Process for manufacturing aluminum alloy wheel

The invention claimed is: 1. A process for manufacturing an aluminum alloy wheel, the process comprising: casting, de-flashing, soaking, spinning, thermal treatment, de-gating, X-ray and machining; during the casting, a casting mold is cooled with water, a holding pressure is 830-850 mbar, a holding pressure time is 120-150 s, and a cooling time after pressure relief is 35-50 s, wherein a cast blank is produced from the casting; the de-flashing comprises removing flashes of the cast blank at a rim of the cast blank with a de-flashing device, a revolving speed of a de-flashing milling cutter of the de-flashing device being set at 300-350 r/min, a feed rate of the de-flashing milling cutter being 600-1200 mm/min, a multiplying power being 150%, and a de-flashing time being 40-60 s; the soaking comprises reheating of the cast blank that has been de-flashed, an annular soaking furnace being used during the soaking, a temperature of the annular soaking furnace being set in three zones, and a furnace gas temperature of the annular soaking furnace being set at 380-400° C.; the spinning comprises an adaptive spinning mold, the cast blank with a window sealing layer and an inner diameter of a wheel well of the cast blank being used to realize contact with the adaptive spinning mold, an initial temperature of the adaptive spinning mold being 200° C., a tail cap pressure being set at 4.5-6 Mpa, a spinning roller feed rate being 400-600 mm/min, and a spinning time being 40-60 s; the thermal treatment comprises direct solution treatment and aging on the cast blank in a thermal treatment furnace after the spinning, a solution treatment temperature being set at 545° C., a solution treatment holding temperature time being set at 240-280 min, a quenching temperature being set at 75° C., an aging temperature being set at 155° C., and an aging holding temperature time being set at 150-180 min. 2. The process for manufacturing an aluminum alloy wheel according to claim 1 , wherein for the casting, the holding pressure is 830 mbar, the holding pressure time is 120 s, and the cooling time after pressure relief is 35 s; for the de-flashing, the revolving speed of the de-flashing milling cutter is set at 300 r/min, the feed rate of the de-flashing milling cutter is 600 mm/min, the multiplying power is 150%, and the de-flashing time is 40 s; for the soaking, the furnace gas temperature is set at 380° C.; for the spinning, the initial temperature of the adaptive spinning mold is 200° C., the tail cap pressure is set at 4.5 Mpa, the spinning roller feed rate is 400 mm/min, and the spinning time is 40 s; for the thermal treatment, the solution treatment temperature is set at 545° C., the solution treatment holding temperature time is set at 240 min, the quenching temperature is set at 75° C., the aging temperature is set at 155° C., and the aging holding temperature time is set at 150 min. 3. The process for manufacturing an aluminum alloy wheel according to claim 1 , wherein for the casting, the holding pressure is 850 mbar, the holding pressure time is 150 s, and the cooling time after pressure relief is 50 s; for the de-flashing, the revolving speed of the de-flashing milling cutter is set at 350 r/min, the feed rate of the de-flashing milling cutter is 1200 mm/min, the multiplying power is 150%, and the de-flashing time is 60 s; for the soaking, the furnace gas temperature is set at 400° C.; for the spinning, the initial temperature of the adaptive spinning mold is 200° C., the tail cap pressure is set at 6 Mpa, the spinning roller feed rate is 600 mm/min, and the spinning time is 60 s; for the thermal treatment, the solution treatment temperature is set at 545° C., the solution treatment holding temperature time is set at 280 min, the quenching temperature is set at 75° C., the aging temperature is set at 155° C., and the aging holding temperature time is set at 180 min.