Ingot casting equipment

Abstract

The invention belongs to the technical field of ingot casting, and particularly relates to ingot casting equipment which comprises a heat preservation bin, a primary cooling part and a jacking part, a material pouring opening and a first opening are formed in the heat preservation bin, and a through hole is formed in the primary cooling part; the ingot casting equipment further comprises a door plate assembly, a turnover device and a cooling device, the door plate assembly is arranged at the first opening and comprises two bin doors, the two bin doors can move relatively and can move towards the primary cooling part, at least one bin door is provided with a first channel, the first channel is located on the side, facing the other bin door, of the bin door, the faces, facing the primary cooling piece, of the two bin doors are each provided with a heat preservation block, a first groove is formed in the heat preservation block located on the bin door provided with the first channel, and the first groove is located in the side, facing the other heat preservation block, of the heat preservation block. The heat utilization rate of the heat preservation bin is higher, a bottom-to-top cooling mode is adopted, the surface of a formed casting is smoother, and other devices for grabbing a mold top cover do not need to be additionally arranged when a formed part is separated through mold overturning.

Description

technical field [0001] The invention belongs to the technical field of ingot casting, and in particular relates to ingot casting equipment. Background technique [0002] At present, ingot casting of bulk metal or alloy mainly relies on manual and semi-automatic ingot casting machines and tunnel-type ingot casting machines. The overall structure of the equipment is complex and the volume is large. The following problems exist in the production and processing process: Preheat at the preheating station, then move the mold to the injection station through the auxiliary transfer mechanism, and inject material into the mold through the pouring mechanism, the mold will vibrate during the transfer process and cause the surface of the melt to flow Unevenness, at the same time, the temperature of the mold will decrease during the moving process, which will affect the forming quality of the subsequent metal or alloy surface; (2) After the injection is completed, place the mold in the c...

AI Technical Summary

Problems solved by technology

[0002] At present, ingot casting of bulk metal or alloy mainly relies on manual and semi-automatic ingot casting machines and tunnel-type ingot casting machines. The overall structure of the equipment is complex and the volume is large. The following problems exist in the production and processing process: Preheat at the preheating station, then move the mold to the injection station through the auxiliary transfer mechanism, and inject material into the mold through the pouring mechanism, the mold will vibrate during the transfer process and cause the surface of the melt to flow Unevenness, at the same time, the temperature of the mold will decrease during the moving process, which will affect the forming quality of the subsequent metal or alloy surface; (2) After the injection is completed, place the mold in the cooling area for cooling and forming. During the cooling process, the surface of the melt generally solidifies Faster, often the surface of the melt has begun to solidify before it flows evenly, resulting in poor surface smoothness of the final formed metal or alloy parts

Images