Medical injection molds are specialized tools used to produce precise and high-quality plastic components for medical devices, packaging, and equipment. The selection of mold type depends on the specific product requirements, production volume, and material used.

Single-cavity molds are designed to produce one component per injection cycle. They are often used for specialized medical parts or low-volume production runs. Single-cavity molds provide high precision and are ideal for creating components that require detailed features or strict quality control, such as syringes, small caps, and custom medical fittings.

Multi-Cavity Molds

Multi-cavity molds can produce multiple identical parts in a single cycle. These molds are suitable for medium to high-volume production of medical components like bottle caps, connectors, and disposable items. Multi-cavity designs increase production efficiency while maintaining consistent quality across all parts.

Family Molds

Family molds, also known as multi-component molds, allow different but related parts to be produced in one cycle. For example, a family mold can simultaneously produce both a syringe barrel and its plunger. These molds are particularly useful for packaging kits or medical sets where multiple components are assembled together, reducing handling and assembly time.

Hot Runner and Cold Runner Molds

Medical injection molds can also be classified based on the runner system. Hot runner molds maintain the plastic in a molten state within the channels, reducing material waste and cycle time. Cold runner molds use channels that cool with each injection, which can be simpler and more cost-effective for certain applications.

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The mold for a ventilation duct interface is a critical component in the production of ventilation systems used in various applications, including residential, commercial, and industrial settings. This mold is responsible for shaping the interface or connection point of ventilation ducts, providing structural integrity, precise fitment, and efficient airflow.