Customer demands are ever-increasing, which leads to continuous improvement in both the quality of finished materials and customer service.

For a quality finish, the installation of a closed, pressurized, and tempered booth is essential. The airflow compensation must be slightly higher than the booth’s intake to avoid drafts that could raise dust or vortexes in the room.

Each booth is designed according to the client’s needs. A drying chamber is usually attached to the pressurized paint booth, where the parts will complete their drying cycle at the temperature required for each process.

In the case of robotic paint application, the drying chamber is installed after the robot exit to prevent dust particles from entering the painted parts and also protect the health of the workers who collect them.

Using closed, ventilated booths and chambers not only improves quality but also increases the drying time of the painted parts.

In the event of higher temperatures or the need to control the painting cycle, a temperature controller is installed to monitor the drying cycle.

An audible and visual alarm will warn of the end of the cycle, offering the option of stopping the installation.

This drying cycle is similar to the drying cycles in polymerization ovens. The combustion medium can be an aerothermal furnace, a combustion chamber with a gas, diesel, or electric burner.