Designed to meet the requirements for the harsh laundry environment, it offers unprecedented reading performance for soil scans. Light and modular, it is also easy to assemble.
UHF Portal Scanning System (S-UHF-PORTAL-101)
Datamars’ new UHF Portal Scanning System (S-UHF-PORTAL-101) offers breakthrough technology, allowing industrial launderers to scan entire carts as they move in and out of the laundry. Designed to meet the requirements for the harsh laundry environment, it offers unprecedented reading performance for soil scans. Light and modular, it is also easy to assemble.
Features
- High-performance RFID reading system for bulk scans of chipped items in laundry carts
- recommended for soil-in applications
- Modular structure can be easily incorporated into existing laundry infrastructure
- Highest accuracy rates for cart scans containing up to 400 items at regular walking pace
UHF High Density Cabinetreading System (S-UHF-CAB)
As part of our comprehensive UHF solution for industrial laundries, Datamars is proud to offer this high performance solution for cart scanning: the UHF Cabinet Scanning System (S- UHF-CAB).
Designed to withstand the rigors of the industrial laundry, it offers high reading rate of textiles placed in trolleys inside the closed cabinet.
This cabin is provided with an integrated software automatically providing data once doors are closed and reading operation takes place. Data are available on TCP/IP socket and (optionally) on RS232, USB and USB KBW
Features
- High-performance RFID reading system for bulk scanning of chipped items in laundry carts
- Suitably sized for placement in laundries where available space is limited
- Same structure is ready for low and high density items reading
- Highest scan accuracy rates for carts containing several hundreds of items
- Fully shielded, no risk of stray reads
- Solid structure made to withstand normal wear and tear in industrial laundries
- 2 automatic doors for pass-through operations,
- Door opening triggered by pushbutton (other options custom available)