Design
Cleaning robot is projected by developers of automated driving for public roads.And is supposed to reduce the cost of cleaning by minimizing human involvement.
Interface
The intuitive interface doesn't require any special training. Unique RTLS-based in-space localization system provides 100% cleaning with minimal control.The robot is designed especially for malls, supermarkets, warehouses, and airports
How to purchase Unit
Contact us via phone or email
01
Personal Manager will answer all your questions and help you with making payments
02
Opt for a way of delivery and your Unit is in your hands
03
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- the life of our robots
- the coolest pilots
- we tell the whole truth about the development
Video
100% cleaning of the whole required area
Saving on staff salaries up to 80%
Accurate localization allows you to clean at a distance of 3 cm from walls and furniture
The unit is made of highly reliable components from leading brands to provide cleaning of floors at any time of the day or night at a reasonable cost.
Cost of the robot 30.000$
Security
Lidar detects
360 degree obstacles
360 degree obstacles
Radar-provides
strong security
strong security
Neural
network
network
We are not afraid of glass, stairs and escalators as well.
Stereo camera-classifies obstacles, identifies people and stationary obstacles
RTLS-for localization in space
Duplication of sensors gives 100% safety to others and the car itself.
Benefits
100% cleaning of the whole
required area
required area
Saving on staff salaries
up to 80%
up to 80%
Accurate localization allows you to clean at a distance of 3 cm from walls and furniture
The unique positioning system, allows to move 40% faster than competitors and avoids crashing into problem areas such as glass and mirrored surfaces.
4200м2 on one charge
Programmable cleaning, even at night
Our customer service is based on 3 solutions
Product
Made of high quality and popular componentsFleet Management
Web-based solution that allows you to manage, monitor, and analyze a fleet of robots from anywhere in the worldService support
Advanced dealer network, makes it possible to replace parts in the event of breakdowns in the shortest possible time.News
How we pilot our "NO" pilot scrubber.
Why the world has started to move to autonomous cleaning robots
Self-driving technology
Founder of the company, Robert Gasparyan
Hello, friend! Over 2 years ago, within our core business, fulfillment for marketplaces, we gathered a department to create unmanned technology.
We developed a software driver that could be used in any technology by subscription. To automate our own and other people's processes in the future, we are testing it on cars and fulfillment robots.
From this knowledge and experimentation, the world has seen a product that the market needs now, this automatic scrubber dryer for commercial premises.
We are sure in our products, we are ready to prove to you as well
Frequent questions
Client questionnaire
- Type of premises (warehouse, store, shopping center)
- Room size, floor space, ceiling height, rack/shelf height.
- Potential for the number of robots
- Room size, floor space, ceiling height, rack/shelf height.
- Potential for the number of robots
How the sale takes place
- Contract signing
- 50% prepayment
- 2 months for production
- Final payment and delivery of the robot to the object
- Commissioning
- 50% prepayment
- 2 months for production
- Final payment and delivery of the robot to the object
- Commissioning
Commissioning/pilot
- The specialist visits the object, makes a photo survey, roughly estimates the location of anchors
- The client should send a floor plan in *.dwg format.
- The anchors are installed and the surveyor measures their location and puts them on the plan.
- The route is created automatically by loading the plan into a CNC program
For a pilot, 6 anchors are usually taken, covering an area of 500-1000m2. At this time the anchors are powered by batteries, they are enough for 6-8h.
The first day, installation and measuring of the anchors takes 2h. Drawing the anchors on the plan and plotting the route, another 2 hours.
The second day, bringing the robot, loading the route into the robot, test.
Bottom line - it takes 1-3 days to fully launch the robot in a limited space.
- The client should send a floor plan in *.dwg format.
- The anchors are installed and the surveyor measures their location and puts them on the plan.
- The route is created automatically by loading the plan into a CNC program
For a pilot, 6 anchors are usually taken, covering an area of 500-1000m2. At this time the anchors are powered by batteries, they are enough for 6-8h.
The first day, installation and measuring of the anchors takes 2h. Drawing the anchors on the plan and plotting the route, another 2 hours.
The second day, bringing the robot, loading the route into the robot, test.
Bottom line - it takes 1-3 days to fully launch the robot in a limited space.
Why are you better than other robots?
Our technology for autonomous movement is different from 99% of players on the market and is based on RTLS (radio beacons that provide absolute navigation, the "in house" analog of GPS). Competitors use SLAM technology, lidar scans the space around it and compares it with pictures from memory. If it matches, it knows where it is.
This technology (SLAM), has a number of disadvantages:
- It doesn't work in a fast-paced environment. You move 10 pallets in a warehouse, the robot gets lost.
- Does not work in large areas. Requires a lot of processing power on board.
- Lots of lidar images, lots of memory access, takes a long time to process and as a result may not behave confidently.
In our robot, the speed of movement is equal to that of a human. Since the position is given by RTLS, and the movement follows a known route.
All other sensorics duplicate the safety. Ultrasound on the sides, floor sensor, several lidars, 3D camera.
You can divide a large room and expose several cleaning zones on a schedule. The robot can move in both drone mode and manual mode with a joystick.
Right now, all routes and settings are done remotely or on-site by the developers. In the future, a web interface for interaction, diagnostics and fleet management will be introduced.
This technology (SLAM), has a number of disadvantages:
- It doesn't work in a fast-paced environment. You move 10 pallets in a warehouse, the robot gets lost.
- Does not work in large areas. Requires a lot of processing power on board.
- Lots of lidar images, lots of memory access, takes a long time to process and as a result may not behave confidently.
In our robot, the speed of movement is equal to that of a human. Since the position is given by RTLS, and the movement follows a known route.
All other sensorics duplicate the safety. Ultrasound on the sides, floor sensor, several lidars, 3D camera.
You can divide a large room and expose several cleaning zones on a schedule. The robot can move in both drone mode and manual mode with a joystick.
Right now, all routes and settings are done remotely or on-site by the developers. In the future, a web interface for interaction, diagnostics and fleet management will be introduced.
The price of a cleaning robot is made up of
- Cost of the robot
- Docking stations for draining dirty water, filling clean water and charging. The docking station is not necessary for rooms where several people work. One person cleans the robot, the rest of the dockers service the robot. The docking station cannot clean the racquet, rinse the tank, or clean the coarse filter.
- Anchors are mandatory additional radio equipment that hangs in the room for unmanned movement of the robot. The anchors look like a Wi-Fi modem and are arranged to cover the entire area required. The coverage radius of 1 anchor is up to 70m. It is powered from an ordinary socket. The task of the anchors is to give the exact position of the mark on the robot at all times. Knowing the global position, the robot needs to follow the loaded route. Obstacles are avoided locally in order to return to the route.