Member Since 2017


Kar Ming is a machine vision solution expert in Guangzhou, China, founded in 1992. We design, develop and manufacture the machine vision system, the precision control system as well as the intelligent equipment applied in automotive, pharmaceutical, logistics and beverages industries, etc. We pioneered to design and manufacture a three-dimensional vision navigation robotic hand used in the automotive manufacturing. With our experienced R&D and dedicated sales teams, we are capable of delivering high quality and customized machine vision solution to meet ever-changing needs of clients in the globe. Besides, we partner with various higher education institution in China and various international partners like Cognex, CCS, Parker, DDK, Convum, and Patlite . As the leading provider of machine vision in China, we aim to advance the understanding and implementation of vision technologies to better serve in vision and imaging industries internationally.

Content Filed Under:

Automotive Automotive

Vision Guidance for Robotics Vision Guidance for Robotics

3D laser- guided Gluing Inspection System

POSTED 08/23/2019

Karming's 3D laser- guided gluing inspection system addresses the issue inefficiency caused by high deviation from gluing tracking down mechanical positioning and work piece processing size.

Based on multi-point acquisition and processing , the 3D laser-guided glue coating detection system adopts the principle of point-to-line and line-to-plane , and utilizes 3D laser profilometer to conduct multi-point plane fitting of the workpiece and modify the point trajectory with the point motion algorithm of the industrial robot in order to fundamentally solve the problem of workpiece processing.

The imaging principle of 3D laser profilometer establishes a 3D model based on 3D information of the detected workpiece, and then applies the information extracted from the model for image processing, at the end it sends the obtained 3D information to the robot for execution.

The 3D laser profiler is not affected by the surface smoothness, convexity, and concaves. Therefore, this application drives down labor costs, improve efficiency, achieve higher precision, high compatibility, and etc. The great acceptable and applicability demonstrates it takes the lead in the future developments in the field of automotive, electronics, and aerospace.