Description
High performance – low investment
In the S Version of the EasyScan+, WEINIG is renewing its engagement in the area of high-performance scanners for sorting and grading. The EasyScan+ S covers all sorting applications. Like the C version, the system allows additional information such as shape, moisture, etc. to be included. The repeatable accuracy of the optimization also increases sorting precision. Fluctuations in quality caused by human error are a thing of the past.
Simple optimization is the key to efficient production. The high-performance optimization software allows a variety of qualities and zones to be created and combined into multiple end products. The products and qualities are stored in a database and can be selected at any time via drag and drop. The logical user interface of the scanner simplifies settings in a visual way providing simple operation for all.
With its various sensor options, the scanner can be adapted to customer requirements, guaranteeing ideal results every time. Whether hardwood or softwood, window scantlings or glulam, profiles or panels, furniture production or cladding boards, this scanner allows you to achieve optimal results every time.
The WEINIG EasyScan+ S provides
- Increased recovery since the detection accuracy of the scanner is far superior to manual sorting
- Reduced labour costs, since labour-intensive manual marking is eliminated
- Maximum productivity thanks to automated defect detection and optimization
- More flexible production since many different qualities and products can be produced at the same time
- Ability to control the quality of end products according to individual customers, etc.
- Increased quality of end products
Sorting explained simply
Step 1: LuxscanLine scanners are based upon various sensors, such as laser and color cameras or X-ray*. Your WEINIG expert will define the right sensors and the best combination of these, harmonized with wood types, surface properties and customer requirements. Our objective is to achieve the best possible quality of information for the required application.
Step 2: Image processing is handled by the highly sophisticated OptiCore software. This detects and identifies defects as well as colour deviations on the board. The ideally adapted sensor data ensures optimal data processing and defect detection.
Step 3: Optimization via the high-performance OptiCore software calculates the best solution during sorting. In doing so, it takes into account the various customer requests and requirements. Based upon the precise board data calculated during image processing, the board is sorted in accordance with customer requirements. This allows a virtually unlimited number of qualities and products to be defined. Thus, even complex products can be ideally sorted. This allows the creation of almost any type of end product.