, 116) are spaced apart from each other with a first spacing (S1) and LED rows of the plurality of LED rows (113, 115, 117) are spaced apart from each other with a second spacing (S2) and, a second plurality of LEDs (120) arranged in a linear arrangement, the linear arrangement having a length (L) larger than a width (W), wherein LEDs of the second plurality of LEDs (120) are spaced apart from each other with a third spacing (S3), the third spacing (S3) being smaller than the first and the second spacings (S1, S2) and wherein the second plurality of LEDs (120) are arranged in between LEDs of the first plurality of LEDs (110) and within the first and the second spacings (S1, S2).

The present disclosure relates to a light-emitting diode, LED, filament (100) including a filament core. The filament core comprises a flexible elongated carrier (102) having a first side, a plurality of LEDs (104) arranged on the first side, and an encapsulant (106) embedding at least said plurality of LEDs and at least a portion of the carrier. At least one alignment member (108) protrudes from the filament core at an angle from an elongation of the filament core.

An electrodeless surface-mounted LED string light, a method and an apparatus for manufacturing the same are disclosed. The electrodeless surface-mounted LED string light includes: a first wire and a second wire; a plurality of LED units, wherein each LED units includes two surface-mounted LEDs, and luminous surfaces of the two surface-mounted LEDs are opposite to each other, and the luminous surfaces of the two surface-mounted LEDs are parallel to an axial direction of the first and second wires; and a plurality of encapsulants respectively encapsulating the two surface-mounted LEDs of the plurality of LED units therein.

A light emitting diode (LED) light source is disclosed. The LED light source comprises a lens structure that includes a hemispherical dome with a base. The LED light source comprises a cavity in the base. The cavity has an opening and a taper such that a cross-section area within the cavity is smaller than an area of the opening. The LED light source comprises a light emitting device comprising an LED die contacting the taper. The taper allows for easy insertion of the LED die into the lens structure. The taper serves to accurately align the LED die when the LED die is inserted.

A dual-color light string comprising a first insulated electrical wire cord, a second insulated electrical wire, two light-emitting diode devices (LED devices) and transparent glue. The first insulated electrical wire is partially exposed to form a first soldering section. The second insulated electrical wire is partially exposed to form a second soldering section. The two LED devices are respectively electrically connected to the first soldering section and the second soldering section, and the directions of bias of the two LED devices from the first soldering section to the second soldering section are opposite to each other; The transparent glue covers the two LED devices, the first soldering section and the soldering section, extends to partially cover a first insulating layer of the first insulated electrical wire and a second insulating layer of the second insulated electrical wire.

A light fixture includes a housing defining a recessed cavity. The housing has a top, a first side, and a second side each extending at an angle from a first end of the housing to a second end of the housing, the first end being substantially orthogonal relative to a first plane. One or more lamp units are positioned in the housing to emit light therefrom, wherein the emitted light is prevented from leaving the housing in a direction parallel to the first plane.

The present disclosure discloses an LED meshwork lamp and a production method thereof. The LED meshwork lamp includes: at least two LED string lights which are arranged in parallel along a lateral direction, the LED string light including a first conducting wire, a second conducting wire, a third conducting wire, a plurality of SMD LEDs and a plurality of encapsulation colloids; at least two auxiliary wires, the at least two auxiliary wires and the at least two LED string lights being arranged alternately one by one in parallel and spaced apart along the lateral direction; and a plurality of connecting members configured to interlace the plurality of lamp beads of each LED string light with two auxiliary wires on both sides of the LED string light to form a meshwork structure.

An electrodeless surface-mounted LED string light, a method and an apparatus for manufacturing the same are disclosed. The electrodeless surface-mounted LED string light includes: a first wire and a second wire; a plurality of LED units, wherein each LED units includes two surface-mounted LEDs, and luminous surfaces of the two surface-mounted LEDs are opposite to each other, and the luminous surfaces of the two surface-mounted LEDs are parallel to an axial direction of the first and second wires; and a plurality of encapsulants respectively encapsulating the two surface-mounted LEDs of the plurality of LED units therein.

The present disclosure discloses an LED meshwork lamp and a production method thereof. The LED meshwork lamp includes: at least two LED string lights which are arranged in parallel along a lateral direction, the LED string light including a first conducting wire, a second conducting wire, a third conducting wire, a plurality of SMD LEDs and a plurality of encapsulation colloids; at least two auxiliary wires, the at least two auxiliary wires and the at least two LED string lights being arranged alternately one by one in parallel and spaced apart along the lateral direction; and a plurality of connecting members configured to interlace the plurality of lamp beads of each LED string light with two auxiliary wires on both sides of the LED string light to form a meshwork structure.