▎ 摘 要
NOVELTY - Graphene composition containing LED energy saving lamp comprises a lamp shade, a heat abstractor housing, an LED lighting module, a mounting base, and a silicon carbide thermal conductor arranged on the bottom of the heat abstractor housing and mounted on a surface of the LED lighting module. The heat abstractor housing is provided with multiple heat abstractor holes. The heat abstractor holes penetrate through the heat abstractor housing. An inner surface of the heat abstractor housing is uniformly coated with a heat radiation coating. USE - Graphene composition containing LED energy saving lamp (claimed). ADVANTAGE - The LED energy saving lamp has excellent cooling effect, can release negative ions, and removes formaldehyde, toluene, total volatile organic compounds and other decoration effects of pollutants. DETAILED DESCRIPTION - Graphene composition containing LED energy saving lamp comprises a lamp shade, a heat abstractor housing, an LED lighting module, a mounting base, and a silicon carbide thermal conductor arranged on the bottom of the heat abstractor housing and mounted on a surface of the LED lighting module. The heat abstractor housing is provided with multiple heat abstractor holes. The heat abstractor holes penetrate through the heat abstractor housing. An inner surface of the heat abstractor housing is uniformly coated with a heat radiation coating. The heat radiation coating includes 60-75 pts. wt. mixed resin, 5-6.5 pts. wt. graphene, 3-4.5 pts. wt. sodium montmorillonite, 4-6.5 pts. wt. carboxylated styrene butadiene rubber latex, 1.5-2 pts. wt. silicone resin methyl branched chain silicone oil, 0.7-1.2 pts. wt. polyethylene glycol, 0.7-1.8 pts. wt. n-pentane, 1-2.5 pts. wt. nano silicon dioxide, 7-9 pts. wt. polyacrylonitrile-based carbon fibers, 1-2 pts. wt. fumed silicon dioxide, 5.5-7 pts. wt. flame retardant, 4-6 pts. wt. modified aromatic amine curing agent, 15-20 pts. wt. solvent, 0.1-0.15 pt. wt. cerium oxide, 1.5-2 pts. wt. active mineral powder and 1.5-2.5 pts. wt. traditional Chinese medicine essential oil. The mixed resin is a mixture of phenolic resin and epoxy resin in a mass ratio of 2:1-3:1. The polyacrylonitrile-based carbon fiber has a length of 0.01 mm. The flame retardant is ammonium polyphosphate, melamine and expanded graphite in a mass ratio of 2:1.5:1.3. The solvent is diacetone alcohol and butyl ester in a mass ratio of 3:1-3:2. The active mineral powder is germanium stone, fluorite, tourmaline and zinc spinel in a weight ratio of 2.5:3:3.5:1.7. The tourmaline is a mixture of magnesium tourmaline and lithium tourmaline in a weight ratio of 4:3. The active mineral powder has a particle size of less than or equal to 15 mu m. The heat radiation coating is prepared by adding mixed resin, sodium-montmorillonite, carboxylated styrene-butadiene rubber latex, silicone resin methyl branched chain silicone oil, polyethylene glycol, n-pentane, nano silicon dioxide, polyacrylonitrile-based carbon fiber, graphene, fumed silicon dioxide, flame retardant and solvent to a stirrer, uniformly mixing under high-speed stirring condition at 80 degrees C for 40 minutes to obtain a mixture (A), removing impurities from 70-80 pts. wt. radix isatidis, 20-25 pts. wt. Areca catechu, 15-20 pts. wt. lavender, 3-5 pts. wt. Chinese Pulsatilla root, 1-3 pts. wt. rhizoma coptidis, 3-5 pts. wt. Anemone hupehensis, 3-5 pts. wt. Acorus calamus, 3-4 pts. wt. Salvia miltiorrhiza, 3-4 pts. wt. Polygonum hydropiper and 5-8 pts. wt. radix stemonae, drying into a vacuum oven at -20 degrees C for 2-3 hours, and pretreating in a microwave drying machine for 30-40 minutes at a microwave power of 17 kW, putting the treated materials into a superfine pulverizer for pulverizing to obtain crude drug powder with a particle size of 60 mesh, putting the crude drug powder into an extraction vessel of a supercritical carbon dioxide extraction device at an extraction pressure of 28 MPa, an extraction temperature of 45 degrees C and a carbon dioxide flow rate of 1100 l/hour for 2 hours, directly collecting crude oil from an outlet of a separation reactor, freezing the crude product at 5 degrees C for 70 minutes, centrifuging the frozen crude oil using a high-speed refrigerated centrifuge at a revolution speed of 17000 rpm for 25 minutes, vacuum drying at 85 degrees C for 3 hours to obtain the volatile oil (B), washing 15-18 pts. wt. Ganoderma lucidum, 1-3 pts. wt. mint, 1-3 pts. wt. Crocus sativus, 1.5-2.5 pts. wt. sweet marjoram, 3-4 pts. wt. purslane, 3-4 pts. wt. Agastache rugosa, 3-4 pts. wt. Euphorbia and 3-4 pts. wt. Chinese mugwort, drying, pulverizing into a superfine pulverizer through 30 mesh, soaking into 7 times the amount of mass of the deionized water for 5 hours, stirring, dispersing and mixing to obtain the traditional Chinese medicine mixture, boiling traditional Chinese medicine mixture at 80 degrees C for 2 hours, collecting the distillate, adding diethyl ether to the distillate for extraction in a volume ratio of 2.5:1, taking an upper oil phase, adding 0.13-0.2 pts. wt. anhydrous sodium sulfate, carrying out drying process to obtain volatile oil (C), uniformly mixing the volatile oil (B) and volatile oil (C) to obtain a mixed oil, under stirring condition, sequentially adding wheat germ essential oil, geranium essential oil, snow lotus flower essential oil, lemon essential oil and grapefruit essential oil, fully stirring for 45 minutes, allowing to stand for 30 minutes, filtering to remove impurities to obtain the traditional Chinese medicine essential oil, where the mass ratio of mixed oil, wheat germ essential oil, geranium essential oil, snow lotus flower essential oil, lemon essential oil and grapefruit essential oil is 2:0.5:0.5:0.6:0.4:0.5, mixing Chinese medicinal essential oil and the mixture (A) at 70-80 degrees C for 15 minutes to obtain a pre-mixed material, introducing the pre-mixed material into a ball mill, adding cerium oxide, an active mineral powder and modified aromatic amine curing agent, crushing at 70-80 degrees C for 4.5 hours, and filtering to obtain heat radiation coating.