Automatic Powder Coating Line

ST-APCL-01M

Price: USD100000~200000

Excellent Environmental Performance: Environmentally friendly, VOC-free, high powder recovery rate (≥95%)
High Coating Quality: Uniform, dense coating with excellent corrosion, wear, and impact resistance
High Production Efficiency: Automated process with high efficiency and shorter production cycles
Significant Energy-Saving Benefits: Low curing temperature, efficient heating systems, and significant energy savings

Typically, spray painting refers to powder coating, which utilizes high-voltage static electricity to polarize molecules of powder coatings. Using an electrostatic spray gun, synthetic polymer powder coatings such as polyester, polyamide, or epoxy are applied to the surface of workpieces that have undergone pretreatment (such as phosphating) for coating. The workpieces are then passed through a baking oven to form a durable, corrosion-resistant film layer.

Coating solutions for Industry

Automotive Industry

Consumer Electronics

Furniture & Wood Products

Heavy Equipment

Protective Coating

Key attributes:

Model Number	ST01
Application	Automotive, Agriculture, Robotics, Electronics
Voltage	380 V, 220 V
Substrate	steel
Coverage Area	150sqft/lb
Dry time	1 hour
Core components	PLC, Engine, Bearing, Gearbox, Gear, Pressure Vessel, Motor
Type	Coating Production Line
weight	1500
Product Name	Paint coating line system
control system	Automatic
Pretreatment system	Dipping/Spraying/shot blasting
Powder Booth material	PP, Stainless steel, PVC
Color change time	20 min
Powder recovery rat	98.90%
Powder recovery system	Mono-cyclone + Pulse recovery
Single package size	5000X2000X900 cm

Process Flow:

Loading -- Spray Pre-Treatment -- Drying -- Automatic Powder Spraying -- Curing -- Cooling -- Unloading

Characteristics:

1. This system provides a tailored answer for applying finishes to exceptionally lengthy items. Its standout element is a floor-based transfer device engineered for the autonomous handling of parts. Working in tandem with a buffering and transport arrangement, it achieves fully mechanized part feeding and removal.

2. The curing chamber is constructed following an angled, staggered accumulation line design. This approach shrinks the external surface area prone to heat loss, thereby optimizing energy conservation. Furthermore, dual heating assemblies are positioned on the chamber's flanks. This placement fosters an even distribution of internal airflow channels, more effectively guaranteeing uniform temperature equilibrium across all zones within the chamber.

3. The spraying paint application employs an oversized cyclone rapid color change mechanism. This allows operators to swiftly alternate among various colors, with transition times achievable within a 5 to 20-minute window.

4. The spray guns utilize the Debelle brand. They are distinguished by high material throughput, superior

first-pass transfer efficiency, and simplified integration into a unified control scheme for the complete setup. This yields enhanced results for applications demanding heavy film builds and stringent automation standards.