Product Information
MAX BE Li-Ion mobile workstation: the light one
- Flexible modular system with countless options
- Variable ergonomic height
- Five power classes: 375 VA, 400 VA, 500 VA, 800 VA,
1200 VA - Short charge cycles
- Low weight
- Longer run times
- Increased service life
- Optimal for multi-shift operation
- Lithium iron phosphate battery
- FI circuit breaker and bypass circuit
A short video shows some of the configuration options for the MAX BE mobile workstation, allowing it to be individually adapted to a wide range of requirements and needs.
Technical Data
The data of the MAX BE Li-Ion
Basic structure
- Aluminum base frame with four swivel castors (two with parking brake)
- Working height variably adjustable; standard 1,130 mm
- Easy to move due to ergonomic handle and large rollers
- Very stable due to external castors and low center of gravity
- Dimensions: 575 x 1,130 x 575 mm (W x H x D)
- Weight approx. 68 – 85 kg (depending on version)
- Temperature range 0 °C to + 40 °C
Equipment options
- MAX BE STD 300 Li-Ion:
On-board sinus power inverter 230 V AC/375 VA - MAX BE STD 400 Li-Ion:
On-board sinus power inverter 230 V AC/400 VA - MAX BE STD 500 Li-Ion:
On-board sinus power inverter 230 V AC/500 VA - MAX BE STD 750 Li-Ion:
On-board sinus power inverter 230 V AC/800 VA - MAX BE STD 1200 Li-Ion:
On-board sinus power inverter 230 V AC/1200 VA – Laser printer-capable
Equipment MAX BE Li-Ion
- Support: 500 x 445 mm (W x D); support height adjustable
- Rear panel standard with document pocket
- OnBoard charger 17 A (for MAX BE STD 300 Li-Ion), 20 A (for MAX BE STD 400 Li-Ion), 35 A (for MAX BE STD 500 Li-Ion), 16 A (for MAX BE STD 750 Li-Ion), 25 A (for MAX BE STD 1200 Li-Ion)
- Lithium iron phosphate battery 12.8 V/100 Ah (maintenance-free); 1x on MAX BE STD 300 Li-Ion/MAX BE STD 400 Li-Ion/MAX BE STD 500 Li-Ion or 2x on MAX BE STD 750 Li-Ion/MAX BE STD 1200 Li-Ion
- Integrated battery management system for cell balancing and cell monitoring function
- 5-/6-way Schuko power strip (country-specific) with residual current device (RCD)
- Bypass circuit during charging (for MAX BE STD 400 Li-Ion/MAX BE STD 500 Li-Ion/MAX BE STD 750 Li-Ion/MAX BE STD 1200 Li-Ion)
Case Study
Our services with Goldhofer
With the current solution, significantly fewer ground conveyors are required, routes are saved and throughput has been significantly increased. The individual load carriers in the goods receiving area now have to be moved significantly less. In addition, the employees significantly reduced their distances through the MAX.