Industrial Laser Equipment
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Industrial Laser Equipment, Industrial Machinery, Laser Scanner
Real-time 3D profiler LHS-IV – MSJ Creative research Laboratory
Industrial Laser Equipment, Industrial Machinery, Laser ScannerReal-time 3D profiler LHS-IV – MSJ Creative research Laboratory
The cross sectional shape of a workpiece can be observed in real time by holding it with one hand.
Compact, lightweight, handy operation: L-shaped, 2 kg, built-in camera and laser control circuit, and connection to PC with a single USB cable.
3D scanning: Surface and full-surrounding geometry can be easily measured and displayed by using a 1-axis moving stage and a rotating stage.
Measurement data can be immediately observed with K3D VIEWER, displayed in EXCEL by saving CSV, or output externally by ASCII code.
Compact configuration that can be operated with a notebook PC.
Easy to use and low price by thorough VE.
Three standard variations (L, M, S) are available.
We will promptly respond to special orders and requests. Laser emission wavelength can be changed to blue, green, IR, etc. From 10mm to 2000mm size, for hot profile measurement at 1000℃. For measurement of micro warps, bumps, and steps, etc.
Examples of applications: Rail wear measurement system, wheel wear measurement, high-temperature large-diameter forged disc dimensional inspection system, tile alignment inspection system, etc.
SKU: n/a
Are you looking for a Industrial Laser Equipment product?
When selecting Industrial Laser Equipment for your company’s needs, there are several important points to consider during the comparison and evaluation process.
1. Laser Type
Compare different laser types, such as CO2, fiber, or Nd:YAG, based on their suitability for your specific application.
2. Power Output
Assess the power output of the laser equipment to ensure it meets the requirements for cutting, engraving, or welding tasks.
3. Beam Quality
Check the beam quality to determine the precision and accuracy of the laser equipment.
4. Cutting Speed and Capacity
Evaluate the cutting speed and maximum cutting capacity of the equipment for efficient production.
5. Cooling System
Consider the cooling system used in the equipment to maintain stable operation during extended use.
6. Software and Control
Assess the user interface and control software for ease of use and compatibility with your existing systems.
7. Maintenance and Service
Research the maintenance requirements and availability of service and technical support for the laser equipment.
8. Safety Features
Ensure that the equipment has appropriate safety features, such as interlocks and enclosure, to protect operators.
9. Integration and Automation
Check the equipment’s compatibility with automation systems for increased productivity and efficiency.
10. Cost and Return on Investment (ROI)
Consider the initial investment cost and evaluate the potential ROI based on increased productivity and reduced operational costs.