Dual Planetary Vacuum Mixer XN-PVM-10L
SKU: XN-PVM-10L
Dual Planetary Vacuum Mixer XN-PVM-10L is a floor-standing production-scale planetary vacuum mixer combining low-speed planetary mixing with high-speed dispersion in a single jacketed SUS304 stainless steel vessel. It is designed for slurry and powder mixing in lithium-ion battery electrode preparation, solar manufacturing, adhesive, and chemical formulation processes.
The unit features twin twisted-frame mixing blades plus high-speed dispersion (up to 6000 rpm, max linear speed 18.85 m/s) with a wall scraper, vacuum down to −0.098 MPa, motorized worm-gear lift with multiple interlocks, water-jacket cooling, PLC + HMI control with programmable multi-segment variable speed, and a 10 L working volume (12 L design volume).
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Name: Dual Planetary Vacuum Mixer XN-PVM-10L
Equipment Type: Production-Scale Floor-Standing Dual Planetary Vacuum Mixer with High-Speed Dispersion
Product Code: XN-PVM-10L
Brand: Xnergy
Product Introduction:
Dual Planetary Vacuum Mixer XN-PVM-10L combines low-speed planetary mixing with high-speed dispersion under vacuum in a single jacketed SUS304 stainless steel vessel, sized for small-production batches. Low-speed planetary action (revolution plus rotation) produces macroscopic mixing through kneading force, while a high-speed dispersion shaft delivers microscopic mixing through high-shear vortex action. A wall scraper eliminates dead zones, and the vacuum environment removes bubbles for consistent mixing quality. The jacketed vessel accepts cooling water for temperature-sensitive processes. XN-PVM-10L is designed for slurry and powder mixing in lithium-ion battery electrode preparation, solar manufacturing, adhesive, and chemical formulation processes.
Key Features:
Planetary mixing with twisted-frame blades plus high-speed dispersion and wall scraper — no mixing dead zones
Twin mixing shafts + dispersion shaft + single wall-scraper configuration
Vacuum environment effectively eliminates bubbles during mixing with stable vacuum retention
10 L working volume (12 L design volume) in SUS304 stainless steel jacketed vessel
Acid- and alkali-resistant SUS304 wetted parts
Motorized worm-gear lift system (0.37 kW) for safer handling of heavy vessels
Multi-interlock safety system — emergency stop, travel limit, proximity-sensor interlock between lift and mixing, and vacuum-state lift inhibition
Precision positioning between vessel body and lid via locating step for reliable vacuum sealing
Water-jacket cooling compatible with various process temperature requirements
PLC + HMI control with programmable multi-segment variable speed
Wall-temperature monitoring
Inspection light for safe observation during vacuum mixing
Cantilever beam structural design
Bottom discharge with 3/4″ ball valve for low-residue product transfer
Multiple process interfaces — powder feed, bottom discharge, sight glasses, vacuum, air vent, cooling water in/out
Technical Specifications:
| Parameter | Specification |
|---|---|
| Structural Design | Cantilever beam structure |
| Power Supply | Configurable according to local electrical standards |
| Total Power | 6.5 kW |
| Mixing Motor Power | 3 kW |
| Dispersion Motor Power | 3 kW |
| Lift Motor Power | 0.37 kW (worm-gear electric lift) |
| Max. Revolution Speed | 71 rpm |
| Max. Mixing Rotation Speed | 110 rpm |
| Max. Dispersion Speed | 6000 rpm |
| Dispersion Disc Diameter | Φ60 mm |
| Dispersion Linear Speed | 18.85 m/s |
| Vacuum System | Vacuum pump with buffer tank and isolation valve |
| Vacuum Pressure | −0.098 MPa |
| Mixing Configuration | Twin mixing shafts + dispersion shaft + single wall scraper (revolution + rotation) |
| Temperature Sensing | Vessel-wall thermocouple |
| Lift System | Motorized worm-gear electric lift |
| Positioning | Vessel-lid locating step for accurate alignment and reliable vacuum sealing |
| Mixing Vessel | Φ288 × H180 mm internal — 10 L working / 12 L design volume |
| Mixing Blade | Twisted-frame; cast as a single piece, precision-machined and polished. Blade-to-bottom clearance 2–4 mm; blade-to-wall 2–5 mm; blade-to-blade 3–8 mm |
| Wall Scraper | PTFE blade on 304 stainless steel arm, one unit |
| Cooling | Water-jacket cooling (no insulation required) |
| Sealing | Static: silicone / fluororubber / NBR. Dynamic: SiC-S + fluororubber |
| Control System | PLC + HMI with variable-frequency speed control, temperature control, inspection light, lift, run/E-stop indication, all on the electrical cabinet panel. Supports time-segmented automatic variable-speed operation |
| Equipment Dimensions (L × W × H) | 1150 × 850 × 2080 mm |
| Packaging Dimensions (L × W × H) | 1250 × 1150 × 2230 mm |
| Net Weight | 646 kg |
| Gross Weight (packaged) | 765 kg |
Wetted-Part Materials:
| Component | Material |
|---|---|
| Upper Vessel | SUS304 |
| Lower Vessel | SUS304 |
| Jacket | SUS304 |
| Mixing Shaft | SUS304 |
| Mixing Blade | SUS304 |
| Frame & Base | Q235A |
Process Interfaces:
| Interface | Specification |
|---|---|
| Powder Feed Port | DN50 quick-open, ×1 |
| Discharge Port (bottom) | 3/4″ ball valve, ×1 |
| Sight Glass | DN50, ×2 |
| Vacuum Port | G1/2″ with ball valve, ×1 |
| Air Vent | G1/2″ with ball valve, ×1 |
| Vacuum Gauge Port | M14 × 1.5, ×1 |
| Cooling Water | G1/2″ inlet × 1, outlet × 1 |
Safety Features:
Emergency stop switch — equipment stops immediately on activation
Travel limit switch — automatic stop at lift end-of-travel
Proximity-sensor interlock — mixing is disabled during lift movement; lift is disabled during mixing
Automatic lift inhibition under vacuum
Motor and inverter overcurrent and overload protection
Mixing cannot start unless the upper and lower vessel halves are closed
Standard Accessories:
Set of sealing rings (vessel and lid)
Set of timing belts
5 m three-core cable
Manual scraper
Packaging:
XN-PVM-10L is shipped in an export-grade plywood crate with pallet base and eco-friendly pearl-cotton padding. Packaging dimensions are 1250 × 1150 × 2230 mm with gross weight 765 kg.
Application Areas:
XN-PVM-10L is suitable for:
Lithium-ion battery cathode and anode slurry preparation at production scale
Solar manufacturing slurries and pastes
Adhesive and tape compound formulation
General chemical raw material mixing where vacuum, jacket cooling, and high-shear dispersion are required
Maintenance:
Clean the equipment regularly with a soft cloth lightly moistened with alcohol
Lubricate moving parts periodically to ensure smooth operation
If the equipment is not used for an extended period, clean the moving surfaces and apply a protective anti-rust coating
Periodically inspect screws, nuts, pins, and other fasteners to prevent loosening
Safety Notes:
Do not place hands or other body parts near moving components or work-zone areas during operation
Operation should be performed by a single trained operator to avoid accidental injury
Disassembly should only be performed by qualified technicians
Specifications are provided for reference and may be adjusted to suit specific process requirements. Custom interface configurations are available on request.
Note: Specifications listed above are typical and for reference only. Actual mixing and dispersion performance depend on the specific material formulation, solid content, viscosity, batch size, and process parameters. XN-PVM-10L is sized for users who have already validated their slurry recipe at smaller scale and need consistent batch-to-batch reproducibility at 10 L volume — the larger Φ60 mm dispersion disc, 6.5 kW total drive, and Φ288 mm × 180 mm vessel geometry give it the throughput and shear envelope needed for repeatable production runs of NCM, LFP, or graphite-based electrode slurries. Users coming from XN-PVM-5L typically step up to 10 L when daily batch demand exceeds two or three 5 L runs. For the earlier pilot stage where recipe is still being optimized, the XN-PVM-2L uses the same planetary principle at smaller scale with lower per-batch material cost. Slurries from XN-PVM-10L typically feed continuous coating lines — see the Slot-Die Coating System XN-SDC for matched downstream throughput. Compatible active materials: Cathode Materials and Anode Materials.
