HMD308M8-SP6 High-Speed Injection Molding Machine
308-ton high-speed high-efficiency platform · Stable clamping · Precision compounding
HMD308M8-SP6 is designed for high-speed or multi-component injection applications such as high-speed appearance parts, small automotive parts, and electronics. The page data has been entered from screenshot technical parameter tables and unified into the same industrial premium presentation style as EVII/DUII.
Model Positioning
Model identification, application positioning, and data source organized from SP6 screenshot technical parameter tables.
| Item | Unit | Specification |
|---|---|---|
| International Rating | — | 950/308 |
| Model | — | HMD308M8-SP6 |
| Application Positioning | — | high-speed appearance parts, small automotive parts, and electronics |
| Data Source | — | SP6 screenshot technical parameter table |
Injection Unit Parameters
The high-speed injection unit shows shot volume, shot weight, speed, pressure, and plasticizing parameters by two screw configurations.
| Parameter | Unit | Option A | Option B |
|---|---|---|---|
| Theoretical Shot Volume | cm³ | 530 | 595 |
| Shot Weight (PS) | g | 482 | 541 |
| Shot Weight (PS) | oz | 17 | 19 |
| Injection Speed | mm/s | 419 | 419 |
| Screw Diameter | mm | 50 | 53 |
| Injection Pressure | MPa | 177 | 158 |
| Screw L/D Ratio | — | 24.5:1 | 23:1 |
| Screw Stroke | mm | 270 | 270 |
| Screw Speed | r/min | 0 ~ 300 | 0 ~ 300 |
Clamping Unit Parameters
Key structural parameters including clamping, platens, tie bars, mold capacity, and ejection.
| Item | Unit | Specification |
|---|---|---|
| Clamping Force | kN | 3080 |
| Opening Stroke | mm | 600 |
| Platen Size | mm | 930 × 900 |
| Space Between Tie Bars | mm | 615 × 585 |
| Max. Daylight | mm | 1250 |
| Mold Thickness (Min.-Max.) | mm | 250-650 |
| Ejector Stroke | mm | 100 |
| Ejector Force | kN | 99 |
Power / Heating / Others
Hydraulic system, drive power, heating power, temperature zones, oil tank, and overall dimensions.
| Item | Unit | Specification |
|---|---|---|
| Hydraulic System Pressure | MPa | 17.5 |
| Drive Power | kW | 37+37 |
| Plasticizing Motor Power | kW | 22 |
| Heating Power | kW | 22.5 |
| Temperature Control Zones | — | 6 |
| Oil Tank Capacity | L | 400 |
| Overall Dimensions (L × W × H) | m | 6.3 × 1.9 × 2.4 |
Due to continuous product improvement, technical parameters are subject to change without notice.
Core Advantages
Intelligent Control System
Integrates four core functions—pre-mold-opening, intelligent temperature control, intelligent mold opening, and intelligent energy monitoring. Faster mold opening converts cooling time into added capacity; a dedicated barrel-temperature algorithm cuts time-to-steady-state by 50% and reduces material waste; after a mold change, smooth opening and closing is achieved without repeatedly tuning position or pressure; energy consumption per action is visible in real time, providing a reliable basis for energy optimization.
Computer Control System
15-inch ultra-large HD TFT touchscreen with Chinese mold search and storage for 1,000 mold parameter sets, with parameters visualized graphically. High-precision digital communication boosts motion-control frequency by 5×, keeps full-load speed fluctuation below ±5 rpm, and improves pressure stability by about 15%, ensuring stable pressure, speed, and position control under high-speed, high-pressure conditions.
Digitalized MES Interface
MES interface as standard across the series, supporting OPC-UA, MQTT, and MODBUS protocols and common interfaces including RS-485, USB, CANOPEN, and EtherCAT—enabling digitalization and smart manufacturing on the customer's shop floor.
Efficient Injection Unit
Dual-cylinder balanced injection base with low-resistance injection cylinders and a high-grade control system delivers reliable positioning accuracy together with high speed and high response. The plasticizing system is optimized for the packaging industry with a dedicated high-plasticizing-capacity screw, ensuring melt quality and throughput.
High-Rigidity Clamping Structure
High-rigidity platens substantially reduce platen deformation and further enhance clamping rigidity, with deformation reduced by 15% and peak stress lowered by 10%. Special process treatment and tie-bar structural design significantly reduce the risk of tie-bar fracture, extending the service life of the entire clamping mechanism.
Self-Lubricating Wear-Resistant Structure
Steel and copper bushings adopt graphite self-lubricating structures throughout, reducing lubricant consumption and extending the service life of pins and tie bars. Tie bars use premium alloy steel with strict heat treatment and a dedicated production process and thread structure for long-lasting durability of mechanical components.
Low-Energy Single-Cylinder Injection
Mainstream models adopt a low-inertia, low-energy single-cylinder structure, reducing produced part weight by 5%–10%. Sealing of the single-cylinder injection system is further improved, significantly reducing the risk of leakage.
High-Response Injection Performance
Injection speed is increased by 15%, making thin-wall molding easier. A high-speed, low-inertia, high-response motor lifts response speed by 20%, making thin-wall part molding more effortless.
High-Precision Mold Movement & Optimized Hydraulics
A high-precision closed-loop proportional valve for mold opening and closing achieves repeat positioning accuracy of ±0.2 mm, with stable, fast, and shock-free movement that improves robot pickup accuracy and stability. The optimized hydraulic control system reduces pressure loss by 10%, delivering faster response and lower energy consumption.