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FMR robots
ROBOTS
Applications
The AK2000–2 robot is designed for floor‑level pallet transportation.
It can be used for:
It can be used for:
- moving completed orders placed in a buffer zone to the shipping area;
- moving goods from the receiving area (from the receiving gates) to the storage area;
- delivering pallets operated by reach trucks and forklifts to the storage area;
- transporting pallets from the production area to the storage area;
- delivering pallets with raw materials to the production area.
Weight: 700 kg
Dimensions: 1980 мм*1065 мм*2285 mm (L*W*H)
Navigation Mode: 3D Laser SLAM
Rated Load Capacity: 2000 kg
Wheelbase: 1170 mm
Lifting Height: 175 mm
Fork Dimensions: 1225*180*54 mm
Turning Radius: 1555 mm
Maximum Speed (loaded/unloaded): 2.6 m/s
Fork Lifting Speed (loaded/unloaded): 0.025 / 0.035 m/s
Permissible Gradeability (loaded/unloaded): 8%
Positioning Accuracy: ±30 mm
Battery Capacity: LiFePO4 / 24 V / 225 Ah
Operating Time: 6-8 hours
Charging Mode: Manual mode/battery swap, automatic mode
Charging Time: 2 hours
LiDAR: Front LiDAR. 360° surround LiDAR. Collision sensors
Applications
The AK2000–2 robot is designed for floor‑level pallet transportation.
It can be used for:
It can be used for:
- moving completed orders placed in a buffer zone to the shipping area;
- moving goods from the receiving area (from the receiving gates) to the storage area;
- delivering pallets operated by reach trucks and forklifts to the storage area;
- transporting pallets from the production area to the storage area;
- delivering pallets with raw materials to the production area.
Weight
700 kg
Dimensions
1980 mm*1065 mm*2285 mm (L*W*H)
Navigation Mode
3D Laser SLAM
Rated Load Capacity
2000 kg
Wheelbase
1170 mm
Lifting Height
175 mm
Fork Dimensions
1225*180*54 mm
Turning Radius
1555 mm
Maximum Speed (loaded/unloaded)
2.6 м/c
Fork Lifting Speed (loaded/unloaded)
0.025 / 0.035 m/s
Permissible Gradeability (loaded/unloaded)
8%
Positioning Accuracy
±30 mm
Battery Capacity
LiFePO4 / 24 V / 225 Ah
Operating Time
6-8 hours
Charging Mode
Manual mode/battery swap, automatic mode
Charging Time
2 hours
LiDAR
Front LiDAR. 360° surround LiDAR. Collision sensors
Applications
- Removal of finished products from the conveyor line, supply of raw materials/containers/packaging to the production line;
- Transportation of products from production to storage areas;
- Placing pallets with goods into racks up to 3.5 m high (depending on the model modification);
- Removal of goods from racks up to 3.5 m high.
Weight: 930 kg
Dimensions: 1840*1010*2000 mm (L*W*H)
Navigation Mode: 3D Laser SLAM
Rated Load Capacity: 1400 kg
Wheelbase: 910 mm
Lifting Height: 1600 / 2500 / 3000 / 3500 mm
Fork Dimensions: 1250*170*60 mm
Turning Radius: 1215 mm
Maximum Speed (loaded/unloaded): 1 / 1.5 m/s
Fork Lifting Speed (loaded/unloaded): 0.115 / 0.175 m/s
Permissible Gradeability (loaded/unloaded): 5% (2.8°)
Positioning Accuracy: ±20 mm
Battery Capacity: LiFePO4 / 24 V / 200 Ah
Operating Time: 6-8 hours
Charging Mode: manual mode / automatic mode
Charging Time: 2 hours
LiDAR: Front LiDAR. 360° surround LiDAR. Collision sensors
Applications
- Removal of finished products from the conveyor line, supply of raw materials/containers/packaging to the production line;
- Transportation of products from production to storage areas;
- Placing pallets with goods into racks up to 3.5 m high (depending on the model modification);
- Removal of goods from racks up to 3.5 m high.
Weight
930 kg
Dimensions
1840*1010*2000 mm (L*W*H)
Navigation Mode
3D Laser SLAM
Rated Load Capacity
1400 кг
Wheelbase
910 mm
Lifting Height
1600 / 2500 / 3000 / 3500 mm
Fork Dimensions
1250*170*60 mm
Turning Radius
1215 mm
Maximum Speed (loaded/unloaded)
1 / 1.5 m/s
Fork Lifting Speed (loaded/unloaded)
0.115 / 0.175 m/s
Permissible Gradeability (loaded/unloaded)
5% (2.8°)
Positioning Accuracy
±20 mm
Battery Capacity
LiFePO4 / 24 V / 200 Ah
Operating Time
6-8 hours
Charging Mode
manual mode / automatic mode
Charging Time
2 hours
LiDAR
Front LiDARs. 360° surround LiDAR. Collision sensors
Applications
- Removal of finished products from the conveyor line, supply of raw materials/containers/packaging to the production line;
- Transportation of products from production to storage areas;
- Placing pallets with goods into racks up to 6 m high (depending on the model modification);
- Removal of goods from racks up to 6 m high.
Weight: 2100 kg
Dimensions: 2095*1200*2300 mm (L*W*H)
Navigation Mode: 3D Laser SLAM
Rated Load Capacity: 1400 kg
Wheelbase: 3000 mm
Lifting Height: 175 mm
Fork Dimensions: 1220*120*40 mm
Turning Radius: 1485 mm
Maximum Speed (loaded/unloaded): 1.0 / 1.5 m/s
Fork Lifting Speed (loaded/unloaded): 0.115 / 0.170 m/s
Permissible Gradeability (loaded/unloaded): ≤10%
Positioning Accuracy: ±20 mm
Battery Capacity: LiFePO4 / 24 V / 210 Ah
Operating Time: 6-8 hours
Charging Mode: manual mode / automatic mode
Charging Time: 2 hours
LiDAR: Front LiDAR. 360° surround LiDAR. Collision sensors
Applications
- Removal of finished products from the conveyor line, supply of raw materials/containers/packaging to the production line;
- Transportation of products from production to storage areas;
- Placing pallets with goods into racks up to 6 m high (depending on the model modification);
- Removal of goods from racks up to 6 m high.
Собственный вес
2100 kg
Dimensions
2095*1200*2300 mm (L*W*H)
Navigation Mode
3D Laser SLAM
Rated Load Capacity
1400 kg
Wheelbase
1170 mm
Lifting Height
3000 mm
Fork Dimensions
1220*120*40 mm
Turning Radius
1485 mm
Maximum Speed (loaded/unloaded)
1.0 / 1.5 m/s
Fork Lifting Speed (loaded/unloaded)
0.115 / 0.170 m/s
Permissible Gradeability (loaded/unloaded)
≤10%
Positioning Accuracy
±20 mm
Battery Capacity
LiFePO4 / 24 V / 210 Ah
Operating Time
6-8 hours
Charging Mode
manual mode / automatic mode
Charging Time
2 hours
LiDAR
Front LiDARs. 360° surround LiDAR. Collision sensors
Applications
Ideal for narrow-aisle storage systems where high-precision positioning is required. Thanks to the magnetic tape mounted on the floor, the robot positions itself with maximum accuracy. It features a cabin in which an operator can work if necessary. It can also be used in wide-aisle storage systems, but for that, two magnetic lines need to be installed in a single aisle — one at each rack row.
Собственный вес: 6185 kg
Dimensions: 2954*1550*3500 mm (L*W*H)
Navigation Mode: 3D Laser SLAM
Rated Load Capacity: 1600 kg
Wheelbase: 1700 mm
Lifting Height: 7500 / 8500 mm
Fork Dimensions: 1200*122*50 mm
Turning Radius: 2105 mm
Maximum Speed (loaded/unloaded): 2.5 m/s
Fork Lifting Speed (loaded/unloaded): 0.25 / 0.35 m/s
Permissible Gradeability (loaded/unloaded): < 5% (2.8°)
Positioning Accuracy: ±10 mm
Battery Capacity: LiFePO4 / 48 V / 600 Ah
Operating Time: 6-8 hours
Charging Mode: manual mode / automatic mode
Charging Time: 2 hours
LiDAR: Front LiDAR. 360° surround LiDAR. Collision sensors
Applications
Ideal for narrow-aisle storage systems where high-precision positioning is required. Thanks to the magnetic tape mounted on the floor, the robot positions itself with maximum accuracy. It features a cabin in which an operator can work if necessary. It can also be used in wide-aisle storage systems, but for that, two magnetic lines need to be installed in a single aisle — one at each rack row.
Weight
6185 kg
Dimensions
780*550*250 mm (L*W*H)
Navigation Mode
3D Laser SLAM
Rated Load Capacity
1600 kg
Wheelbase
1700 mm
Lifting Height
7500 / 8500 mm
Fork Dimensions
1200*122*50 mm
Turning Radius
2105 mm
Maximum Speed (loaded/unloaded)
2.5 m/s
Fork Lifting Speed (loaded/unloaded)
0.25 / 0.35 m/s
Permissible Gradeability (loaded/unloaded)
< 5% (2.8°)
Positioning Accuracy
±10 mm
Battery Capacity
LiFePO4 / 48 V / 600 Ah
Operating Time
6-8 hours
Charging Mode
manual mode / automatic mode
Charging Time
2 hours
LiDAR
Front LiDARs. 360° surround LiDAR. Collision sensors
AMR-robots
ROBOTS
Applications
It is used to implement the Goods-to-Person principle, where the picker stays at a stationary picking station and AMR robots bring shelves with goods to them. This increases order picking speed and reduces the number of picking errors.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
Weight: 150 kg
Dimensions: 780*550*250 mm (L*W*H)
Navigation Mode: QR-code / SLAM
Rated Load Capacity: 300 kg
Lifting Height: 60 mm
Turning Radius: 820 mm
Maximum Speed (loaded/unloaded): 1.8 / 2 m/s
Permissible Gradeability (loaded/unloaded): < 5%
Positioning Accuracy: ±10 mm
Battery Capacity: LiFePO4 / 48 V / 20 Ah
Operating Time: 6-8 hours
Charging Mode: automatic mode
Charging Time: 1.5 hours
LiDAR: Lower 270° LiDAR
Applications
It is used to implement the Goods-to-Person principle, where the picker stays at a stationary picking station and AMR robots bring shelves with goods to them. This increases order picking speed and reduces the number of picking errors.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
Weight
150 kg
Dimensions
780*550*250 mm (L*W*H)
Navigation Mode
QR-code / SLAM
Rated Load Capacity
300 kg
Lifting Height
60 мм
Turning Radius
820 mm
Maximum Speed (loaded/unloaded)
1.8 / 2 m/s
Permissible Gradeability (loaded/unloaded)
< 5%
Positioning Accuracy
±10 mm
Battery Capacity
LiFePO4 / 48 V / 20 Ah
Operating Time
6-8 hours
Charging Mode
automatic mode
Charging Time
1.5 hours
LiDAR
Lower 270° LiDAR
Applications
It is used to implement the Goods-to-Person principle, where the picker stays at a stationary picking station and AMR robots bring shelves with goods to them. This increases order picking speed and reduces the number of picking errors.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
Weight: 200 kg
Dimensions: 990*660*250 mm (L*W*H)
Navigation Mode: по QR-коду / SLAM
Rated Load Capacity: 600 kg
Lifting Height: 60 mm
Turning Radius: 990 mm
Maximum Speed (loaded/unloaded): 1.8 / 2 m/s
Допустимый уклон (с грузом/без груза): < 5%
Positioning Accuracy: ±10 mm
Battery Capacity: LiFePO4 / 48 В / 30 Ач
Operating Time: 6-8 часов
Charging Mode: automatic mode
Charging Time: 1.5 часа
LiDAR: нижний лидар 270°
Applications
It is used to implement the Goods-to-Person principle, where the picker stays at a stationary picking station and AMR robots bring shelves with goods to them. This increases order picking speed and reduces the number of picking errors.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
Weight
200 kg
Dimensions
990*660*250 mm (L*W*H)
Navigation Mode
QR-code / SLAM
Rated Load Capacity
600 kg
Lifting Height
60 mm
Turning Radius
990 mm
Maximum Speed (loaded/unloaded)
1.8 / 2 m/s
Permissible Gradeability (loaded/unloaded)
< 5%
Positioning Accuracy
±10 mm
Battery Capacity
LiFePO4 / 48 V / 30 Ah
Operating Time
6-8 hours
Charging Mode
automatic mode
Charging Time
1.5 hours
LiDAR
Lower 270° LiDAR
Applications
It is used to implement the Goods-to-Person principle, where the picker stays at a stationary picking station and AMR robots bring shelves with goods to them. This increases order picking speed and reduces the number of picking errors.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
Weight: 235 kg
Dimensions: 1185*815*250 mm (L*W*H)
Navigation Mode: по QR-коду / SLAM
Rated Load Capacity: 1000 кг
Lifting Height: 60 mm
Turning Radius: 1190 mm
Maximum Speed (loaded/unloaded): 1.8 / 2 m/s
Допустимый уклон (с грузом/без груза): < 5%
Positioning Accuracy: ±10 mm
Battery Capacity: LiFePO4 / 48 В / 40 Ач
Operating Time: 6-8 часов
Charging Mode: automatic mode
Charging Time: 1.5 часа
LiDAR: нижний лидар 270°
Applications
It is used to implement the Goods-to-Person principle, where the picker stays at a stationary picking station and AMR robots bring shelves with goods to them. This increases order picking speed and reduces the number of picking errors.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
It can also transport pallets if they are placed on special "platforms" that the robot drives under to pick up the pallet. Operation typically requires additional equipment (shelves, platforms, etc.). Higher-capacity models can be used in the automotive industry to transport car bodies and other components.
Weight
235 kg
Dimensions
1185*815*250 mm (L*W*H)
Navigation Mode
QR-code / SLAM
Rated Load Capacity
1000 kg
Lifting Height
60 mm
Turning Radius
1190 mm
Maximum Speed (loaded/unloaded)
1.8 / 2 m/s
Permissible Gradeability (loaded/unloaded)
< 5%
Positioning Accuracy
±10 mm
Battery Capacity
LiFePO4 / 48 V / 40 Ah
Operating Time
6-8 hours
Charging Mode
automatic mode
Charging Time
1.5 hours
LiDAR
Lower 270° LiDAR
Software
software
Automacon WCS Solution
(Warehouse Control System)
Automacon WCS is a Russian software product designed for centralized real-time management of a fleet of autonomous robots and automated warehouse equipment, including: AMR/FMR robots; conveyors; shuttle systems; sorting systems; stacker cranes, etc. Automacon WCS ensures uninterrupted and coordinated operation of the entire automated warehouse.
Thanks to its built-in artificial intelligence system, the software determines the optimal sequence for executing incoming tasks, thereby increasing robot operational efficiency. This is especially important in large-scale projects where many robots operate simultaneously.
Thanks to its built-in artificial intelligence system, the software determines the optimal sequence for executing incoming tasks, thereby increasing robot operational efficiency. This is especially important in large-scale projects where many robots operate simultaneously.
An effective management system allows a company to reduce its investment when purchasing robots.
Key features:
Equipment management
Digital twin
Routing and task management
Autonomous operation
Monitoring and diagnostics
Integration with external management systems (WMS, ERP)
Automacon WCS Solution
(Warehouse Control System)
Automacon WCS is a Russian software product designed for centralized real-time management of a fleet of autonomous robots and automated warehouse equipment, including: AMR/FMR robots; conveyors; shuttle systems; sorting systems; stacker cranes, etc. Automacon WCS ensures uninterrupted and coordinated operation of the entire automated warehouse.
Thanks to its built-in artificial intelligence system, the software determines the optimal sequence for executing incoming tasks, thereby increasing robot operational efficiency. This is especially important in large-scale projects where many robots operate simultaneously.
An effective management system allows a company to reduce its investment when purchasing robots.
Key features:
Equipment management
Digital twin
Routing and task management
Autonomous operation
Monitoring and diagnostics
Integration with external management systems (WMS, ERP)
RMS is a fleet management system for automated guided vehicles (AGV/FMR).
The main goal of the system is to automate intra-warehouse logistics and provide centralized control of a robotic fleet. RMS is a full-featured robot fleet management platform that integrates with WMS and external warehouse equipment.
Most warehouses perform intra-warehouse movements manually — using personnel and material handling equipment. RMS makes it possible to replace manual transportation with an automated fleet and manage it centrally.
Most warehouses perform intra-warehouse movements manually — using personnel and material handling equipment. RMS makes it possible to replace manual transportation with an automated fleet and manage it centrally.
The system combines the following in a single web interface:
- AGV robot control;
- task distribution and execution monitoring;
- incident reporting;
- monitoring and analytics.
RMS is a full-featured robot fleet management platform that integrates with WMS and external warehouse equipment. The system operates on the principle of centralized control.
RMS distributes the tasks among the robots
Tasks are received by the system (from external systems or from the RMS web interface)
RMS transmits information on the execution progress
The robots perform the cargo transportation
RMS is a tool for transitioning from a manual model to robotic logistics.
RMS is a fleet management system for automated guided vehicles (AGV/FMR).
The main goal of the system is to automate intra-warehouse logistics and provide centralized control of a robotic fleet. RMS is a full-featured robot fleet management platform that integrates with WMS and external warehouse equipment.
Most warehouses perform intra-warehouse movements manually — using personnel and material handling equipment. RMS makes it possible to replace manual transportation with an automated fleet and manage it centrally.
The system combines the following in a single web interface:
- AGV robot control;
- task distribution and execution monitoring;
- incident reporting;
- monitoring and analytics.
RMS is a full-featured robot fleet management platform that integrates with WMS and external warehouse equipment. The system operates on the principle of centralized control.
The robots perform the cargo transportation
Tasks are received by the system (from external systems or from the RMS web interface)
RMS transmits information on the execution progress
RMS distributes the tasks among the robots
RMS is a tool for transitioning from a manual model to robotic logistics.
© 2026 Automacon Robotics. All rights reserved.
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A Russian manufacturer of autonomous warehouse robots and management systems
© 2026 Automacon Robotics. All rights reserved.
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A Russian manufacturer of autonomous warehouse robots and management systems