Workpiece Positioning and Inspection in Intelligent Manufacturing
Meskernel Scenario Description:
In the process of intelligent manufacturing, the precise positioning and inspection of workpieces are crucial steps to ensure production quality and efficiency. Traditional positioning methods may lead to inaccurate workpiece positions due to accumulated errors, affecting subsequent processing and assembly.
Pain Points:
- Inaccurate workpiece positioning, impacting production quality and efficiency.
- Traditional positioning methods may result in an overall decrease in precision due to accumulated errors.
- The inspection process is cumbersome, affecting production efficiency.
Application of Green Laser Rangefinder Sensor:
By powering on the green laser rangefinder sensor with 2-3mm accuracy, precise positioning and inspection of workpieces can be achieved. The sensor accurately measures the distance between the workpiece and the sensor and calculates the position information of the workpiece. This method not only improves positioning accuracy but also simplifies the inspection process, providing powerful support for intelligent manufacturing.
High-Precision Measurement in UAV Mapping
Meskernel Scenario Description:
In UAV mapping, accurate measurement of ground targets is key to ensuring the accuracy of mapping results. Traditional mapping methods may result in decreased measurement accuracy due to environmental factors such as flight altitude and wind speed.
Pain Points:
- Traditional mapping methods are greatly influenced by environmental factors, leading to unstable measurement accuracy.
- The mapping process is cumbersome, requiring multiple flights and data processing.
- Mapping results may suffer from overall precision degradation due to accumulated errors.
Application of Green Laser Rangefinder Sensor:
By equipping a green laser rangefinder sensor with 2-3mm accuracy on a UAV, high-precision measurement of ground targets can be achieved. The sensor accurately measures the distance between the UAV and the ground target and calculates the position and shape information of the target. This method not only improves mapping accuracy but also simplifies the mapping process, providing reliable technical support for UAV mapping.
These cases highlight the advantages of the green laser rangefinder sensor in addressing pain points, such as improving measurement accuracy, simplifying measurement processes, and enhancing production efficiency. These advantages have led to the widespread application of green laser rangefinder sensors in various fields
