Autonomous Cleaning for Large Commercial Facilities
Robotic floor cleaners from Grimeworks bring fully autonomous cleaning to large commercial and industrial facilities — machines that map a space, navigate around obstacles, and run their cleaning routes independently, freeing your team to focus on higher-value work instead of routine floor maintenance. Where labor typically makes up 70-90% of the cost of cleaning a facility, a robot that runs a route overnight or during off-hours changes the underlying economics of maintaining large floor areas.
Our lineup is built entirely on TASKI's Ecobot and Phantas platforms, spanning autonomous scrubbing, sweeping, and vacuuming robots along with the docking infrastructure that keeps them running unattended.
How Robotic Floor Cleaners Work
Autonomous floor cleaning robots use a combination of LiDAR mapping, AI-powered navigation, and onboard sensors to build a map of your facility, plan an efficient cleaning route, and detect and avoid obstacles — carts, furniture, pedestrians — in real time. Once trained on a space, the robot repeats that route on a schedule, cleaning consistently without a human operator walking alongside it. Most also self-dock and recharge automatically between cleaning cycles, and higher-end docking stations extend that automation to refilling water and emptying wastewater tanks as well.
Robotic vs. Manual Equipment: Where the Robot Actually Wins
Robotic floor cleaners aren't a wholesale replacement for your existing walk-behind and ride-on equipment — they're a different tool for a different problem. A robot excels at repeatable, routine cleaning of the same large area on a predictable schedule, especially during off-hours when staffing a machine operator isn't practical. Manual equipment still wins for irregular spaces, spot cleaning, edge work the robot can't reach, and facilities too small or too variable in layout to justify the investment and route-mapping setup a robot requires. Most large facilities that adopt robotic cleaning keep manual equipment on hand for exactly these gaps.
Choosing the Right Robotic Floor Cleaner
Cleaning Function — Match the robot to the job: a dedicated scrubber for hard floor cleaning, a sweeper-vacuum for dry debris across carpet and hard floors, a dry industrial sweeper for warehouse and logistics floors, or an all-in-one unit if your facility needs multiple functions covered by a single platform.
Facility Size and Route Complexity — Compact platforms suit contained areas with tighter route requirements; larger-format robots are built for expansive, more open facilities where route efficiency matters more than maneuverability in tight corners.
Docking and Refill Automation — A basic charging dock keeps the robot powered between cycles; a full workstation that also handles water refill and wastewater removal reduces staff involvement even further, which matters most for facilities running frequent or continuous cleaning cycles.
Floor Type Compatibility — Confirm whether you need a robot rated for hard floors only, carpet and hard floors together, or dry sweeping specifically — these platforms aren't interchangeable across floor types.
Total Cost of Ownership — Robotic equipment carries a significantly higher upfront cost than manual machines, but the calculation should account for reduced labor hours over the life of the machine, not just the purchase price against a walk-behind scrubber.
Shop TASKI Robotic Cleaners
All-in-One Cleaning Robots
TASKI Phantas with Charging Station — A compact autonomous floor cleaning robot designed to automate daily cleaning in facilities up to 1,000 m² (10,764 sq. ft.), combining AI navigation, LiDAR technology, and intelligent obstacle avoidance.
Dedicated Scrubbing & Sweeping Robots
TASKI Ecobot 50 Pro — A next-generation autonomous floor scrubber designed to automate hard floor cleaning while reducing labor costs and improving cleaning consistency, with advanced AI-powered navigation and intelligent route planning.
TASKI Ecobot 40 — An autonomous sweeper vacuum robot built to automate daily floor cleaning across both carpet and hard floor surfaces, combining intelligent navigation with powerful vacuum performance.
TASKI K900 Autonomous Industrial Sweeper — A fully autonomous dry sweeping robot engineered for warehouses, logistics centers, and manufacturing facilities, using AI navigation, LiDAR mapping, and cloud connectivity.
Docking & Charging Infrastructure
TASKI GS Workstation 50 (for Ecobot 50 Pro) — A fully automated docking station that recharges the battery, refills the clean water tank, and empties recovered wastewater, extending autonomous operation with minimal staff involvement.
TASKI GS Charging Station 40/50 (for Ecobot Robots) — An intelligent automatic charging dock compatible with both the Ecobot 40 and Ecobot 50 Pro, enabling continuous autonomous operation through automatic recharging.
Getting the Most from Your Robotic Floor Cleaner
Invest in Proper Route Mapping — A robot's reliability depends heavily on an accurate initial map and well-planned route; time spent getting this right during setup pays off in fewer manual interventions later.
Match the Docking Setup to Your Cleaning Frequency — Facilities running frequent or continuous cycles benefit most from a full workstation with water refill and wastewater automation, not just a basic charging dock.
Keep Manual Equipment for Edge Cases — Plan for spot cleaning, tight corners, and irregular areas the robot's route doesn't cover — a robot handles the routine bulk of the work, not every square foot.
Review Routes After Layout Changes — Moved furniture, new equipment, or reconfigured spaces can affect a robot's mapped route; re-verify and update the map after any significant layout change.
Not sure which robotic floor cleaner fits your facility? Contact our team — we'll help you match the right platform, docking setup, and cleaning function to your space and cleaning schedule.
Autonomous Cleaning for Large Commercial Facilities
Robotic floor cleaners from Grimeworks bring fully autonomous cleaning to large commercial and industrial facilities — machines that map a space, navigate around obstacles, and run their cleaning routes independently, freeing your team to focus on higher-value work instead of routine floor maintenance. Where labor typically makes up 70-90% of the cost of cleaning a facility, a robot that runs a route overnight or during off-hours changes the underlying economics of maintaining large floor areas.
Our lineup is built entirely on TASKI's Ecobot and Phantas platforms, spanning autonomous scrubbing, sweeping, and vacuuming robots along with the docking infrastructure that keeps them running unattended.
How Robotic Floor Cleaners Work
Autonomous floor cleaning robots use a combination of LiDAR mapping, AI-powered navigation, and onboard sensors to build a map of your facility, plan an efficient cleaning route, and detect and avoid obstacles — carts, furniture, pedestrians — in real time. Once trained on a space, the robot repeats that route on a schedule, cleaning consistently without a human operator walking alongside it. Most also self-dock and recharge automatically between cleaning cycles, and higher-end docking stations extend that automation to refilling water and emptying wastewater tanks as well.
Robotic vs. Manual Equipment: Where the Robot Actually Wins
Robotic floor cleaners aren't a wholesale replacement for your existing walk-behind and ride-on equipment — they're a different tool for a different problem. A robot excels at repeatable, routine cleaning of the same large area on a predictable schedule, especially during off-hours when staffing a machine operator isn't practical. Manual equipment still wins for irregular spaces, spot cleaning, edge work the robot can't reach, and facilities too small or too variable in layout to justify the investment and route-mapping setup a robot requires. Most large facilities that adopt robotic cleaning keep manual equipment on hand for exactly these gaps.
Choosing the Right Robotic Floor Cleaner
Cleaning Function — Match the robot to the job: a dedicated scrubber for hard floor cleaning, a sweeper-vacuum for dry debris across carpet and hard floors, a dry industrial sweeper for warehouse and logistics floors, or an all-in-one unit if your facility needs multiple functions covered by a single platform.
Facility Size and Route Complexity — Compact platforms suit contained areas with tighter route requirements; larger-format robots are built for expansive, more open facilities where route efficiency matters more than maneuverability in tight corners.
Docking and Refill Automation — A basic charging dock keeps the robot powered between cycles; a full workstation that also handles water refill and wastewater removal reduces staff involvement even further, which matters most for facilities running frequent or continuous cleaning cycles.
Floor Type Compatibility — Confirm whether you need a robot rated for hard floors only, carpet and hard floors together, or dry sweeping specifically — these platforms aren't interchangeable across floor types.
Total Cost of Ownership — Robotic equipment carries a significantly higher upfront cost than manual machines, but the calculation should account for reduced labor hours over the life of the machine, not just the purchase price against a walk-behind scrubber.
Shop TASKI Robotic Cleaners
All-in-One Cleaning Robots
TASKI Phantas with Charging Station — A compact autonomous floor cleaning robot designed to automate daily cleaning in facilities up to 1,000 m² (10,764 sq. ft.), combining AI navigation, LiDAR technology, and intelligent obstacle avoidance.
Dedicated Scrubbing & Sweeping Robots
TASKI Ecobot 50 Pro — A next-generation autonomous floor scrubber designed to automate hard floor cleaning while reducing labor costs and improving cleaning consistency, with advanced AI-powered navigation and intelligent route planning.
TASKI Ecobot 40 — An autonomous sweeper vacuum robot built to automate daily floor cleaning across both carpet and hard floor surfaces, combining intelligent navigation with powerful vacuum performance.
TASKI K900 Autonomous Industrial Sweeper — A fully autonomous dry sweeping robot engineered for warehouses, logistics centers, and manufacturing facilities, using AI navigation, LiDAR mapping, and cloud connectivity.
Docking & Charging Infrastructure
TASKI GS Workstation 50 (for Ecobot 50 Pro) — A fully automated docking station that recharges the battery, refills the clean water tank, and empties recovered wastewater, extending autonomous operation with minimal staff involvement.
TASKI GS Charging Station 40/50 (for Ecobot Robots) — An intelligent automatic charging dock compatible with both the Ecobot 40 and Ecobot 50 Pro, enabling continuous autonomous operation through automatic recharging.
Getting the Most from Your Robotic Floor Cleaner
Invest in Proper Route Mapping — A robot's reliability depends heavily on an accurate initial map and well-planned route; time spent getting this right during setup pays off in fewer manual interventions later.
Match the Docking Setup to Your Cleaning Frequency — Facilities running frequent or continuous cycles benefit most from a full workstation with water refill and wastewater automation, not just a basic charging dock.
Keep Manual Equipment for Edge Cases — Plan for spot cleaning, tight corners, and irregular areas the robot's route doesn't cover — a robot handles the routine bulk of the work, not every square foot.
Review Routes After Layout Changes — Moved furniture, new equipment, or reconfigured spaces can affect a robot's mapped route; re-verify and update the map after any significant layout change.
Not sure which robotic floor cleaner fits your facility? Contact our team — we'll help you match the right platform, docking setup, and cleaning function to your space and cleaning schedule.