Industrial Robots for Painting, Coating and Seal Application

FANUC painting robots are suitable for a multiplicity of painting and coating applications. Their design allows the development of projects with optimal working areas and performance, with maximum working spaces for cleaning and maintenance. Some models are even designed to operate in explosive environments..

FANUC PaintMate 200iA
FANUC PaintMate 200iA applying paint coat.

Robotized Painting

The most widespread application in robotic painting is by means of a spray gun that is precisely controlled by programming the spray angle, speed and intensity of the paint flow. This ensures complete and consistent coverage on complex surfaces.

Robotic painting systems consist of an enclosed booth that contains extraction and ventilation systems that allow the paint spray not to spread beyond the area being painted. Inside this booth is a conveyor system that moves the items to be painted. The painting robots can be mounted on the floor, ceiling or on traversing beams to enable painting in motion beyond the robot's reach..

Some robots assist the painting operation by manipulating the parts, for example, by opening the doors or trunk of a car body to allow interior painting. Painting robots inside the booth are "dressed" with flexible and airtight materials to avoid contamination and paint soiling the robot..

Stamp application

It is the process of applying the glue that is usually placed between body parts to fix them and avoid water ingress and consequent corrosion. This process can also be performed with standard FANUC robots (yellow)..


Wide range of scopes and capabilities

With a wide range of reaches and load capacities, you are sure to find a model to meet any need, whatever your painting or dispensing requirements. FANUC painting robots are completely sealed and pressurized with air to prevent solvents and other paint thinners from entering, which is why the servo motors are not visible.

Power and control cables are placed inside a corrugated sleeve that also provides pressurization of the robot body.



Basic line of FANUC painting robots

All models are 6-axle, with load capacities from 5 to 45 kilograms and reaches from 704 to 2,800 mm..

FANUC PaintMate 200iA
FANUC PaintMate 200iA

FANUC Paint Mate 200iA & 200iA 5L

With Paint Mate 200iA and 200iA 5L it is possible to develop highly flexible and competitive solutions for industrial painting and coating applications. Suitable for interior parts of vehicles, Anti Squeak in seats, tires, mold release agents, bumpers, hardware, coatings in household ovens, painting of parts of household items and much more..

Technical Characteristics

  • Number of Axles: 6
  • Load: Up to 5 Kg.
  • Reach: Up to 900 mm.

FANUC P-40iA
FANUC P-40iA

FANUC P-40iA

  • Number of Axles: 6
  • Load: Up to 40 Kg.
  • Reach: Up to 1,300 mm.

FANUC P-50iA
FANUC P-50iA

FANUC P-50iA

  • Number of Axles: 6
  • Load: Up to 40 Kg.
  • Reach: Up to 1,300 mm.

FANUC P-250iB/15
FANUC P-250iB/15

FANUC P-250iB/15

Large handling capacity and extended reach.
This painting robot is the industry's best solution for large and medium volume painting tasks. Suitable for a wide variety of painting and coating applications, it features high handling capacity and a large work envelope.

Designed for efficient integration of process equipment

This model features a wide range of functions, is easy to integrate and is designed to add flexibility and cover a broad spectrum of painting and coating applications.

Patented hollow wrist

Demonstrated high-production hollow wrist and through-arm cable pathway provide a clean application environment and help achieve maximum product quality.

Process flexibility and long reach

With a working area of 2,800 mm, this painting robot provides the flexibility needed to maintain precise gun distances and orientations on the largest parts while maximizing quality. An excellent solution to replace manual spraying or older automatic systems.

Technical Characteristics

  • Number of Axles: 6
  • Load: Up to 15 Kg.
  • Reach: Up to 2,800 mm.

Videos

Brochures

  • Coming Soon

FANUC P-350iA/45
FANUC P-350iA/45

FANUC P-350iA/45

  • Number of Axles: 6
  • Load: Up to 45 Kg.
  • Reach: Up to 2,606 mm.

FANUC R30iB controller
FANUC R30iB controller

R30iB controller

Ultra-compact, stackable cabinet with iPendant 4D graphics capable of controlling up to 72 axes of motion including up to 4 robots. Optional interference check system avoids dead zones between robots allowing a high density of units working in shared areas.

Optional interference check system avoids dead zones between robots allowing a high density of units working in shared areas.

The integrated IR vision system allows Plug-and-Play integration of 2D and 3D cameras. The PMC system provides safety functionality from PLC without additional hardware.


Paint Tool application software
Paint Tool application software

Paint Tool application software

This software integrated with the FANUC painting robot and its controllers provides the user with the ideal tool for the programming of painting processes, both in the automotive and general industry.

The software is designed specifically for the programming of painting processes with terminology that provides the operator with the ability to program an application almost immediately.

Specifically designed functions allow the programming of paint paths and processes with terminology that provides the operator with the possibility of almost immediate programming of an application.

The specific functions applicable to the painting robot and its controllers provide the user with the ideal tool for the programming of painting processes, both in the automotive and general industry.

Specific functions applicable from the robot's Teach Pendant include cycle execution, color changes, flow testing and more. An interface can also be provided that runs the PLC.

Editing on background allows changes to be programmed while the robot is operating, enabling online updating to optimize the painting process.

The Prep Pendant can also be used to program changes while the robot is operating.