Injection mold construction


Injection mold construction is the process of creating molds that are used to perform injection molding operations using an injection molding machine. These are generally used to produce plastic parts using a core and a cavity.
Molds are designed as two-plate or three-plate molds, depending on the type of component to be manufactured. The two plate mold requires a single day in light, while the three plate mold requires two days. Mold construction depends on the shape of the component, which determines the parting line selection, runner and gate selection and component ejection system selection. The mold base size depends on component size and number of cavities to be planned per mold.

Design considerations

Elements

The core and cavity will be usually be made of either P20, En 30B, S7, H13, or 420SS grade steel. The core is the male part which forms the internal shape of molding. The cavity is the female part which forms external shape of molding.

Gate types

The two main gate systems are manually trimmed gates and automatically trimmed gates. The following examples show where they are used:
Injection molds are designed as two halves, a core half and a cavity half in order to eject the component. For each cycle, the core and cavity are aligned to ensure quality. This alignment is ensured by guide pillar and guide bush. Usually, four guide pillars and guide bushes are used, out of which three pillars are of one diameter and one is of a different diameter, to force the plates into a single configuration. The register ring has interference fit in top plate and transmission fit with the injection molding machine pattern, aligning the machine pattern and top plate.

Mold cooling

Desirable attributes of the mold cooling design include:
Cooling can affect product quality