Single-layer & three-chamber solar panel laminator has a loading stage, two heating laminating stages, one cooling laminating stage, and an unloading stage.
| Item | Spec |
| Lamination : | 2700mm×7400mm |
| Open height : | maintenance height 300mm/working height100mm |
| Laminating Chamber Thickness : | ≥30mm |
| Heating Plate Thickness : | ≥55mm |
| Control Mode : | Touch Screen |
| Temperature Control : | PID intelligent Control |
| Heating Method : | Oil heating |
| Power : | AC380V 50Hz 3-phase 5-wire |
| Heating Mode : | Oil Heating |
| Power Supply : | AC380V 50Hz 3-phase 5-wire |
| Total Power : | 219KW |
| Running Power: | 110KW |
| Temperature Uniformity : | ±2℃ |
| Temperature Range : | RT--180℃ |
| Compressed Air Flow(max) : | 3600/min |
| Compressed Air Pressure : | 0.6MPa—0.8MPa |
| No. | Name | Specification | Maintenance Cycle |
| 1 | Heating oil | YD320 | ≈1 year |
| 2 | Silicone membrane | See layout | <3000 times |
| 3 | Silicone strip | Each chamber:φ18 | <3000 times |
| 4 | Silicone strip | Each chamber:φ8 | <3000 times |
| 5 | Upper chamber Teflon cloth | See layout | <3 months |
| 6 | Under chamber Teflon cloth | See layout | <3 months |
Single-layer and three-chamber photovoltaic module laminators offer several advantages in solar module production:
Improved Quality: Both single-layer and three-chamber PV module laminators are designed to produce high-quality laminated solar modules that meet the required specifications. They offer excellent control over the solar cell module lamination process, ensuring that the module components are bonded together with precision.
Faster Production: Single-layer solar laminators are faster than traditional multi-layer laminators, as they only require one lamination cycle instead of multiple cycles. The three-chamber solar laminators can also be faster than traditional laminators because they can laminate multiple sheets simultaneously.
Energy Efficiency: Both single-layer and three-chamber solar laminators use less energy than traditional multi-layer solar laminators. Single-layer solar laminators use less energy because they require fewer lamination cycles, while three-chamber laminators use less energy because they can operate at a lower temperature.
Reduced Waste: Single-layer photovoltaic module laminators produce less waste than traditional laminators because they require fewer components, and any waste generated is easier to recycle. Three-chamber laminators can also reduce waste because they can detect defects and remove faulty sheets before they are laminated.
Space Saving: Single-layer photovoltaic module laminators are smaller and require less space than traditional laminators, making them more suitable for smaller production facilities. Three-chamber photovoltaic module laminators are also more compact than traditional laminators, as they can laminate multiple sheets simultaneously in a smaller footprint.
Overall, single-layer and three-chamber photovoltaic module laminators offer several advantages, including improved quality, faster production, energy efficiency, reduced waste, and space-saving design. These benefits make them an excellent choice for solar module manufacturers looking to optimize their production solar panel manufacturing processes.
86-15033587850 
zhouyongchang@sc-solar.cn 
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