High Accuracy Wheel Shape Weight Sensor


KWT1D65 series can measure tension load and compression load. This series has multi-range from 2500N to 5000N can be choosen. It can work normally at -10℃ to 80℃, the temperature compensation range is 0~60℃. There are four countersunk holes in the circumferential direction of the sensor, which is convenient to connect with the bottom surface. Due to the small height size, the load cell is fit for using in a vertical space-constrained environment. It can compensate the influence caused by load eccentricity, while keeping high precision and reliability.

Spoke-style force sensors have several advantages over traditional force sensors. Firstly, they are much easier to install and maintain.  They are also very robust and can withstand the harsh conditions of cycling, such as vibration, impacts, and temperature changes. Additionally, spoke-style force sensors provide more accurate and reliable data due to their proximity to the point of force application. They also offer a higher resolution, which makes them useful for analyzing small changes in force during different cycling conditions. Finally, spoke-style force sensors are more cost-effective than traditional force sensors, making them a great choice for research and development purposes.


High Precision Wheel Shape Load Cell
High Precision Wheel Shape Load Cell


Model of KWT1D65



The spoke-style force sensor is a highly useful tool that provides accurate and reliable data about force application. making it a widely used tool in the cycling industry. However, there are many other applications where this sensor can be used to great benefit.

One potential application of the spoke-style force sensor is in sports science. It can be used to measure the forces being applied by athletes during specific activities, such as running or jumping. This data can then be used to evaluate an athlete’s performance and identify areas where they may need to improve. This information can be especially useful in track and field events, where athletes are often judged on their ability to sprint or jump.

Another potential application of the spoke-style force sensor is in the automotive industry. It can be used for pressing and assembling of automotive automatic production lines.

The spoke-style force sensor can also be used in manufacturing to monitor the forces being applied during the fabrication of materials. This can help to ensure that materials are being made to the correct specifications and that they are able to withstand the forces they will be subjected to during use.

Finally, the spoke-style force sensor can be used in medical applications. For example, it can be used to measure the force being applied during surgical procedures, allowing surgeons to adjust their movements to ensure that they are applying the correct amount of force. This can help to improve surgical outcomes and reduce the risk of complications.

In conclusion, the spoke-style force sensor is a highly versatile tool with a wide range of potential applications. Its ability to measure forces accurately and reliably makes it a valuable tool in many industries, from cycling to manufacturing to medicine. As technology continues to advance, it is likely that we will discover even more uses for this innovative sensor.