Systems
Roboplan develops drilling applications for the most varied types of materials and industries.
Drilling is a complex operation that requires high levels of precision. For this type of application, tools such as tool holders, spindles and/or grippers are usually attached to the robot.
To choose the most suitable tool, it is important to consider factors such as the type of hole, the type of material, the fixture, the shape, geometry and orientation of the part to be drilled.
Safety is another detail to pay attention to and which is guaranteed in this process, which, when automated, reflects major increases in productivity. With the complete range of Yaskawa robots and the experience and know-how of our team, we can meet the most varied challenges.
Roboplan has been at the forefront of innovation in the industry with its robotic drilling systems. Our systems represent a revolution in the way drilling processes are carried out, offering unparalleled precision, efficiency and quality in a variety of industrial applications.
Drilling is an essential process in many sectors, from the manufacture of electronic components to the construction of metal structures. Ensuring precise and consistent holes is crucial to the final quality and functionality of products. Previously, this process was often carried out manually, which could lead to inconsistencies in the depth, diameter and position of the holes.
With Roboplan's robotic drilling systems, these limitations are consistently overcome. The industrial robots are programmed to drill holes with millimetre precision, guaranteeing uniform and controlled execution on all parts. This also improves the quality of the end product and reduces the risk of rework and material waste.
Our systems offer a significant advantage in terms of efficiency and productivity. The robots can perform drilling tasks quickly and continuously. Another important benefit of these systems is improved working conditions.
In addition, our systems offer greater flexibility compared to traditional manual methods. The robots can be easily reprogrammed to adapt to different types of parts and production requirements, allowing a quick change between projects.