Dry Switchable Robot SCM - L2

The Dry switchable SCM -L2 offers two cleaning modes: dry cleaning and wet cleaning. In dry cleaning mode, the robot utilizes rotating brushes to gently clean the surface of the solar panels, effectively removing dirt and dust.

Based on projects requirements, the wet cleaning mode of the SCM-L2 robot can be activated to utilize the robot’s water injection system, allowing for a seamless switch from dry to wet cleaning to enable a thorough cleaning process as needed.

Product Features

Customized Automation Level

SCM-L2 can be tailored to meet the specific needs and requirements of different types of solar panel systems. It is designed to accommodate various panel sizes, and tilts, ensuring optimal cleaning performance for each unique configuration.

Plug-and-Play Design

Provides an easy deployment process reduces and enhances various aspects, including time efficiency, cost savings, user-friendliness, flexibility, and scalability.

Edge Detection Sensors Mechanism

Ensures robot safety and prevents any potential accidents.

Self-lock Mechanism

 Ensures proper alignment between the robot and the solar panels This specially designed mechanism helps the robot maintain a secure and precise position while cleaning.

Gaps-Bypassing Technology

Enables the robot to bypass any gap up to 30cm without installing rails, which reduces the cleaning system installation cost significantly.

IoT Based Control System

Supported by DarbSense technology, this feature allows users of the DARBCO robotic solution to manage and supervise all the components of the system using a smart IoT platform or a mobile application, locally or remotely.

Switchable Cleaning Technology

 Involves two distinct cleaning stages: the water injection stage and the brushing stage. This technology provides the flexibility to perform both dry and wet cleaning methods, depending on the specific requirements of the solar panel cleaning process.

Anti-Fall Protection

Specially developed DARBCO hardware and software systems that protect robots from potential falls at edges or into gaps.

Resilient Design

Durable, able to withstand harsh environmental conditions, including strong winds, high humidity levels, and dusty environments.