Patent ID: 8826965
Filing Date: 2014-09-09
Classification: B22D

Abstract:
1. A high-vacuum die-casting method using a die-casting high-vacuum mold including a fixed mold and a movable mold kept in contact with each other to form a cavity, a pipe-shaped sleeve combined with the fixed mold and having a molten metal feeding hole, a plunger having a pressure surface and movably provided in the sleeve in a longitudinal direction of the sleeve, an eject plate arranged to move toward or away from the movable mold, a plurality of eject pins slidably inserted into the movable mold and having one of their ends fixed to the eject plate, and a cover provided in the movable mold to surround a space in which the eject plate and the one ends of the eject pins are arranged and to form a sealed space, the high-vacuum die-casting method comprising: keeping the movable mold in contact with the fixed mold to form the cavity and feeding a molten metal to the sleeve through the molten metal feeding hole; an injecting step of moving a plunger in the sleeve so that the molten metal fed to the sleeve is pushed by the pressure surface of the plunger to be injected into the cavity; a cavity vacuumizing step of vacuum absorbing a gas in the cavity to discharge the vacuum-absorbed gas to the outside through a first path; a sealed space vacuumizing step of vacuum absorbing a gas in the sealed space to discharge the vacuum-absorbed gas to the outside through a second path different from the first path while the injecting step is performed; and after the molten metal injected into the cavity is hardened into a metal product, separating the movable mold from the fixed mold and moving the eject plate toward the movable mold to eject the metal product from the movable mold by the eject pins, wherein the sealed space vacuumizing step is started prior to the cavity vacuumizing step, wherein the injecting step comprises a low-speed injecting step of moving the plunger at a low speed and a high-speed injecting step of moving the plunger at a higher speed than that in the low-speed injecting step after performing the low-seed injecting step, wherein the sealed s ace vacuumizin ste is started before the sressure surface of the plunger is positioned on the downstream side of the molten metal feeding hole in the injecting direction of the molten metal into the cavity, wherein the cavity vacuumizing step is started when the pressure surface of the plunger is positioned on a downstream side of the molten metal feeding hole in an injecting direction of the molten metal into the cavity and started before the low-speed injecting step is terminated, wherein the metal product is a front pillar of a vehicle, wherein a movement speed of the plunger in the low-speed injecting step is 0.2 to 0.6 m/sec, wherein a movement speed of the plunger in the high speed injecting step is 2 to 4 m/sec, and wherein a point in time at which a switch from the low-speed injecting step to the high-speed injecting step is performed is set as a point in time at which the molten metal of about 15 to 35% of an entire volume of the cavity is injected into the cavity.