How Waybot reduces the risk of damage to furniture and glass structures during cleaning
Modern commercial interiors are becoming increasingly complex: glass partitions, designer furniture, glossy finishes, and expensive equipment require a special approach to cleaning. In such conditions, collision-free cleaning is particularly important, where it is critical to avoid accidental damage. Waybot robots for delicate cleaning are designed specifically for such tasks — intelligent devices that can clean offices, business centers, and other facilities without posing a threat to property.
Why it is important to avoid collisions when cleaning
Incorrect movement of classic equipment or carelessness on the part of staff can lead to:
scratches on glass partitions;
damage to furniture and fittings;
damage to anti-panic doors and fastenings;
displacement of decorative elements.
Even slight contact with a robot can cause problems, especially in premium-class premises. It is important to use a safe robot for the office that is capable of autonomously recognizing obstacles and avoiding them.
scratches on glass partitions;
damage to furniture and fittings;
damage to anti-panic doors and fastenings;
displacement of decorative elements.
Even slight contact with a robot can cause problems, especially in premium-class premises. It is important to use a safe robot for the office that is capable of autonomously recognizing obstacles and avoiding them.
Waybot: collision-free cleaning technology Intelligent sensors and lidars
A key feature of Waybot is its lidar and 3D detection system, which allows the robot to not only see the space, but also build a digital map of it in real time. This allows the device to:
see transparent and glossy surfaces;
take protruding elements into account;
adapt to changing conditions.
A robot for delicate cleaning Waybot does not “bump” into obstacles like cheap counterparts, but changes its route in advance, adjusting its movement with high precision.
Depth cameras and AI processing Machine vision allows it to recognize objects of any shape — even a glass table or chair leg. With AI support, the robot distinguishes passable areas from potentially dangerous ones and bypasses them with high precision, without even touching complex surfaces.
Adaptive speed and behavior near furniture Based on data from sensors, Waybot automatically slows down when approaching furniture and glass partitions. Thanks to this, it:
carefully passes between tables;
avoids hitting chair legs;
does not “bump” into glass and metal;
does not touch objects with uneven surfaces.
This feature makes it a safe robot for the office, where it is important to preserve the original appearance of the interior.
A key feature of Waybot is its lidar and 3D detection system, which allows the robot to not only see the space, but also build a digital map of it in real time. This allows the device to:
see transparent and glossy surfaces;
take protruding elements into account;
adapt to changing conditions.
A robot for delicate cleaning Waybot does not “bump” into obstacles like cheap counterparts, but changes its route in advance, adjusting its movement with high precision.
Depth cameras and AI processing Machine vision allows it to recognize objects of any shape — even a glass table or chair leg. With AI support, the robot distinguishes passable areas from potentially dangerous ones and bypasses them with high precision, without even touching complex surfaces.
Adaptive speed and behavior near furniture Based on data from sensors, Waybot automatically slows down when approaching furniture and glass partitions. Thanks to this, it:
carefully passes between tables;
avoids hitting chair legs;
does not “bump” into glass and metal;
does not touch objects with uneven surfaces.
This feature makes it a safe robot for the office, where it is important to preserve the original appearance of the interior.
How Waybot protects glass structures Transparent object recognition
Most budget robots cannot “see” glass — they rely on IR radiation or physical contact. Waybot, on the other hand, uses lidar and depth cameras that can even process transparent surfaces.
Advantages:
avoids tempered glass doors;
does not bump into glass stair railings;
gently curves around display cases and demonstration stands.
Real-life example: Frameless glass partitions were installed in one of Moscow's business centers. After replacing manual cleaning with Waybot robots for delicate cleaning, the number of damages to glass surfaces dropped to zero. The robot began cleaning at night, posing no risk to either the finish or the equipment.
Most budget robots cannot “see” glass — they rely on IR radiation or physical contact. Waybot, on the other hand, uses lidar and depth cameras that can even process transparent surfaces.
Advantages:
avoids tempered glass doors;
does not bump into glass stair railings;
gently curves around display cases and demonstration stands.
Real-life example: Frameless glass partitions were installed in one of Moscow's business centers. After replacing manual cleaning with Waybot robots for delicate cleaning, the number of damages to glass surfaces dropped to zero. The robot began cleaning at night, posing no risk to either the finish or the equipment.
Working in complex office interiors Cleaning in open spaces
Waybot effectively navigates open-plan offices with lots of furniture and little free space. It maps even the narrowest corridors and cleans neatly between rows of workstations without catching wires, chair legs, or bumping into trash cans.
Cleaning in meeting rooms and waiting areas These rooms often feature glass tables, magazine racks, and upholstered furniture. Waybot slows down, activates delicate mode, and works almost silently so as not to disturb employees and customers.
Waybot effectively navigates open-plan offices with lots of furniture and little free space. It maps even the narrowest corridors and cleans neatly between rows of workstations without catching wires, chair legs, or bumping into trash cans.
Cleaning in meeting rooms and waiting areas These rooms often feature glass tables, magazine racks, and upholstered furniture. Waybot slows down, activates delicate mode, and works almost silently so as not to disturb employees and customers.
How to prevent damage to furniture
Software zone restrictions
Waybot supports virtual walls and restricted zones — the operator or administrator can specify areas on the map that the robot should not enter. For example:
near office partitions made of fragile materials;
near designer art objects;
near exhibition panels.
Careful navigation around low objects Waybot robots are equipped with special bumpers with sensitive zones. When approaching low furniture (plinths or niches), the device corrects its trajectory to avoid collision or impact.
Software zone restrictions
Waybot supports virtual walls and restricted zones — the operator or administrator can specify areas on the map that the robot should not enter. For example:
near office partitions made of fragile materials;
near designer art objects;
near exhibition panels.
Careful navigation around low objects Waybot robots are equipped with special bumpers with sensitive zones. When approaching low furniture (plinths or niches), the device corrects its trajectory to avoid collision or impact.
- Advantages of Waybot for delicate cleaning
- Minimized risk — the robot can see even transparent and fragile objects.
- Flexible navigation — Waybot adapts to each room individually.
- Reduced costs — less damage means lower furniture repair costs.
- Safety first — algorithms eliminate the possibility of collisions.
- Easy setup — set up cleaning zones and restricted areas in just a few clicks.
Conclusion: safe cleaning of the new generation — with the Waybot robot
In modern commercial interiors, where glass, fragile materials, designer furniture, and expensive equipment are used, the issue of safety during cleaning comes to the fore. The slightest careless movement of conventional equipment or operator error can lead to costly consequences — from a crack in a glass partition to the complete replacement of an interior item. That is why a robot for delicate cleaning, capable of acting precisely, gently, and without error, comes to the fore.
Waybot is a technological response to this challenge. Thanks to an advanced navigation system, including lidar, 3D cameras, and machine vision, the robot does not simply “drive around” obstacles — it understands the space, builds a digital model of it, and reacts in real time. This allows it to clean without collisions, even in the most challenging conditions: among glass tables, near display cases, next to equipment, and designer objects.
For owners of offices, shopping centers, hotels, medical facilities, and other properties, this offers a number of practical advantages:
Property preservation — no need to repair furniture, replace glass, or fix dents after unsuccessful maneuvers.
Interior safety — the robot takes into account not only the shape but also the material of objects, which is especially important when there are transparent partitions and glass structures.
Positive image — the use of intelligent technology emphasizes a high level of care for pro
In modern commercial interiors, where glass, fragile materials, designer furniture, and expensive equipment are used, the issue of safety during cleaning comes to the fore. The slightest careless movement of conventional equipment or operator error can lead to costly consequences — from a crack in a glass partition to the complete replacement of an interior item. That is why a robot for delicate cleaning, capable of acting precisely, gently, and without error, comes to the fore.
Waybot is a technological response to this challenge. Thanks to an advanced navigation system, including lidar, 3D cameras, and machine vision, the robot does not simply “drive around” obstacles — it understands the space, builds a digital model of it, and reacts in real time. This allows it to clean without collisions, even in the most challenging conditions: among glass tables, near display cases, next to equipment, and designer objects.
For owners of offices, shopping centers, hotels, medical facilities, and other properties, this offers a number of practical advantages:
Property preservation — no need to repair furniture, replace glass, or fix dents after unsuccessful maneuvers.
Interior safety — the robot takes into account not only the shape but also the material of objects, which is especially important when there are transparent partitions and glass structures.
Positive image — the use of intelligent technology emphasizes a high level of care for pro
