The advantages of all-electric operation determine its suitability for precision, energy saving, and low noise. It's not suitable for molding ultra-large or ultra-high clamping force plastic parts. Its core application scenarios are as follows, especially suitable for the production needs of precision small and medium-sized parts such as eyeglass cases:

1. Precision Micro-molding (Core Main Scenarios)
Suitable for precision parts weighing 0.1~5g, such as connectors, optical lenses, precision electronic components, and medical micro-plastic parts, making it the only preferred choice for these products.

✅ Reason for suitability: Repeatability of ±0.001mm ensures dimensional consistency of micro-plastic parts, and precise control of injection volume avoids material shortages/overflows, meeting the high requirements of precision manufacturing.

2. Mass Production of Small and Medium-Sized Precision Plastic Parts (Core Scenarios for Eyeglass Cases)
Suitable for precision small and medium-sized parts weighing 5~500g, such as eyeglass cases, cosmetic packaging, charger shells, and precision components for small household appliances, making it the first choice for high-end mass production.

✅ Reasons for compatibility: Precision ensures no burrs on the edges of the eyeglass cases and controllable dimensional tolerances (within ±0.05mm), meeting brand requirements for appearance and assembly. It is also energy-efficient, significantly reducing electricity costs during mass production, and its low-noise operation is suitable for densely populated workshops.

3. High-requirement food/medical plastic parts molding:

Compatible with food packaging (cup lids, lunch boxes) and medical plastic parts (syringes, infusion set accessories), meeting FDA/food-grade environmental requirements.

✅ Reasons for compatibility: No hydraulic oil leakage, avoiding contamination of plastic parts, and high cleanliness, eliminating the need for additional oil-proofing treatment in the workshop, meeting food/medical hygiene standards.

4. High-speed mass production scenarios with multi-cavity molds: Compatible with high-speed mass production of small plastic parts using 64/128-cavity molds, such as buttons, pen barrels, and small electronic accessories.

✅ Reasons for compatibility: Each action is driven independently, with good coordination between mold opening/injection/ejection, enabling an ultra-short molding cycle of 10~20 seconds. Moreover, its stability under high-speed operation is far superior to that of hydraulic presses, and the yield rate can be consistently above 99%.