Conveyor Belts for Continuous Industrial Ovens
Select belt type, surface, and drive method for stable conveying through powder coating curing, adhesive curing, and electronics drying lines. ZonHoo supports belt selection + transfer design + multi-zone integration to protect throughput and product quality.
RFQ Inputs for Powder / Adhesive / Electronics Lines
- Powder coating curing: part stability at transfer points, edge contact marks, residue control, cooling/handling after cure
- Adhesive curing: non-stick requirement, cleanup strategy, outgassing management, belt surface selection for release
- Electronics drying: cleanliness/contamination control, gentle handling, consistent tracking, stable speed across zones
- Across all three: throughput target, dwell time, zone layout, infeed/outfeed heights, and belt tracking method
Belt Options Commonly Used in Conveyorized Thermal Lines
Wire Mesh Belt (Stainless Steel Mesh)
High airflow and fast heat transfer—strong fit for electronics drying and general drying where uniform convection matters.
Chain / Slat Conveyor (Heavy-Duty Conveying)
Stable tracking for fixtures and heavier parts—often used in powder coating curing lines where load stability and uptime dominate.
Steel Plate / Flat Belt (Stable Transfers)
Flatter support for smoother handoffs—useful when powder-coated parts risk tipping or when transfer quality drives scrap rate.
PTFE / Fiberglass Belt (Non-Stick Handling)
Non-stick conveying for compatible temperature/atmosphere—commonly considered for adhesive curing lines to reduce sticking and simplify cleaning.
Roller Conveyor (Tray/Pallet Transport)
Best when parts run on trays/baskets—good for electronics drying with controlled footprints and predictable transfers.
Integration Decisions That Protect Throughput
- Transfer engineering: infeed/outfeed transitions, side guides, anti-tip support (critical for powder parts)
- Surface & residue control: belt surface selection + cleaning access (critical for adhesive lines)
- Clean handling: contamination control + gentle contact strategy (critical for electronics)
- Tracking & tensioning: define guiding method early to prevent drift across multi-zone frames
- Speed stability: drive selection for constant line speed and repeatable dwell time
Copy/Paste RFQ Template
- Application: powder coating curing / adhesive curing / electronics drying
- Product handling: direct-on-belt or tray/fixture; tipping risk; marking limits
- Max temperature (°C) + profile; required dwell time; zone count
- Load: kg/m, point load, part spacing, lane count
- Throughput target: parts/hour; buffer/accumulation allowed (Y/N)
- Cleanliness: residue type (powder/adhesive), cleaning method, contamination limits
- Layout constraints: footprint, infeed/outfeed heights, transfers, returns
- Controls: indexing vs continuous, speed sync, jam detection, interlocks
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- Ambient to high-temp ranges (custom)
- Temperature uniformity (process-based)
- Forced convection airflow
- Multi-zone heating / airflow
- Electric heating (PID/SCR)
- Infrared heating (optional)
- Batch ovens (box / walk-in)
- Truck-in / cart-in systems
- Conveyor continuous ovens
- Pass-through configurations
- Curing & drying processes
- Heat treatment applications
- Solvent safety / Ex options
- PLC/HMI control + recipes
- Remote diagnostics (optional)
- FAT/SAT & commissioning support
Send your application, throughput, dwell time, and transfer constraints. We’ll recommend belt type, tracking/drive options, and integration notes for your line.