150Nm Small Joint Torque Sensor
- The diameter is 61 millimeters, the range is 150Nm, and the sensor structure is internally equipped with a special circuit board that outputs RS485 or analog signal.
- Excellent performance and anti bias load ability due to the high quality materials and great advanced craftsmanship.
- The main material is made of aluminum alloy and the inner ring flange of the sensor is specially designed to ensure the stable transmission of torque in the sensor structure.
Small joint torque sensors, also known as miniature force sensors, have become increasingly popular in various research and industrial applications. These sensors, which are typically mounted on rotating shafts or joints, provide measurements of the forces, torques, and angles of the joint movement.
There are several advantages of using small joint torque sensors in various applications:
1. Accuracy: Small joint torque sensors provide high accuracy measurements of joint torque and angle, which is essential in research and industrial applications where precision and accuracy are critical. The measurement accuracy of these sensors is typically within ± 0.5% of the measured value.
2. Compact size: Small joint torque sensors have a compact size and can be easily installed on rotating joints, making them ideal for applications where space is limited. They can also be used in robotic joints, allowing robotic devices to perform accurate and precise movements.
3. Versatility: Small joint torque sensors are versatile and can be used in a variety of applications such as medical research, industrial automation, and robotics. They can also be used to measure torque and angle in more complex movements such as twisting or bending.
4. Durability: These sensors are made from robust materials, making them resistant to wear and tear. They can also withstand harsh environmental conditions, such as exposure to temperature extremes or mechanical stress.
5. Real-time monitoring: Small joint torque sensors provide real-time monitoring of joint movements, which is essential in applications such as rehabilitation or physical therapy. These sensors can provide valuable feedback to physicians or physical therapists, allowing them to track patients’ progress and adjust therapy as needed.
In recent years, there has been an increasing demand for small joint torque sensors in various medical applications such as joint therapy and rehabilitation, as well as in industrial automation and robotics. With their high accuracy, compact size, versatility, durability, and real-time monitoring capability, small joint torque sensors are providing significant benefits in various research and industrial applications.
Model of KWR61N150
Some applications of small joint torque sensors include the following:
1. Athletic Performance Analysis: Small joint torque sensors can be used to measure the forces and moments acting on joints during athletic activities, such as running, jumping, and throwing. This data can provide valuable insights into an athlete’s technique and performance and can be used to optimize training and prevent injuries.
2. Rehabilitation: Small joint torque sensors can be used to provide real-time feedback during rehabilitation exercises, allowing patients and clinicians to monitor joint forces and ensure that exercises are being performed properly and safely.
3. Prosthetics and Orthotics: Small joint torque sensors can be used to provide feedback for patients using prosthetic or orthotic devices, helping them to adjust and optimize their movements and avoid unnecessary forces or stresses on their joints.
4. Ergonomics: Small joint torque sensors can be used to evaluate the forces and moments acting on joints during various occupational activities, such as lifting, pushing, or pulling. This information can be used to design better ergonomic tools and workstations, reducing the risk of injury and improving worker comfort and productivity.
5. Robotics: Small joint torque sensors can be used in robotics and other engineering applications to measure and control joint forces and positions, allowing for more precise and efficient movement and manipulation.
Overall, small joint torque sensors are a valuable tool for understanding and optimizing human movement and for improving the design and control of various devices and systems.