Utilizing Remote Control options offers a range of benefits.
Remote Control capability is available via two options.
Basic: straight line, forwards and backward movement
Full: multi-directional capability.
When utilizing Remote Control, operators have an ideal vantage point when moving a load, controlling speed and direction of travel through simple controls. The tugger or tow will come to a stop if the controls are disengaged, or the emergency stop button (on the control unit or the machine) is engaged.
An addition to Remote Control of a single machine, our MultiLink technology facilitates the use of multiple electric tuggers, working in sync under the control of a single operator.
This is ideal for especially large or heavy loads, with multiple machines positioned at suitable points on the load. SmartCoupling ensures each tug understands its position on the load, delivering seamless operation.
This technology ensures an electric tugger follows a line on the floor, delivering highly accurate repeated movement between points. This is especially useful when moving loads through tight spaces, or when accurate movement is required.
Line Following capability is available via two options.
Remote Control: the operator controls the speed of the machine, but the direction is dictated by a dedicated line on the floor.
AGV: movement is automated with the AGV following the line on the floor. Scanners monitor for hazards and risks, bringing the tugger or tow to a stop if the need arises. The AGV can read barcodes or other prompts, to stop under certain circumstances, or slow down or speed up in different locations.
AGV – Natural Navigation
Our full AGV solution utilizes the latest in navigation and safety sensor technology to deliver electric tuggers that interact with their environment, traveling safely and efficiently between destinations.
Safety sensors detect obstacles and risks, slowing or stopping movement, for example reducing speed when the floor is wet and/or where visibility is impacted.
Navigation technology ensures the machine travels between destinations, interacting with your environment as required to take account or ideal routes, other machines, and operational factors.