Self-driving cleaning robots are increasingly being used in office buildings and shopping centers. After closing time, they move in a defined grid pattern over the floor areas to be cleaned. Obstacles are automatically detected and circumvented. However, some obstacles present a challenge for detection. For example, glass doors and walls are difficult for optical sensors to see. Shiny and very dark surfaces can also be difficult to detect.
The cleaning robots must never collide with obstacles, so even transparent surfaces must be detected. The sensor used for collision protection must not only reliably detect the obstacles, but also output the corresponding signal quickly enough that the self-driving robot can brake or change direction in time. A complete protection field in the direction of travel with a minimal dead band is required. If multiple sensors are used to establish this protective field, they must not interfere with each other.
Ultrasonic sensors such as the 30GM and L2 series detect objects regardless of their optical properties. They reliably detect transparent, reflective, and irregular surfaces, as well as surfaces where the color could be a problem. Detection is not affected by the material or the structure of the obstacles. The devices are compact; there is easily enough space for several sensors even on smaller cleaning robots. Depending on the size of the front of the vehicle, the sound cones of one or more sensors can set up a complete protective field. The devices are automatically synchronized so they do not interfere with each other’s functioning. The dimension of the sound cone can be parameterized.
Technical Features
30GM Series
L2 Series
Ultrasonic sensors are designed to be extremely rugged and reliable. Obstacle detection by ultrasonic sensors not only works independently of the obstacle’s surface structure, but is also unaffected by dirt build-up or the environmental and weather conditions. They can therefore be used outdoors as well as indoors. Installation and parameterization are easy to carry out. Synchronizing multiple sensors establishes a continuous sound field in front of the cleaning robot. The devices meet all quality requirements with regard to object detection and EMC resistance.