Product Introduction
The Pack Mate M180L4-SYB Snus Packing Machine is a fully automatic, heat-sealing pouch packing solution developed for stable, high-throughput packaging of snus particles. Designed around a 4-lane (multi-column) architecture, it combines reliable dosing, consistent sealing, and a hygienic stainless-steel build to help producers standardize pouch quality while increasing line efficiency. A responsive 7-inch touchscreen provides clear operating logic for parameter setup, production monitoring, and quick changeovers, making the machine suitable for both new installations and upgrades of existing packing lines. With a compact footprint of 1200 × 800 × 1800 mm, flexible 220V/380V power options, and an industrial-grade 3 kW drive system, the M180L4-SYB supports continuous day-to-day operation where clean appearance, stable performance, and scalable output are required.
Product Features
4-Column High-Output Configuration
Equipped with four working columns, the system delivers 30–45 bags per minute per column, enabling a strong overall throughput while keeping each lane stable. This structure supports scalable capacity planning and helps manufacturers meet peak demand without sacrificing consistency.
Neat, Market-Ready Sealing Aesthetics
The sealing form is engineered for a clean visual result: no back pattern with precise left and right seals. This improves shelf presentation and brand perception while maintaining reliable pouch closure.
Stable Heat-Sealing for Secure Package Integrity
Heat sealing provides dependable closure performance for snus pouches during handling, storage, and transport. The sealing widths are optimized for both strength and material efficiency, contributing to consistent seal quality across continuous production.
Consistent Portion Control for Uniform Consumer Experience
Using measuring cup backflow metering, the machine is designed for 0.4–0.6 g per pouch. With measuring accuracy rated at ≤ ±10%, it helps stabilize product weight and supports repeatable pouch-to-pouch consistency.
Hygienic Stainless-Steel Construction
The machine body is built with corrosion-resistant stainless steel (304 stainless steel for packaging-contact details), supporting sanitation requirements and simplifying routine cleaning. This structure is well-suited for long service life in demanding production environments.
Operator-Friendly Touchscreen Control
A 7-inch touchscreen interface streamlines operation by centralizing key settings and process monitoring. The bilingual interface (English/Chinese) reduces training time and improves day-to-day usability for diverse production teams.
Technical Specifications
| Item | Specification |
|---|---|
| Brand / Model | Pack Mate M180L4-SYB |
| Machine Type | Automatic |
| Packaging Type | Pouch |
| Applicable Material | Snus particles (as per sample) |
| Filling System | Measuring cup backflow metering |
| Target Dose Range | 0.4–0.6 g/bag |
| Packaging Speed | 30–45 bags/min (single column) × 4 columns |
| Sealing Type | Heat sealing |
| Sealing Form | No pattern on the back, left and right sealed |
| Sealing Width | Longitudinal: 4 mm; Transverse: 5 mm |
| Packaging Film Width | 120 mm |
| Measuring Accuracy | ≤ ±10% |
| Touchscreen | 7 inch |
| Voltage | 220V / 380V |
| Power | 3 kW |
| Machine Dimensions (L×W×H) | 1200 × 800 × 1800 mm |
| Net Weight | 500 kg |
| Machine Material | Stainless steel (packaging details: 304 stainless steel) |
| Interface Language | English / Chinese |
Application Fields
The M180L4-SYB is ideal for snus manufacturers and contract packers who require fast, consistent, and clean pouch packaging of snus particles. It fits production environments where stable sealing quality and standardized dosing are critical, including medium-to-large snus processing plants, automated packaging workshops, and facilities transitioning from semi-automatic packing to continuous multi-lane production. The selectable 220V/380V power configuration supports deployment across different regional electrical standards, while the compact machine size helps integrate into space-efficient layouts without compromising throughput.
