▎ 摘　　要

NOVELTY - The fitting has a light emitting module connected with a shell. A control module (3) drives the light-emitting module to emit light. A graphene layer is arranged close to the light emitting module, where the heat energy generated by the light emitting module is excited and releases far infrared rays and the thickness of the graphene layer (4) gradually raises towards a heat source direction close to a light-electrode module, where the thickness is gradually increased towards a light source direction. The light emitting module comprises a light source plate (21) and a lamp bead (22). The graphene layer is connected on the light source plate, where a thickness of the graphene layer is gradually increased along the direction close to the lamp bead. A shell comprises a bottom plate (11). USE - LED lamp. Can also be used for an incandescent lamp and a halogen lamp. ADVANTAGE - The lamp has better illumination effect, and can release the far infrared beneficial to the human body, anti-corrosion and anti-bacteria function, and can provide a graphene layer close to the position of the light emitting module, so that the graphene layer can release far infrared ray beneficial to human body under the excitation of the heat generated when the module work, and thickness of the graphene layer is set to gradually increase along the direction close to heat source, and effectively improves the release efficiency of the far IR ray, and ensures the lamp lighting effect, and reduces preparation cost of the lamp. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a LED lamp preparation method. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of a LED lamp. Control module (3) Graphene layer (4) Bottom plate (11) Light source plate (21) Lamp bead (22)