Solution Design

The workflow of the vision system is shown in the figure below.

This solution needs to be implemented in two steps:

After configuring the visual recognition project, you can run the modified robot picking program to guide the robot to pick randomly and accurately from a deep bin filled with small parts, automating the material supply.

This solution uses Mech-Vision to recognize the poses of small metal parts in the deep bin and uses Mech-Viz to plan the path for picking.

As shown below, Mech-Viz plans a robot picking path based on the pose and returns it to an external device (such as a robot, PLC, etc.) through Standard Interface communication.

For loading small metal parts in the deep bin, Mech-Eye PRO S Industrial 3D Camera (hereinafter referred to as PRO S) and Mech-Eye PRO M Industrial 3D Camera (hereinafter referred to as PRO M) are recommended, based on the camera’s field of view, accuracy and working distance. The cameras have high accuracy, fast speed, and excellent resistance to ambient light. For detailed technical specifications of these two cameras, please refer to PRO Series Technical Specifications. If you need to use a camera of other models, please use the 3D Camera Selector to select the appropriate model.

After determining the camera model, please use the 3D Camera Selector to determine the mounting height of the camera. Follow the steps below:

The recommended IPC is Mech-Mind IPC STD, which is suitable for regular depalletizing and loading scenarios.

To pick small metal parts, a high-accuracy six-axis robot should be selected according to the picking range and accuracy requirements. The FANUC_M_10ID_12 robot is used as an example in this solution.

For robots of other brands, please refer to Robot Model Selection.

The layout of the on-site workstation is shown in the figure below. The PRO Mcamera is mounted 2 meters directly above the bin. After capturing the image, the camera can acquire the point clouds of the bin and all target objects in it. The PRO Scamera is mounted 1 meter directly above the repositioning station. After capturing the image, the camera can acquire the point clouds of all target objects on the repositioning station. The items in the figure are: 1-PRO M camera; 2-camera mounting frame; 3-robot; 4-infeed bin; 5-PRO S camera; 6-electrical cabinet; 7-robot tool; 8-robot controller; 9-temporary bin; 10-centering station; 11-repositioning station.

The gripper used in this solution is shown in the figure below. The items in the figure are: 1-pneumatic cylinder; 2-buffer; 3-gas-controlled permanent magnet; 4-electromagnet. The gas-controlled permanent magnet is used to pick small metal parts from the bin, and the gripper configuration is shown on the left. The electromagnet is used to pick small metal parts from the repositioning station, and the gripper configuration is shown on the right.