The principle of the plantar pressure plate analysis system is as follows:
A large number of highly sensitive pressure sensors are integrated inside the plantar pressure plate. When a person stands or walks over the pressure plate, the sensors of the pressure plate can sense the pressure of different parts of the sole in real time.
After the sensor collects the pressure distribution of various parts of the sole, it is converted into an electrical signal and transmitted to the computer through the data acquisition module, and displayed in the form of charts and other forms on the computer software.
These charts are rich in data, such as parameters such as the evaluation of the balance state of the left and right feet, the movement trajectory of the center of gravity of the sole, the symmetry of the gait, the frequency of the step, etc.
The icons are easy to understand, not only for professionals to watch, but also for ordinary people to understand the data they want to see, such as being able to see at a glance whether they have flat feet or high arches.
The role of the plantar pressure distribution system:
1. It can scientifically evaluate the health of the feet such as flat feet, high arches, and diabetic feet.
2. Through data, it can help doctors evaluate gait abnormalities, such as whether there are problems such as inversion of the foot, eversion of the foot, and asymmetry of gait, and provide scientific data basis for correction plans.
3. In the field of rehabilitation, the plantar pressure distribution system can be used to monitor the patient’s improvement during postoperative rehabilitation or nerve injury recovery, so as to optimize the rehabilitation plan.
4. In the medical field, doctors can identify abnormal stress points on the soles of the feet from these measured data, and take preventive measures or treatments to prevent the risk of possible foot problems.
5. These plantar pressure distribution data can also be used in the customized design of corrective insoles and corrective shoes to meet the needs of users with special needs.
6. It can also be used in scientific research, such as laboratories, college students’ biomechanics course experiments, etc.
