Robotic snake-arm flies into tight spaces.
A robot as agile as a snake can explore almost any hidden nook and cranny. Problems often occur in confined and hazardous spaces, and whilst these spaces are difficult for humans to work in, a snake-arm robot has no issue. Whether in aircraft assembly, nuclear power stations or the inspection of sewage systems: brushless DC motors from maxon motor are responsible for the high-precision movements of the multiple degree-of-freedom robotic snake-arm.
Just like in science fiction films, the robotic snake-arm
wriggles through small holes. Its task: to perform a safety
inspection in a hard-to-reach location, recording video as it does
so. Very confined and hazardous spaces are common in many
industrial sectors. Small spaces are not only difficult for humans
to access, but these areas and the devices they contain also have
to be inspected frequently. OC Robotics, based in Bristol (UK),
looked at the world of animals for inspiration and developed the “
snake-arm robot”. Managing director Rob Buckingham and technical
director Andrew Graham developed the first prototypes in 2001. They
have continued to this day to perfect the technology behind the
snake-arm robot. The company was founded in 1997 and manufactures
snake-like robots that are especially suitable for confined spaces
and hazardous environments. The snake-arm robots have a slim,
flexible design - they can easily fit through small gaps and
circumnavigate obstacles with great skill.
Snake-arm robots have been used in aerospace assembly, in the nuclear energy sector, in medical technology and in security applications. Depending on the customer's requirements, the snake-arm robot is available in different lengths and diameters. The standard sizes vary from 40 mm to 150 mm in diameter and have a length of 1 m to 3.25 m; if required, lengths of up to 10 m are possible, or diameters down to 12.5mm. The diameter of the snake-arm determines its functionality - the larger the diameter, the more weight the robot can lift.
Each snake-arm is customised specifically for the respective application. Furthermore, the “head” of the snake-arm robot can be equipped with various tools. OC Robotics offers tools for visual inspection with appropriate lighting and cameras, special gripper jaws or lasers for cutting metal and concrete (see video). Depending on the application, the snake-arm robot can be mounted on a stationary or mobile station such as an industrial robot or a gantry.
Always following its nose
The snake-arm is capable of performing a whole range of inspection and maintenance tasks, without any direct support from its environment. It can be navigated freely across open spaces. The robot is controlled by means of proprietary software which enables the operator to control the snake-arm by means of the “ nose-following” principle. A command is transmitted to the tip of the snake-arm by means of a joypad and the rest of the joints follow this specified path. In other words, if the operator steers the tip clear of an obstacle, the rest of the snake-arm will follow suit. With this technology, it becomes a lot easier for people to work in hazardous environments, yet humans are not eliminated completely, explains Rob Buckingham.
Maxon’s brushless DC motors for flexible movements
In a human arm, the tendons connect the muscles to the bones of the joints. Similarly, in the snake-arm robot, stainless-steel wires are connected to the individual joints of the robot like tendons. Each individual wire inside the snake-arm is connected to a maxon motor. The snake-like wriggling movements are the result of the motors transmitting the mechanical power to the snake arm, where the individual joints of the arm are located. Depending on the version, up to 50 brushless DC motors from maxon are installed in each snake-arm. These are not located directly in the arm, but instead in an actuator pack in the base of the robot. This is advantageous as the electronics are more easily accessible and not exposed to the confined and hazardous environments. Another area of use for the motors is the different tools for the snake-arm's head. Here, one or two maxon motors are responsible for the movements of (for example) the gripper jaws or swage tool.
The biggest challenge to the drives is to provide a high enough power output inside a small space. Therefore, the EC-max 30 brushless DC motor (60 W) and the ceramic version of the GP32 planetary gearhead are used for this highly complex application. Thanks to the brushless design, the motors are excellently prepared for long operating times. The heart of a maxon motor is the ironless winding – with the benefits inherent to the physical design, such as zero cogging torque, high efficiency and excellent control dynamics.
Special modifications were necessary for the motors used in the snake-arm robot. A special cable and fastening holes were required, whilst the maxon motor planetary gearhead was modified for the application and a special housing was developed for the brake. For OC Robotics, the reliable motors, good customer support, high quality and high power density were the decisive criteria for choosing maxon motor.
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