Automated Forklift SFL-MP10S
Descriptions of Automated Forklift SFL-MP10S
The navigation lidar is installed on the top of the bracket. Also, the original location of the navigation lidar is replaced with an obstacle avoidance lidar.
3D obstacle camera makes a route to achieve perfect obstacle avoidance.
Increase the anti-collision bar at the bottom of the fuselage and support a variety of sensors for safety protection to ensure the safety of staff, goods and robots during operation.
Pallet recognition+Accurate handling
Support automatic charging with no staff intervention.
Specifications of Automated Forklift SFL-MP10SProducts Comparison
SRC-powered Laser SLAM Mini Automatic Forklift SFL-MP10S
Laser SLAM ground automatic forklift
Rated load capacity
Load centre distance
Dead weight (with battery)
Navigation position accuracy 
Navigation angle accuracy 
Fork in-position accuracy 
Standard lifting height
Fork surface ground clearance (at the lowest position)
Navigation laser scanning height
Vehicle size: length * width * height
Fork size: length * width * height
Fork outer width
Right-angle stacking channel width, pallet 1000×1200 (1200 placed across forks)
Right-angle stacking channel width, pallet 800×1200 (1200 placed along the fork)
Map area (Single)
Minimum turning radius
Driving speed: full load/no load
Lifting speed: full load/no load
Descent speed: full load/no load
Gantry movement speed: full load/no load
Drive motor power (S2, 60 min)
Lifting motor power (S3, 15%)
Steering motor power (S2, 10 min)
Service braking mode
Drive control mode
Tyre type: drive wheel/support wheel
Tire size: driving wheel
Tire size: bearing wheel
Tire size: Balance wheel
Wheel number: driving wheel (×= driving wheel)/ bearing wheel
Wheel base: bearing side
Wheel base: driving side
48/35 (Ternary lithium)V/Ah
Comprehensive battery life
Charging time (10%-80%)
Battery cycle number
Wi-Fi roaming function
3D obstacle avoidance 
Remote emergency stop 
Cage stack 
High shelf pallet recognition
Pallet damage detection 
Pallet stacking and unstacking 
The HMI screen
Fork tooth distance sensor
Cargo weight detection
Sound and light indicator
Braking distance: 1m/s / 1.5m/s
≤30cm / ≤50cm
Vehicle hardware fault detection
360° laser protection
High safety protection of fork teeth
4G / 5G / Wi-Fi 802.11 a/b/g/n/ac
Only suitable for indoor, light intensity ≤40 klx (IEC 61496-3), ground without water and oil and other scenes
Ambient temperature and humidity range
TEMP: 0-50℃ / RH: 10-90%, no compression, no condensation
Noise near driver's ear according to EN12053
|×||There is no|
|1. Navigation accuracy usually refers to the repeated accuracy of the robot's navigation to the target site, when the environment scanned by the robot lidar is relatively stable (rate of change <
30%), the robot can navigate from a fixed direction to the target site with the desired repeatability.
When the robot runs along the virtual path, it will try to fit the path, but repeatability is not guaranteed.
In other words, the robot can guarantee the accuracy of arrival, but not the accuracy of navigation path fitting.
Fork positioning accuracy refers to the error range of a forklift truck when it is rising or descending to a specified height.
|2. The road surface is smooth and clean, without obvious ups and downs.
Slope 5% = arctan(0.05) ≈ 2.8°.
The robot cannot stop or turn at the ramp, step or gap, and can only pass quickly perpendicular to the ramp, step or gap.
|3. Seer identification camera and algorithm authorization are required|
|4. It needs to be used with SEER system.|
|5. Comply with SEER stacking and de-stacking technical requirements.|