Automatic Film Coater XN-VC-800 – PLC Touch-Screen, 0–800 mm Stroke, 0–120 mm/s, Vacuum Aluminum Plate, ±5 μm Accuracy | Xnergy

Name: Automatic Film Coater XN-VC-800

Equipment Type: Large-Stroke Laboratory Automatic Film Coater with PLC + Touch-Screen Control & Built-in Vacuum Pump

Product Code: XN-VC-800

Product Introduction:

The Automatic Film Coater XN-VC-800 is widely used in coating research, including ceramic films, crystalline films, battery material films, and specialty nano-films. The XN-VC-800 features a large 800 mm coating stroke and PLC + touch-screen control for stable, repeatable laboratory film coating across a wide range of substrate materials.

Standard Configuration:

The XN-VC-800 ships with a standard 150 mm wide film former (coating width customizable to customer requirements).

Main Features:

• PLC + touch-screen control — convenient parameter setting and monitoring
• Adjustable coating speed
• Vacuum aluminum plate — supports rapid substrate placement and removal
• Adjustable coating stroke (0–800 mm)
• High-precision adjustable film former
• Compact footprint — space-efficient design
• Refined industrial design — sheet metal with three-dimensional geometric styling, clean and aesthetically pleasing

Main Specifications:

Values measured by Xnergy. Typical values for reference; not guaranteed unless otherwise specified.

Application Areas:

• Ceramic thin-film research — large-stroke coating up to 800 mm
• Crystalline thin-film research
• Battery material thin-film research
• Specialty nano-film research
• Laboratory and material development requiring large-stroke film coating with PLC-grade process control

Recommended Operating Procedure:

1. Power on the XN-VC-800 and verify that the PLC + touch screen, vacuum aluminum plate, built-in vacuum pump, and motor drive are operating normally. 2. Place the substrate (foil or sheet-type material) on the vacuum aluminum plate (L875 × W350 × H30 mm) and engage the vacuum to fix the substrate. 3. Set the target blade gap (within 0–5 mm) using the high-precision adjustable film former, according to the desired wet film thickness. 4. Set the target coating speed (within 0–120 mm/s) and coating stroke (within 0–800 mm) on the touch screen. 5. Load the coating slurry, then initiate the coating run. 6. After the run, release the vacuum and remove the coated sample for downstream drying. 7. After each run, clean all wetted surfaces with appropriate solvent (water or NMP, depending on the slurry system used) and dry thoroughly before the next run.

Maintenance:

• Frequently wipe the machine with a soft cloth dampened with alcohol to keep it clean
• Lubricate moving parts with oil to keep movement smooth
• If the machine will not be used for an extended period, wipe down the surface of moving components and apply a protective rust-prevention oil
• Periodically inspect screws, nuts, pins, and other fasteners across all parts of the machine to prevent loosening, avoiding equipment-quality issues and personal-safety incidents

Packaging & Storage:

The XN-VC-800 ships fully assembled with the vacuum aluminum plate, built-in vacuum pump, high-precision adjustable film former, blade-gap adjustment mechanism, and PLC + touch-screen control panel. Store on a stable laboratory bench or workstation in a clean, dry environment, away from heat sources, direct sunlight, and corrosive atmospheres. Disconnect the power supply when the equipment is not in active use. After each use, clean all wetted-surface components, dry thoroughly, and store in a clean, dry environment.

Safety:

For research and industrial laboratory use only. During operation, do not insert hands or any other body parts into moving components or hazardous working areas to prevent personal injury. Operation by two or more persons simultaneously is not allowed to avoid accidental injury. External (third-party) technical personnel and unauthorized persons must not disassemble the equipment under any circumstances. Always wear appropriate PPE (safety glasses, chemical-resistant gloves, lab coat) when handling slurries, solvents, and coated substrates. When working with NMP-based slurries or other regulated solvents, operate in a well-ventilated fume hood and follow local regulations on solvent use and recovery. Disconnect the power supply before any cleaning, maintenance, or component replacement. Refer to the included user manual for complete safety and operating instructions.

Note: Specifications listed above are typical and for reference only. Actual performance depends on the specific slurry chemistry, coating thickness, substrate type, and ambient operating conditions — consult published literature and our technical team for guidance on specific coating protocols. The XN-VC-800 is a coating-only platform without an integrated heating module; for integrated coating-and-drying workflows at the same large stroke, see the Automatic Film Coating & Drying Machine Plus XN-VCH-800. For smaller-stroke applications, see the Automatic Film Coater XN-VC-300 (300 mm stroke). For researchers exploring complete lithium-ion battery electrode preparation workflows, see also Xnergy’s related products: Glove-Box-Compatible Film Coating & Drying Machine XN-VCH-200, Automatic Film Coater with Integrated Drying System XN-VCH-300, Bottom-Heated Film Coating Machine XN-VCHB, Slot-Die Coating System XN-SDC, Slot-Die Extrusion Film Applicator XN-FAS-100, Adjustable Film Applicator XN-FAT-100, Extrusion Feeding Pump XN-EFP, Continuous Roll-to-Roll Coating Machine XN-LVC-200, Comma-Blade Continuous Coating Machine XN-KD200, Laboratory Transfer Coating Machine XN-RTCA-300, Dual-Zone Transfer Coating Machine XN-RTCA-500, Segmented Transfer Coating Machine XN-RTCA-300-3, Planetary Vacuum Mixer for Mixing Electrode Powders, Three-Door Vacuum Drying Oven (XN-DVO-3), and the full Coating equipment category, Drying equipment category, Calendaring equipment category, and Slitting & Die Cutting equipment category. For complete electrode formulation systems, see also Cathode Materials, Anode Materials, Binders, and Current Collectors.