Patent ID: 9718962
Date: 2017-08-01
CPC Classifications: B29C,B29K,C08J,C08L

Claim:
1. A latex pad produced by a method comprising the steps of: step 1: mixing 20 parts by weight of a natural latex with about 50% moisture content and 80 parts by weight of an artificial latex with about 40% moisture content in an agitating machine at a stirring speed of 1200 rpm for 20 minutes to obtain a mixture of latexes; step 2: adding silver nanoparticles to the mixture of latexes obtained in step 1 at a proportion of about 3% by weight based on 100% by weight of the mixture of latexes, and stirring continuously at a speed of 1200 rpm for 30 minutes until the silver nanoparticles are evenly dispersed in the latexes to form a nano silver-latex mixture; step 3: adding zinc oxide nanoparticles to the nano silver-latex mixture obtained in step 2 at a proportion of about 5.15% by weight based on 100% by weight of the mixture of latexes, and stirring continuously at a speed of 1200 rpm for 15 minutes until the zinc oxide nanoparticles are evenly dispersed in the latexes to form a nano zinc oxide-nano silver-latex mixture; step 4: adding active carbon to the nano zinc oxide-nano silver-latex mixture obtained in step 3 at a proportion of about 5.41% by weight based on 100% by weight of the mixture of latexes, and stirring at a speed of 1200-1600 rpm for 6 minutes to form an active carbon-nano zinc oxide-nano silver-latex mixture; step 5: adding a vulcanizing promoter to the active carbon-nano zinc oxide-nano silver-latex mixture obtained in step 4 at a proportion of about 5.68% by weight based on 100% by weight of the mixture of latexes, and stirring at a speed of 1200-1600 rpm for 5 minutes to form a composition for producing a latex pad; step 6: pouring the composition prepared in step 5 into a storage tank, and subjecting it to a foaming process to form a foamed material; step 7: pouring the foamed material obtained in step 6 into a coating machine, then plating the foamed material onto a conveying platform via the coating machine, and leveling down the plated foamed material by scraping; step 8: transferring the scraped foamed material obtained in step 7 into a high temperature oven by the conveying platform at a speed of 3 m/min, and solidifying the surface of the foamed material at 265° C. to form a surface fixed material; step 9: transferring the surface fixed material obtained in step 8 into an oven by the conveying platform at a speed of 3 m/min, and bake ripening the material at 165° C. to form a ripened material; step 10: transferring the ripened material obtained in step 9 into a cold roller by the conveying platform at a speed of 3 m/min, and carrying out pressure roll cooling process at 20° C. to form a latex pad; step 11: covering the latex pad obtained in step 10 with an isolation membrane made of polyethylene, and winding the latex pad together with the isolation membrane into a coil of latex pad, wherein the latex pad comprises 20 parts by weight of natural latex and 80 parts by weight of artificial latex; said latex pad further including 3.00% by weight of silver nanoparticles, 5.15% by weight of zinc oxide nanoparticles, 5.41% by weight of active carbon, and 5.68% by weight of the vulcanizing promoter, based on 100% by weight of the natural and artificial latexes.