Patent ID: 7887744

Claim:
A method of injection stretch blow molding heatproof bottles, comprising: injection molding a bottomed preform by charging polyethylene terephthalate into an injection mold composed of an injection cavity mold and an injection core; quenching the preform to a temperature below the glass transition point at the time of injection molding; releasing the preform from both the injection mold and the injection core while surface layers inside and outside the body of the preform are semi-cured and the inside is still at a higher temperature in association with the cooling temperature and time; putting the mold-released preform into a cavity in a pre-blow mold and expanding the preform by air blowing for pre-blowing to adjust the wall thickness and temperature of the body of the preform; releasing the preform from the pre-blow mold and transferring the preform to a blow mold for bottle molding; and stretch blow molding the adjusted preform within a blow cavity in the blow mold by extending a stretch rod and blowing air to form a heatproof bottle with a thinner body, wherein the body wall thickness of the preform is limited within a range of 3.0-4.5 mm, wherein the adjustment of the preform by the pre-blowing is performed by expanding only the body and suppressing radiation of heat from an outer surface of the body and is started at a time of 5 ±0.5 seconds after release from the injection mold, at a temperature of 110-117° C. of the pre-blow mold, and for a pre-blowing time of 0.5-1.0 second, wherein the stretch blow molding of the bottle is started at a time of 3-4 seconds after the release from the pre-blow mold and performed by stretch blow molding the adjusted preform into the bottle, immediately followed by heat setting the body and the bottom with the blow mold to impart heat resistance to the bottle set at a temperature of 103-107° C. in the blow mold and for an air blowing time of 6-9 seconds, wherein the pre-blow mold comprises mold sections and includes a pre-blow cavity having a diameter 0.5-2.75 mm larger than an outer diameter of the preform body, and wherein the preform inside the pre-blow cavity is expanded by air blowing by a difference in diameter to reduce the eccentricity of the body wall thickness, and radiation of heat from the outer surface of the body by air-pressing the body of the preform against the pre-blow cavity surface is suppressed for 0.5-1.0 second.