Product Features:
1. Stronger stability: the curved arm structure can improve the support stability of the moldboard, reduce vibration and deformation, thus ensuring the precision and quality of injection molding. The design of this structure helps to improve the overall stability of the injection molding machine, making it possible to maintain a high degree of precision during the production process and reduce fluctuations in the quality of the finished product caused by mechanical vibration.
2. Higher precision: The curved arm structure makes the injection molding machine more controllable and more precise, which can meet the requirements of various injection molding processes on the quality of injection molding. The design of this structure optimizes the control parameters during the injection process, making the finished products more delicate and meeting the market demand for high-quality products.
3. Through its unique structural design, the curved arm injection molding machine not only improves the stability of the injection molding process, but also significantly improves the precision and quality of the finished product, which is a kind of high-efficiency and high-quality production equipment in modern injection molding production.
4. Mold clamping method: The curved-wall injection molding machine achieves mold clamping through mechanical structure instead of the traditional hydraulic method. This makes the injection molding machine more stable and precise in the clamping process.
5. Cylinder size: Due to the use of smaller cylinders, curved-wall injection molding machines require smaller cylinder sizes to provide the same clamping force, thus reducing the overall size and cost of the machine.
6. Clamping force control: The clamping force of a curved-wall injection molding machine is greatly affected by temperature. This is because the clamping force is determined by the predetermined position of the crank arm, and the position on the injection molding machine changes when the plastic mold is subjected to thermal expansion. Therefore, when using a curved-wall injection molding machine, the clamping force needs to be adjusted according to the temperature change to ensure proper clamping of the mold.
7. Mold Support:Curved-wall injection molding machines generally push on the outer edges of the moldboard, so the center part is weak. This means that when designing the mold, it is necessary to consider how to strengthen the support of the center part in order to prevent the mold from deforming during the clamping process.
8. Efficiency and Cost:The fast clamping and smaller cylinder design of curved-wall injection molding machines helps to increase productivity while reducing energy consumption and costs.
9. Automation Integration: Curved-wall injection molding machines are easy to integrate into automated production lines to achieve a higher degree of automated production.
10. Range of applications: Curved-wall injection molding machines are suitable for injection molding of a variety of plastic materials, especially where fast clamping and precise control are required.
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| DESCRIPTION | UNIT | JM-580T | JM-800T | JM-1000T | JM-1000T | JM-1200T | JM-1400T | JM-1280T | JM-1300T | JM-1500T | JM-1800T | |||
| INJECTION UNIT | Screw Moder | / | Standard | |||||||||||
| Screw Diameter | mm | À32 | À35 | À38 | À40 | À42 | À50 | À50 | À55 | À50 | À65 | À65 | À75 | |
| Injection Pressure | kg/cm² | 165 | 180 | 168 | 160 | 160 | 195 | 195 | 175 | 195 | 215 | 215 | 198 | |
| Theoretical Shot Volume | cm³ | 95 | 135 | 160 | 175 | 228 | 280 | 330 | 430 | 600 | 630 | 730 | 1077 | |
| Maximum Shot Weight(PS) | g(oz) | 72 | 110 | 130 | 145 | 170 | 250 | 265 | 385 | 550 | 580 | 690 | 980 | |
| Injection Pate(PS) | g/s | 68 | 69 | 91 | 93 | 150 | 155 | 150 | 100 | 155 | 160 | 175 | 180 | |
| Screw Speed | r/min | 0-200 | 0-180 | 0-180 | 0-180 | 6-300 | 6-300 | 6-300 | 6-300 | 6-300 | 6-300 | 6-300 | 4-500 | |
| GLAMPING UNIT | Clamping Type | / | Inverted Double Bent Elbow | |||||||||||
| Clamping Force | ton | 580 | 800 | 1000 | 1000 | 1200 | 1400 | 1280 | 1300 | 1500 | 1800 | |||
| Max. mould Plate Stroke | mm | 200 | 280 | 280 | 330 | 320 | 320 | 320 | 320 | 320 | 320 | 320 | 360 | |
| Mould Thickness | mm | 100-300 | 100-330 | 100-330 | 100-410 | 150-400 | 150-400 | 150-400 | 100-400 | 100-430 | 100-430 | 100-430 | 100-500 | |
| Space Between Tie Bars | mm | 308×205 | 364×244 | 364×244 | 364×244 | 420×320 | 420×320 | 485×340 | 485×340 | 590×410 | 590×410 | 590×410 | 590×410 | |
| Mould Plate Size | mm | 450×345 | 525×405 | 525×405 | 525×405 | 580×480 | 580×480 | 640×500 | 640×500 | 760×620 | 760×620 | 760×620 | 760×620 | |
| Ejection Force/Stroke | KN/mm | 25/60 | 25/80 | 25/80 | 25/80 | 45/80 | 45/80 | 45/80 | 45/90 | 40/85 | 40/85 | 40/90 | 50/100 | |
| OTHERS | Motor Power | kW | 4/5.5 | 5.5 | 7.5 | 7.5 | 7.5 | 7.5/11 | 11/13 | 11/13 | 13 | 15 | 13/15 | 13/15 |
| Heating Power | kW | 4 | 5 | 6 | 6 | 7.5 | 7.5 | 8.5 | 8.5 | 8.5 | 8.5 | 8.5 | 9 | |
| Machine Weight(approx.) | t | 1.25 | 1.85 | 1.9 | 1.98 | 2.3 | 2.3 | 2.5 | 2.65 | 2.98 | 3.2 | 3.2 | 3.6 | |
| Machine Dimensions(approx.) | m | 1.43×0.82×2.4 | 1.6×0.83×2.62 | 1.6×0.83×2.62 | 1.6×0.83×2.62 | 1.7×0.93×2.77 | 1.72×0.93×2.77 | 1.7×0.94×2.85 | 1.72×0.94×2.5 | 1.72×0.98×2 | 1.8×0.98×2.1 | 1.8×0.98×2.6 | 2.1×1.2×3.1 | |
