In the past two years, the scale of China's aluminum industry has continued to expand, and the demand for its upstream product, ingots, has continued to increase. Modern ingot casting machine equipment is developing towards large-scale, automated and automatic.

At present, the aluminum ingot casting device widely used in industry first flows the high-temperature aluminum formed by lysis into the mold, and then pre-cools the mold to achieve the initial casting of the aluminum ingot, and then uses the aluminum ingot demoulding device to separate the initial aluminum ingot in the mold from the mold, and then circulates it back to the next mold. The aluminum liquid discharged from the aluminum outlet trough passes through the boat-shaped chute and the diverter, and is continuously cooled and condensed in the aluminum mold. The bottom of the mold is immersed in water, so that the aluminum ingot can be cooled indirectly.

When passing through the casting device, liquid aluminum is poured into the mold. After leaving the casting area, under the action of the cooling system, the heat in the crystallizer is discharged through the heat dissipation device, thereby cooling and solidifying the ingot. The present invention relates to a cooling device, which includes a cooling plate that runs through the upper and lower ends of the casting mold, and a water supply pipe is provided at each end of the cooling plate to continuously deliver water to the water plate to ensure that the bottom of the crystallizer is fully wetted; in order to reduce the amount of cold water, there is an overflow pipe on each side of the water plate, so that excess water can be drained. The water plate is provided with a plurality of water outlets to collect hot water overflowing from both sides of the water plate and the two sides, and then merge into the drain port through the closed external water pipe; the cooling water flow is adjusted in stages to achieve the best cooling effect.

In this way, the working process of the ingot casting machine is completed.