Hypersen HPS-FT025 Use-Cases

The Hypersen HPS-FT025 force and torque sensor is a versatile device that can be used in a wide range of applications in industrial automation. Some of the most common applications include robot hand guiding, surface polishing, force-controlled assembly, machine tending, force feedback control, and robot collision avoidance.

In robot hand guiding, the HPS-FT025 can provide real-time force and torque feedback to the robot controller, allowing for precise and accurate control of the robot's movements. This can be especially useful in applications where the robot needs to handle delicate or fragile objects.

In surface polishing applications, the HPS-FT025 can be used to monitor the force and torque applied by the polishing tool, ensuring consistent and high-quality surface finishes. This can be especially useful in applications where surface finish is critical, such as in automotive or aerospace manufacturing.

In force-controlled assembly, the HPS-FT025 can be used to ensure that parts are assembled with the correct force and torque. This can help to prevent damage to the parts and ensure that they are assembled correctly, improving product quality and reducing the risk of failures.

In machine tending applications, the HPS-FT025 can be used to monitor the forces and torques applied by the machine, ensuring that the machine is operating within safe and optimal parameters. This can help to reduce downtime and maintenance costs, as well as improve product quality and throughput.

In force feedback control, the HPS-FT025 can be used to provide real-time feedback to the operator, allowing them to adjust their actions to achieve the desired force and torque. This can be especially useful in applications where precise control is required, such as in surgical robotics or teleoperated systems.

In robot collision avoidance, the HPS-FT025 can be used to detect and measure the forces and torques involved in collisions, allowing the robot to take evasive action or shut down to prevent damage or injury. This can be especially useful in applications where humans are working in close proximity to robots, such as in collaborative robotics.