Krystian Michalak
JnJ
Jan 6, 2023
Period
- 2020
Ranked Nr. 17 of 93 3D Vision Systems
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EUR 34200 - EUR 37700
The Pickit L-HD is an advanced 3D vision system designed for industrial automation, known for its high accuracy and large field of view (FOV). With a 3D measurement method using structured light technology, it can capture 3D images with a resolution of 1920 x 1200 pixels. This system offers impressive precision, with an accuracy ranging from 0.3 to 7 mm, depending on the distance from the camera and the FOV. Its estimated picking accuracy is approximately 1.5 times the 3D camera accuracy, making it suitable for a wide range of applications that demand precise object recognition and manipulation.
One standout feature of the Pickit L-HD is its compatibility with industrial robots for various tasks, such as guiding a polishing robot. In a real-world application, a Doosan Industrial Vehicle implemented Pickit L-HD to detect vehicle counterweights on a conveyor system. This enabled the robot to autonomously identify and polish 41 different uniquely shaped parts, making production more efficient and relieving operators from the burdensome task of manual part identification. This highlights the system's capability to handle medium and large parts, big bins, and pallets, starting from object sizes as small as 50x50x10 mm.
The Pickit L-HD is a versatile and powerful 3D vision system that offers top performance for industrial automation. It is equipped with the latest Pickit 3D vision software, ensuring ease of setup and compatibility with various applications. Its robust specifications, including a large FOV, high-resolution imaging, and exceptional accuracy, make it a valuable choice for industries requiring precise object detection and manipulation. Additionally, the system's ability to integrate seamlessly with industrial robots opens up opportunities for automation in tasks that demand precision and efficiency, such as the example of guiding a polishing robot in manufacturing processes.
Krystian Michalak
JnJ
Jan 6, 2023