Nanxing Panel Dividing Saw with Printer+Software NPC330S 24.2KW (3270x90mm)
₹3,650,000.00 ₹4,562,500.00
Warranty
12 Months Country of origin
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The Nanxing Panel Dividing Saw with Printer+Software NPC330S 24.2KW (3270x90mm) is an advanced beam saw machine and CNC panel saw designed for high-volume automatic panel cutting in industrial furniture production. As a panel dividing saw, it delivers precise, repeatable cuts through plywood cutting, MDF sheet cutting, and laminated board processing. This automatic panel cutting machine is the benchmark for large-format panel division in modular furniture, kitchen, and wardrobe manufacturing plants.
Features → Advantages → Benefits
FEATURE
ADVANTAGE
BENEFIT
| SAFETY | ||
| ISO 9001 certified production; full factory run-off before dispatch | Every machine tested under load before leaving factory | Arrives ready to produce with verified performance |
| India service engineers for installation and training | Local support team reduces response time to hours, not days | Maximum uptime from day one of production |
| QUALITY | ||
| Scoring saw unit — independent from main saw blade | Pre-scores bottom laminate face before main blade cut | Zero bottom-face tear-out on melamine, HPL, and lacquered boards |
| Main saw blade diameter up to 400 mm at 4,500+ RPM | Delivers clean, straight cuts through 80–100 mm stack height | Cabinet-ready panel edges without secondary sanding |
| CNC programmable back gauge with ±0.1 mm accuracy | Each cut dimension set digitally — no manual fence adjustment | Dimensional accuracy across thousands of cuts per day |
| Hardened steel guide rails on beam and back gauge | Smooth, play-free motion maintained over years of use | Cut squareness ≤ 0.1 mm/m maintained throughout machine life |
| Automatic optimisation software with cut list import | Calculates most efficient cut sequence from panel nesting plan | Waste under 4% on typical sheet material cutting plans |
| PRODUCTIVITY | ||
| CNC back gauge processes complete cut plan automatically | Operator loads panels; machine executes full cut sequence | Output of 600–1,200 panels per 8-hour shift |
| Simultaneous scoring and main cutting in one pass | No two-pass process required for laminated boards | Cycle time per cut under 12 seconds on standard panels |
| Up to 90 mm stack height — cut multiple panels per cycle | Batch-process identical panels in one beam press cycle | Output multiplied 3–5× vs. single-sheet cutting methods |
| Air cushion table surface on large models | Panels float on air for effortless manual repositioning | Reduced operator fatigue; faster panel handling between cuts |
| Touchscreen CNC interface with job memory storage | Save and recall cut plans for repeat orders instantly | Job changeover under 60 seconds for repeat production runs |
| RELIABILITY | ||
| Welded and stress-relieved machine bed | Eliminates long-term frame distortion under cutting loads | Beam saw maintains cut squareness for 15+ years of operation |
| Industrial-grade pneumatic clamping system | Consistent 6–8 bar clamping pressure every cycle | Panel held firmly with no drift during cutting |
| Servo-driven back gauge on precision ball screw | Accurate, backlash-free positioning at all feed speeds | Repeatable ±0.1 mm back gauge position throughout machine life |
| Main motor with auto-restart after power restoration | Machine safely restores to last known state after power event | Minimal production disruption from external power issues |
| Replaces 2–3 manual panel saws and their operators | One beam saw operator manages full cut plan automatically | Labour indicative cost reduction — actual savings vary–15 lakh per year at typical Indian wages |
| Optimisation software reduces sheet waste to under 4% | Every mm² of MDF or plywood is planned before cutting | Material saving of ₹20,000–₹60,000 per month in active factory |
| 415 V / 50 Hz supply — standard Indian industrial power | No special electrical work required at installation | Machine ready to produce within 1 day of delivery |
| High stack cutting multiplies throughput per kWh consumed | Energy per panel cut dramatically lower than single-sheet methods | Electricity cost per 1,000 panels reduced by 60–70% |
| Long service life — 15 to 20 years with scheduled maintenance | Depreciation spread over decades of production | Lowest cost-per-cut of any panel processing method |