Features of CNC Digitizing Touch Probe DRP25M
The M code electric control
The M code turns on the probe, and the probe communicates with the receiver in both directions.The probe runs more safely and avoids accidental triggering of the probe in a non-measuring state (for example, when the probe is in the tool magazine).
Intelligent frequency hopping technology
Using the industry’s advanced intelligent frequency modulation technology, it automatically recognizes the strength of environmental radio interference signals and automatically hoips frequencies to avoid interference. Completely solved the problem of signal loss caused by radio signal interference.
Ultra-low power consumption
Long battery life. The battery is used continuously for more than 2000 hours, which is leading in the industry.
Modular type to match well
Modular assembly, φ25 diameter part can be infinitely extended, which makes it fit more workpieces.
Unlimited channel technology
The industry’s unique unlimited channel technology.There is no interference between channels and channels.Solves the problem of limited channels in the industry and interference between the same channels
Long triggering life
The structure, material selection, and process design are designed and verified in full accordance with the triggering life standard of more than 10 million times.
High stability
There is basically no abnormal alarm during the operation of the probe, and the operation of the probe is stable and reliable.
Sealing
IP 68 sealing level, which is the highest level in the industry. Besides, we use the anti-aging imported sealing material to make sure the best quality.
Introduction of CNC Digitizing Touch Probe
A CNC digitizing touch probe is a specialized tool used to capture the 3D geometry of an existing part on a CNC machine.
Here’s how a CNC digitizing touch probe works:
- Contact and Measurement: The probe, mounted on the CNC machine’s spindle, gently touches the surface of the part at various points.
- Data Acquisition: The machine’s control system records the precise (X, Y, Z) coordinates of each contact point.
- 3D Model Creation: This data is then used to create a 3D digital model of the part.
Key Applications:
- Reverse Engineering: Creating a digital model of an existing part for reproduction or modification.
- Mold and Die Making: Capturing complex shapes for accurate mold and die creation.
- Rapid Prototyping: Creating 3D models for rapid prototyping processes.
- Inspection: Verifying the accuracy of machined parts.
Benefits:
- Increased Efficiency: Automates the process of capturing complex geometries, saving time and reducing errors.
- Improved Accuracy: Provides highly accurate 3D data for precise part reproduction.
- Reduced Design Time: Speeds up the design process by allowing for the direct digitization of existing parts.
- Enhanced Flexibility: Enables the creation of complex shapes that may be difficult to design using traditional CAD software.
Key Considerations:
- Probe Accuracy: The accuracy of the digitized data depends heavily on the accuracy and precision of the touch probe itself.
- Data Processing: The collected data needs to be processed and analyzed to create a usable 3D model.
- Software Compatibility: Ensure compatibility between the touch probe, the CNC machine, and the CAM software used for data processing.
CNC digitizing touch probes are valuable tools for a wide range of applications, enabling the efficient and accurate capture of complex geometries for various manufacturing processes.
